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Promoting Active Ageing
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Promoting Active Ageing
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“Promoting Active Ageing in Southeast Asia” is a c “Promoting Active Ageing in Southeast Asia” is a comprehensive OECD/ERIA report that examines how ASEAN countries can support healthy, productive, and secure ageing as their populations grow older at unprecedented speed. The report highlights that Southeast Asia is ageing twice as fast as OECD nations, while still facing high levels of informal employment, limited social protection, and gender inequality—making ageing a major economic and social challenge.
Core Purpose
The report identifies what policies ASEAN member states must adopt to ensure:
Older people can remain healthy,
Continue to participate socially and economically, and
Avoid income insecurity in old age.
🧩 What the Report Covers
1. Demographic & Economic Realities
Fertility has dropped across all countries; life expectancy continues to rise.
The old-age to working-age ratio will surge in the next 30 years.
Working-age populations will decrease sharply in Singapore, Thailand, and Vietnam, while still growing in Cambodia, Laos, and the Philippines.
Public expenditure is low, leaving governments with limited capacity to fund pensions or healthcare.
2. Key Barriers to Active Ageing
High informality (up to 90% in some countries): keeps workers outside formal pensions, healthcare, and protections.
Gender inequalities in work, caregiving, and legal rights compound poverty risks for older women.
Low healthcare spending, shortages of medical staff, and rural access gaps.
Limited pension adequacy, low coverage, and low retirement ages.
🧭 Major Policy Recommendations
A. Reduce Labour Market Informality
Lower the cost of formalisation for low-income workers.
Strengthen labour law enforcement and improve business registration processes.
Relax overly strict product/labour market regulations.
B. Reduce Gender Inequality in Old Age
Integrate gender perspectives into all policy design.
Reform discriminatory family and inheritance laws.
Promote financial education and career equality for women.
C. Ensure Inclusive Healthcare Access
Increase public health funding.
Improve efficiency through generics, preventive care, and technology.
Expand health insurance coverage to all.
Use telemedicine and incentives to serve rural areas.
D. Strengthen Old-Age Social Protection
Increase first-tier (basic) pensions.
Raise retirement ages where needed and link them to life expectancy.
Reform PAYG pensions to ensure sustainability.
Make pension systems easier to understand and join.
E. Support Social Participation of Older Adults
Build age-friendly infrastructure (benches, safe crossings, accessible paths).
Create community programs that encourage interaction and prevent isolation.
🧠 Why This Matters
By 2050, ASEAN countries will face dramatic demographic shifts. Without rapid and coordinated policy reforms, millions of older people risk:
Poor health
Lack of income
Social isolation
Inadequate care
This report serves as a strategic blueprint for building healthy, productive, and resilient ageing societies in Southeast Asia....
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Promoting Active Ageing
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“Promoting Active Ageing in Southeast Asia” is a c “Promoting Active Ageing in Southeast Asia” is a comprehensive OECD/ERIA report that examines how ASEAN countries can support healthy, productive, and secure ageing as their populations grow older at unprecedented speed. The report highlights that Southeast Asia is ageing twice as fast as OECD nations, while still facing high levels of informal employment, limited social protection, and gender inequality—making ageing a major economic and social challenge.
Core Purpose
The report identifies what policies ASEAN member states must adopt to ensure:
Older people can remain healthy,
Continue to participate socially and economically, and
Avoid income insecurity in old age.
🧩 What the Report Covers
1. Demographic & Economic Realities
Fertility has dropped across all countries; life expectancy continues to rise.
The old-age to working-age ratio will surge in the next 30 years.
Working-age populations will decrease sharply in Singapore, Thailand, and Vietnam, while still growing in Cambodia, Laos, and the Philippines.
Public expenditure is low, leaving governments with limited capacity to fund pensions or healthcare.
2. Key Barriers to Active Ageing
High informality (up to 90% in some countries): keeps workers outside formal pensions, healthcare, and protections.
Gender inequalities in work, caregiving, and legal rights compound poverty risks for older women.
Low healthcare spending, shortages of medical staff, and rural access gaps.
Limited pension adequacy, low coverage, and low retirement ages.
🧭 Major Policy Recommendations
A. Reduce Labour Market Informality
Lower the cost of formalisation for low-income workers.
Strengthen labour law enforcement and improve business registration processes.
Relax overly strict product/labour market regulations.
B. Reduce Gender Inequality in Old Age
Integrate gender perspectives into all policy design.
Reform discriminatory family and inheritance laws.
Promote financial education and career equality for women.
C. Ensure Inclusive Healthcare Access
Increase public health funding.
Improve efficiency through generics, preventive care, and technology.
Expand health insurance coverage to all.
Use telemedicine and incentives to serve rural areas.
D. Strengthen Old-Age Social Protection
Increase first-tier (basic) pensions.
Raise retirement ages where needed and link them to life expectancy.
Reform PAYG pensions to ensure sustainability.
Make pension systems easier to understand and join.
E. Support Social Participation of Older Adults
Build age-friendly infrastructure (benches, safe crossings, accessible paths).
Create community programs that encourage interaction and prevent isolation.
🧠 Why This Matters
By 2050, ASEAN countries will face dramatic demographic shifts. Without rapid and coordinated policy reforms, millions of older people risk:
Poor health
Lack of income
Social isolation
Inadequate care
This report serves as a strategic blueprint for building healthy, productive, and resilient ageing societies in Southeast Asia....
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A New Map of Life
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A New Map of Life
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Longevity is not a synonym of old age. The increas Longevity is not a synonym of old age. The increase in life expectancy shapes lives from childhood to old age across different domains. Among those, the nature of work will undergo profound changes from skill development and the role of retirement to the intrinsic meaning of work. To put the striking potential of a 100 year life into a historical prospective it is useful to start from how technological and demographic development shaped the organization and the definition of work in the past. This longer view can more thoughtfully explore how different the nature of work has been, from working hours to the parallelism between work, employment and task-assignment.
Throughout history the role of work has been intertwined with social and technological change. Societies developed from hunter-gather to sedentary farmers, and they transitioned from the agricultural to the industrial revolution. The latter transformed a millennial long practice of self-employed farmers and artisans, working mostly for self-subsistence, without official working hours, relying on daylight and seasonality at an unchosen job from childhood until death, into employees working 10-16 hours per day for 311 days a year, mostlyindoorsfromyouthtoretirement. Thisdrastictransformationignitedfastshiftsofworkorganization not only in the pursue of higher productivity and technological advancement, but also of social wellbeing.
Among the first changes was the abandonment of unsustainable working conditions, such as day working hours, which sharply converged toward the eight hours day tendency between the 1910s and the 1940s, see Figure 1 (Huberman and Minns 2007; Feenstra, Inklaar, and Timmer 2015; Charlie Giattino and Roser 2013). Although beneficial for the workers, this reduction worried intellectuals, such as the economist John Maynard Keynes, who wrote: “How will we all keep busy when we only have to work 15 hours a week?” (Keynes 1930). Keynes predicted people’s work to become barely necessary given the level of productivity the economy would reach over the next century: “permanent problem would be how to occupy the leisure,
1
whichscienceandcompoundinterestwillhavewonforhim. [...] Afearfulproblemfortheordinaryperson” (p. 328). For a while, Keynes seemed right since the average workweek dropped from 47 hours in 1930 to slightly less than 39 by 1970. However, after declining for more than a century, the average U.S. work week has been stagnant for four decades, at approximately eight hours per day.1
Figure 1: Average working hours per worker over a full year. Before 1950 the data corresponds only to full-time production workers(non-agricultural activities). Starting 1950 estimates cover total hours worked in the economy as measured from primarily National Accounts data. Source: Charlie Giattino and Roser (2013). Data Sources: Huberman and Minns (2007) and Feenstra, Inklaar, and Timmer (2015).
Technological change did not make work obsolete, but changed the tasks and the proportion of labor force involved in a particular job. In the last seventy years, for example, the number of people employed in the agricultural sector dropped by one third (from almost 6 million to 2 million), while the productivity tripled. Feeding or delivering calves is still part of ranchers’ days, but activities like racking and analyzing genetic traits of livestock and estimating crop yields are a big part of managing and sustaining the ranch operations. In addition, the business and administration activity like bookkeeping, logistics, market pricing, employee supervision became part of the job due to the increase in average farm size from 200 to 450 acres. Another exampleistheeffectoftheautomatedtellermachine(ATM)onbanktellers, whosenumbergrewfromabout a quarter of a million to a half a million in the 45 years since the introduction of ATMs, see Figure 2 (Bessen 2016). ATM allowed banks to operate branch offices at lower cost, which prompted them to open many 1Despite the settling, differences in the number of hours worked between the low and the high skilled widened in the last fifty years. Men without a high school degree experienced an average reduction of eight working hours a week, while college graduates faced an increase of six hours a week. Similarly, female graduates work 11 hours a week more than those who did not complete high school (Dolton 2017). Overall, American full-time employees work on average 41.5 hours per week, and about 11.1% of employees work over 50 hours per week, which is much higher than countries with a comparable level of productivity like Switzerland, where 0.4% of employees work over 50 hours per week (Feenstra, Inklaar, and Timmer 2015) and part time work is commonplace...
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Future-Proofing the life
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Future-Proofing the Longevity
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This document is published by the World Economic F This document is published by the World Economic Forum as a contribution to a project, insight area or interaction. The findings, interpretations and conclusions expressed herein are the result of a collaborative process facilitated and endorsed by the World Economic Forum but whose results do not necessarily represent the views of the World Economic Forum, nor the entirety of its Members, Partners or other stakeholders. In this paper, many areas of innovation have been highlighted with the potential to support the longevity economy transition. The fact that a particular company or product is highlighted in this paper does not represent an endorsement or recommendation on behalf of the World
Haleh Nazeri Lead, Longevity Economy, World Economic Forum
Graham Pearce Senior Partner, Global Defined Benefit Segment Leader, Mercer
The world appears increasingly fragmented, but one universal reality connects us all – ageing. Across the world, people are living longer than past generations, in some cases by up to 20 years. This longevity shift, coupled with declining birth rates, is reshaping economies, workforces and financial systems, with profound implications for individuals, businesses and governments alike.
As countries transform, the systems that underpin them must also evolve. Today’s reality includes a widening gap between healthspan and lifespan, the emergence of a multigenerational workforce with five generations working side by side, and the need for stronger intergenerational collaboration.
One of the most important topics to consider during this demographic transition is the economic implications of longer lives. This paper highlights five key trends that will influence and shape the financial resilience of institutions, governments
and individuals in the years ahead. It also showcases innovative solutions that are already being implemented by countries, businesses and organizations to prepare for the future.
While the challenges are significant, they also present an opportunity to develop systems that are more inclusive, equitable, resilient and sustainable for the long term. This is a chance to strengthen pension systems and social protections, not only for those who have traditionally benefited, but also for those who were left out of social contracts the first time.
We are grateful to our multistake holder consortium of leaders across business, the public sector, civil society and academia for their contributions, inputs and collaboration on this report. We look forward to seeing how others will continue to build on these innovative ideas to future-proof the longevity economy for a brighter and more ...
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Live Longer
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How to live longer ?
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How to Live Longer is a comprehensive, science-bas How to Live Longer is a comprehensive, science-based lifestyle guide that translates decades of longevity research into simple daily actions that anyone can apply. Designed as a practical handbook rather than an academic review, it organizes the most powerful, evidence-supported habits into six core pillars of healthy aging:
Stay Active
Eat Wisely
Manage Stress
Sleep Well
Build Social Connection
Maintain Mental Stimulation
These pillars form a “longevity lifestyle,” emphasizing that small, consistent actions—especially in midlife—produce large benefits in later years.
The eBook integrates insights from real-world longevity hotspots such as Blue Zones (Okinawa, Sardinia, Nicoya, Ikaria, Loma Linda), modern public-health science, and behavioral psychology to show how daily routines shape health trajectories across the lifespan.
🔍 Core Pillars & Science-Backed Practices
1. Staying Active
Activity is the single strongest predictor of how well someone ages.
The guide recommends:
Strength training
Frequent walking
Active living (taking stairs, chores, gardening)
Stretching for mobility
Regular physical activity improves the heart, brain, metabolism, muscle strength, mood, and overall vitality.
2. Eating Wisely
A longevity-focused diet emphasizes:
Mostly plant-based meals
Fruits, vegetables, whole grains, legumes
Nuts and seeds daily
Healthy fats (olive oil, omega-3s)
Smaller portions and mindful eating
The guide highlights traditional dietary patterns of Blue Zones, especially Mediterranean and Okinawan models, which are strongly linked to long life and reduced chronic disease.
3. Managing Stress
Chronic stress accelerates aging, inflammation, and disease.
The eBook recommends:
Mindfulness and meditation
Breathing exercises
Yoga
Time in nature
Hobby-based relaxation
Scheduling downtime
These practices help regulate emotional well-being, improve resilience, and support healthier biological aging.
4. Good Quality Sleep
Sleep is described as a longevity multiplier, with profound effects on immune health, metabolic balance, brain function, and emotional stability.
The guide includes:
Consistent sleep schedules
Dark, cool sleeping environments
Reducing caffeine, alcohol, and screens before bed
5. Social Connection
Loneliness is a major risk factor for early mortality, comparable to smoking and inactivity.
The eBook emphasizes:
Strong family bonds
Friendships
Community involvement
Purposeful living (“ikigai”)
This reflects consistent findings from longevity populations worldwide.
6. Staying Mentally Active
Lifelong learning, mental stimulation, and cognitively engaging activities help preserve brain function.
Recommendations include:
Reading
Learning new skills
Puzzles or games
Creative pursuits
These habits strengthen cognitive reserve and support healthier aging.
💡 Overall Insight
The eBook argues that longevity is not about extreme interventions—it is about consistent, realistic, enjoyable habits grounded in strong science. It blends public-health evidence with lifestyle medicine, emphasizing that aging well is achievable for anyone, regardless of genetics.
Across all chapters, the tone remains practical: longevity is built through everyday choices, not expensive biohacking.
🧭 In Summary
How to Live Longer is a practical, evidence-driven handbook that shows how daily movement, nutritious eating, stress control, quality sleep, social belonging, and lifelong learning combine to support longer, healthier, more fulfilling lives....
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financial impact
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financial impact of longevity and risk
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e economic and fiscal effects of an aging society e economic and fiscal effects of an aging society have been extensively studied and are generally recognized by policymakers, but the financial consequences associated with the risk that people live longer than expected—longevity risk—has received less attention.1 Unanticipated increases in the average human life span can result from misjudging the continuing upward trend in life expectancy, introducing small forecasting errors that compound over time to become potentially significant. This has happened in the past. There is also risk of a sudden large increase in longevity as a result of, for example, an unanticipated medical breakthrough. Although longevity advancements increase the productive life span and welfare of millions of individuals, they also represent potential costs when they reach retirement. More attention to this issue is warranted now from the financial viewpoint; since longevity risk exposure is large, it adds to the already massive costs of aging populations expected in the decades ahead, fiscal balance sheets of many of the affected countries are weak, and effective mitigation measures will take years to bear fruit. The large costs of aging are being recognized, including a belated catchup to the currently expected increases in average human life spans. The costs of longevity risk—unexpected increases in life spans—are not well appreciated, but are of similar magnitude. This chapter presents estimates that suggest that if everyone lives three years longer than now expected—the average underestimation of longevity in the past—the present discounted value of the additional living expenses of everyone during those additional years of life amounts to between 25 and 50 percent of 2010 GDP. On a global scale, that increase amounts to tens of trillions of U.S. dollars, boosting the already recognized costs of aging substantially. Threats to financial stability from longevity risk derive from at least two major sources. One is the
Note: This chapter was written by S. Erik Oppers (team leader), Ken Chikada, Frank Eich, Patrick Imam, John Kiff, Michael Kisser, Mauricio Soto, and Tao Sun. Research support was provided by Yoon Sook Kim. 1See, for example, IMF (2011a).
threats to fiscal sustainability as a result of large longevity exposures of governments, which, if realized, could push up debttoGDP ratios more than 50 percentage points in some countries. A second factor is possible threats to the solvency of private financial and corporate institutions exposed to longevity risk; for example, corporate pension plans in the United States could see their liabilities rise by some 9 percent, a shortfall that would require many multiples of typical yearly contributions to address. Longevity risk threatens to undermine fiscal sustainability in the coming years and decades, complicating the longerterm consolidation efforts in response to the current fiscal difficulties.2 Much of the risk borne by governments (that is, current and future taxpayers) is through public pension plans, social security schemes, and the threat that private pension plans and individuals will have insufficient resources to provide for unexpectedly lengthy retirements. Most private pension systems in the advanced economies are currently underfunded and longevity risk alongside low interest rates further threatens their financial health. A threepronged approach should be taken to address longevity risk, with measures implemented as soon as feasible to avoid a need for much larger adjustments later. Measures to be taken include: (i) acknowledging government exposure to longevity risk and implementing measures to ensure that it does not threaten medium and longterm fiscal sustainability; (ii) risk sharing between governments, private pension providers, and individuals, partly through increased individual financial buffers for retirement, pension system reform, and sustainable oldage safety nets; and (iii) transferring longevity risk in capital markets to those that can better bear it. An important part of reform will be to link retirement ages to advances in longevity. If undertaken now, these mitigation measures can be implemented in a gradual and sustainable way. Delays would increase risks to financial and fiscal stability, potentially requiring much larger and disruptive measures in the future.
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Extreme Human Lifespan
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Extreme Human Lifespan
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The indexed individual, from now on termed M116, w The indexed individual, from now on termed M116, was the world's oldest verified living person from January 17th 2023 until her passing on August 19th 2024, reaching the age of 117 years and 168 days (https://www.supercentenarian.com/records.html). She was a Caucasian woman born on March 4th 1907 in San Francisco, USA, from Spanish parents and settled in Spain since she was 8. A timeline of her life events and her genealogical tree are shown in Supplementary Fig. 1a-b. Although centenarians are becoming more common in the demographics of human populations, the so-called supercentenarians (over 110 years old) are still a rarity. In Catalonia, the historic nation where M116 lived, the lifeexpectancy for women is 86 years, so she exceeded the average by more than 30 years (https://www.idescat.cat). In a similar manner to premature aging syndromes, such as Hutchinson-Gilford Progeria and Werner syndrome, which can provide relevant clues about the mechanisms of aging, the study of supercentenarians might also shed light on the pathways involved in lifespan. To unfold the biological properties exhibited by such a remarkable human being, we developed a comprehensive multiomics analysis of her genomic, transcriptomic, metabolomic, proteomic, microbiomic and epigenomic landscapes in different tissues, as depicted in Fig. 1a, comparing the results with those observed in non-supercentenarian populations. The picture that emerges from our study shows that extremely advanced age and poor health are not intrinsically linked and that both processes can be distinguished and dissected at the molecular level.
RESULTS AND DISCUSSION Samples from the subject were obtained from four different sources: total peripheral blood, saliva, urine and stool at different times. Most of the analyses were performed in the blood material at the time point of 116 years and 74 days, unless otherwise specifically indicated (Data set 1). The simple karyotype of the supercentenarian did not show any gross chromosomal alteration (Supplementary Fig. 1c). Since many reports indicate the involvement of telomeres in aging and lifespan1, we interrogated the telomere length of the M116 individual using High-Throughput Quantitative Fluorescence In Situ Hybridization (HT-Q-FISH) analysis2. Illustrative confocal images with DAPI staining and the telomeric probe (TTAGGG) for M116 and two control samples are shown in Fig. 1b. Strikingly, we observed that the supercentenarian exhibited the shortest mean telomere length among all healthy volunteers3 with a value of barely 8 kb (Fig. 1c). Even more noticeably, the M116 individual displayed a 40% of short telomeres below the 20th percentile of all the studied samples (Fig. 1c). Thus, the observed far reach longevity of our case occurred in the chromosomal context of extremely short telomeres. Interestingly, because the M116 individual presented an overall good health status, it is tempting to speculate that, in this ...
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AGEING IN ASIA
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AGEING IN ASIA AND THE PACIFIC
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as a whole. This highlights the need for countries as a whole. This highlights the need for countries with relatively low proportion of older persons to also put in place appropriate policies and interventions to address their specific rights and needs, and to prepare for ageing societies in the future.
An increase in the proportion and number of the oldest old (persons over the age of 80 years)
The oldest old person, the number of people aged 80 years or over, in the region is also showing a dramatic upward trend. The proportion of the oldest old in the region in the total population 2016 was 1.5 per cent of the population amounting to 68 million people, which is 53 per cent of the global population over 80 years old. This proportion is expected to rise to 5 per cent of the population totaling 258 million people by 2050. Asia
Pacific would have 59 per cent of the world population over 80 years of age compared to 53 per cent at present. This has serious implications for provision of appropriate health care and long term care, as well as income security.
The causes…
The drastic increase in the pace of ageing in the region can be attributed to two key factors, declining fertility rates and increasing life expectancies.
Rapidly declining fertility: The most precipitous declines in the region’s fertility have been in the South and SouthWest, and South-East Asia subregions, with the fertility rates falling by 50 per cent in a span of 40 years. ...
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tvczpisc-6894
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Happy People Live Longer
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Happy People Live Longer
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This comprehensive review demonstrates that subjec This comprehensive review demonstrates that subjective well-being (SWB)—including happiness, life satisfaction, optimism, and positive emotions—plays a causal and measurable role in promoting better health, stronger physiological functioning, and longer life. Drawing on seven converging lines of evidence from longitudinal human studies, laboratory experiments, physiological research, animal studies, natural experiments, and intervention trials, the authors present one of the most rigorous and multidimensional examinations of the happiness–health connection.
The review shows that individuals who experience higher levels of SWB not only report better health but live significantly longer, even when controlling for baseline health status, socioeconomic factors, and lifestyle. Positive emotions predict reduced mortality, lower risk of cardiovascular disease, stronger immune function, and improved resilience to stress. In contrast, chronic negative emotions—such as depression, anxiety, and hostility—are linked to inflammation, impaired immunity, hypertension, atherosclerosis, and accelerated aging.
The document organizes evidence into seven major categories:
1. Long-term Prospective Studies
Large-scale, decades-long studies consistently show that SWB predicts longevity in healthy populations and sometimes improves survival in diseased populations. Optimists and individuals with high positive affect live longer than pessimists and those with low affect.
2. Naturalistic Physiological Studies
Everyday positive emotions correlate with lower cortisol, reduced blood pressure, healthier cardiovascular responses, and lower inflammation. Negative emotions produce harmful biological patterns such as elevated cytokines and delayed wound healing.
3. Experimental Mood Induction Studies
When researchers induce positive or negative emotions in controlled settings, they observe immediate changes in cardiovascular activity, immune function, stress hormones, and healing responses—confirming direct causal pathways.
4. Animal Research
Studies on monkeys, pigs, hamsters, and rodents show that stress compromises immunity, accelerates disease processes, and shortens lifespan, while positive social environments and reward-based experiences promote health and healing.
5. Quasi-experimental Studies of Real-world Events
Major emotional events—earthquakes, wars, bereavement—produce measurable spikes in mortality and biological stress markers, revealing how emotional states influence health at the population level.
6. Interventions That Improve SWB
Meditation, relaxation training, social support enhancement, and hostility-reduction interventions lead to measurable improvements in immune function, blood pressure, wound healing, and in some cases, longer survival.
7. Studies on Quality of Life and Pain
Positive emotions reduce pain sensitivity, accelerate functional recovery, and improve daily functioning among people with chronic illnesses.
Key Conclusion
Across diverse methods and populations, the evidence forms a compelling causal model:
**Happiness is not just an outcome of good health—
it is a contributor to it.**
SWB influences the immune, cardiovascular, endocrine, and inflammatory systems, shaping vulnerability or resilience to disease. While happiness cannot cure all illnesses, especially severe or rapidly progressing diseases, it profoundly improves health trajectories in both healthy and clinical populations.
In Essence
This document is a landmark synthesis demonstrating that happy people truly live longer, and that fostering subjective well-being is not merely a psychological luxury but a powerful public health priority with far-reaching implications for prevention, aging, and holistic healthcare.
If you'd like, I can also create:
✅ A shorter description
✅ An academic abstract
✅ A graphical diagram summarizing the pathways
✅ A bullet-point executive overview
Just tell me!...
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dzeplixu-2464
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foot prints in the sand
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foot prints in the sand
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Stephen Treaster1,2, David Karasik3,4*† and Matthe Stephen Treaster1,2, David Karasik3,4*† and Matthew P. Harris1,2†
1 Department of Orthopaedics, Boston Children’s Hospital, Boston, MA, United States, 2 Department of Genetics, Harvard Medical School, Boston, MA, United States, 3 Azrieli Faculty of Medicine, Bar-Ilan University, Ramat Gan, Israel, 4 Marcus Institute for Aging Research, Hebrew SeniorLife, Boston, MA, United States
With the modern quality, quantity, and availability of genomic sequencing across species, as well as across the expanse of human populations, we can screen for shared signatures underlying longevity and lifespan. Knowledge of these mechanisms would be medically invaluable in combating aging and age-related diseases. The diversity of longevities across vertebrates is an opportunity to look for patterns of genetic variation that may signal how this life history property is regulated, and ultimately how it can be modulated. Variation in human longevity provides a unique window to look for cases of extreme lifespan within a population, as well as associations across populations for factors that influence capacity to live longer. Current large cohort studies support the use of population level analyses to identify key factors associating with human lifespan. These studies are powerful in concept, but have demonstrated limited ability to resolve signals from background variation. In parallel, the expanding catalog of sequencing and annotation from diverse species, some of which have evolved longevities well past a human lifespan, provides independent cases to look at the genomic signatures of longevity. Recent comparative genomic work has shown promise in finding shared mechanisms associating with longevity among distantly related vertebrate groups. Given the genetic constraints between vertebrates, we posit that a combination of approaches, of parallel meta-analysis of human longevity along with refined analysis of other vertebrate clades having exceptional longevity, will aid in resolving key regulators
of enhanced lifespan that have proven to be elusive when analyzed in isolation....
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vwitogci-0660
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Developmental Diet Alters
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Developmental Diet Alters the Fecundity–Longevity
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Drosophila melanogaster David H. Collins, PhD,*, D Drosophila melanogaster David H. Collins, PhD,*, David C. Prince, PhD, Jenny L. Donelan, MSc, Tracey Chapman, PhD , and Andrew F. G. Bourke, PhD School of Biological Sciences, University of East Anglia, Norwich, UK. *Address correspondence to: David H. Collins, PhD. E-mail: David.Collins@uea.ac.uk Decision Editor: Gustavo Duque, MD, PhD (Biological Sciences Section)
Abstract The standard evolutionary theory of aging predicts a negative relationship (trade-off) between fecundity and longevity. However, in principle, the fecundity–longevity relationship can become positive in populations in which individuals have unequal resources. Positive fecundity–longevity relationships also occur in queens of eusocial insects such as ants and bees. Developmental diet is likely to be central to determining trade-offs as it affects key fitness traits, but its exact role remains uncertain. For example, in Drosophila melanogaster, changes in adult diet can affect fecundity, longevity, and gene expression throughout life, but it is unknown how changes in developmental (larval) diet affect fecundity–longevity relationships and gene expression in adults. Using D. melanogaster, we tested the hypothesis that varying developmental diets alters the directionality of fecundity–longevity relationships in adults, and characterized associated gene expression changes. We reared larvae on low (20%), medium (100%), and high (120%) yeast diets, and transferred adult females to a common diet. We measured fecundity and longevity of individual adult females and profiled gene expression changes with age. Adult females raised on different larval diets exhibited fecundity–longevity relationships that varied from significantly positive to significantly negative, despite minimal differences in mean lifetime fertility or longevity. Treatments also differed in age-related gene expression, including for aging-related genes. Hence, the sign of fecundity–longevity relationships in adult insects can be altered and even reversed by changes in larval diet quality. By extension, larval diet differences may represent a key mechanistic factor underpinning positive fecundity–longevity relationships observed in species such as eusocial insects. Keywords: Aging, Eusociality, Life history, mRNA-seq, Nutrition
The standard evolutionary theory of aging predicts that, as individuals grow older, selection for increased survivorship declines with age (1). Therefore, individuals experience the age-related decrease in performance and survivorship that defines aging (senescence) (2). Additionally, given finite resources, individuals should optimize relative investment between reproduction and somatic maintenance (3). This causes tradeoffs between reproduction and longevity (4,5) with elevated reproduction often incurring costs to longevity (the costs of reproduction) (6). Such trade-offs and costs are evident in the negative fecundity–longevity relationships observed in many species. Although a negative fecundity–longevity relationship is typical, fecundity and longevity can become uncoupled (7) and some species or populations may exhibit positive fecundity– longevity relationships (4). This can occur for several reasons. First, in Drosophila melanogaster, mutations can increase longevity without apparent reproductive costs (8–11), particularly mutations in the conserved insulin/insulin-like growth factor signaling and target of rapamycin network (IIS-TOR).
This network regulates nutrient sensitivity and is an important component of aging across diverse taxa (2,12). Second, fecundity and longevity can become uncoupled when there is asymmetric resourcing between individuals (13,14). Within a population, well-resourced individuals may have higher fecundity and longevity than poorly resourced individuals, reversing the usual negative fecundity–longevity relationship. However, because costs of reproduction are not abolished even in well-resourced individuals (13,14), a within-individual trade-off between fecundity and longevity remains present. Third, fecundity and longevity can become uncoupled within and between the castes of eusocial insects (15–18), that is, species such as ants, bees, wasps, and termites with a longlived reproductive caste (queens or kings) and a short-lived non- or less reproductive caste (workers) (19–21). In some species, queens appear to have escaped costs of reproduction completely (22–25). This may have been achieved through rewiring the IIS-TOR network (12,26), which forms part of the TOR/IIS-juvenile hormone-lifespan and fecundity (TI-JLiFe) network hypothesized to underpin aging and longevity in eusocial insects by Korb et al....
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ticcnekp-9326
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Genetics of human longevi
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Genetics of human longevity
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Abstract. Smulders L, Deelen J. Genetics of human Abstract. Smulders L, Deelen J. Genetics of human longevity: From variants to genes to pathways. J Intern Med. 2024;295:416–35.
The current increase in lifespan without an equivalent increase in healthspan poses a grave challenge to the healthcare system and a severe burden on society. However, some individuals seem to be able to live a long and healthy life without the occurrence of major debilitating chronic diseases, and part of this trait seems to be hidden in their genome. In this review, we discuss the findings from studies on the genetic component of human longevity and the main challenges accompanying these studies. We subsequently focus on results from genetic studies in model organismsandcomparativegenomicapproachesto highlight the most important conserved longevity
associated pathways. By combining the results from studies using these different approaches, we conclude that only five main pathways have been consistently linked to longevity, namely (1) insulin/insulin-like growth factor 1 signalling, (2) DNA-damage response and repair, (3) immune function, (4) cholesterol metabolism and (5) telomere maintenance. As our current approaches to study the relevance of these pathways in humans are limited, we suggest that future studies on the genetics of human longevity should focus on the identification and functional characterization of rare genetic variants in genes involved in these pathways.
Keywords: genetics, longevity, longevity-associated pathways, rare genetic variants, functional characterization...
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A mathematical model
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A mathematical model to estimate the seasonal
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Yasuhiro Yamada1,3, Toshiro Yamada 2,4 & Kazu Yasuhiro Yamada1,3, Toshiro Yamada 2,4 & Kazuko Yamada2,4
The longevity of a honeybee colony is far more significant than the lifespan of an individual honeybee, a social insect. the longevity of a honeybee colony is integral to the fate of the colony. We have proposed a new mathematical model to estimate the apparent longevity defined in the upper limit of an integral equation. the apparent longevity can be determined only from the numbers of adult bees and capped brood. By applying the mathematical model to a honeybee colony in Japan, seasonal changes in apparent longevity were estimated in three long-term field experiments. Three apparent longevities showed very similar season-changes to one another, increasing from early autumn, reaching a maximum at the end of overwintering and falling approximately plumb down after overwintering. The influence of measurement errors in the numbers of adult bees and capped brood on the apparent longevity was investigated.
A lifespan of an animal, which is the period of time while an individual is alive, is an important index to evaluate individual activities. In the colony composed of eusocial insects such as honeybees (Apis mellifera) which exhibit age-polyethism, the lifespan of each individual cannot always give an assessment as to the activities of a colony but the longevity of colony could give it more appropriately. The longevity of a colony will have greater significance than the lifespan of each individual of the colony. The life of colony diversely depends on the inborn lifespan of an individual, the labor division distribution ratio of each honeybee performing a particular duty, the natural environment such as the weather, the amount of food, pests and pathogens, the environmental pollution due to pesticides and so on. The honeybee length of life has been observed or estimated before in the four seasons, which have a distinct bimodal distribution in temperature zones. According to previous papers, honeybees live for 2–4 weeks1 and 30–40 days2 in spring, for 1–2 weeks1, 25–30 days2 and 15–38 days3 in summer, for 2–4 weeks1 and 50–60 days2 in autumn, and for 150–200 days3, 253 days2, 270 days4, 304 days5 6–8 months6 and 150–200 days3 in winter, where it has been estimated that the difference of life length among seasons may come from the brood-rearing load imposed on honeybees1 and may mainly come from foraging and brood-rearing activity2. Incidentally, the lifetime of the queen seems to be three to four years (maximum observed nine years). The average length of life of worker bees in laboratory cages was observed to range from 30.5 to 45.5 days7. The study on the influence of altitude on the lifespan of the honeybee has found that the lifespans are 138 days at an altitude of 970 m and 73 days at an altitude of 200 m, respectively8. Many papers have discussed what factors affect the length of life (lifespan, longevity, life expectancy) on a honeybee colony as follows: Proper nutrition may increase the length of life in a honeybee colony. Honeybees taking beebread or diets with date palm pollen (the best source for hypopharyngeal gland development) showed the longest fifty percent lethal time (LT50)9. The examination for the effect of various fat proteins on honeybee longevity have shown that honeybees fed diets of red gum pollen have the longest lifespan but those fed invert sugar have the shortest lifespan10. In the discussion on nutrition-related risks to honey bee colonies such as starvation, monoculture, genetically modified crops and pesticides in pollen and sugar, protein nutrient strongly affects brood production and larval starvation (alone and or in combination with other stresses) can weaken colonies11. And protein content in
1Department of Applied Physics, Graduate School of Engineering, University of Tokyo, Hongo 7-3-1, Bunkyo-ku, Tokyo, 113-8656, Japan. 2Graduate School of Natural Science & Technology, Kanazawa University, Kakuma-machi, Kanazawa, 920-1192, Japan. 3Present address: Department of Physics, Osaka University, 1-1 Machikaneyama, Toyonaka, Osaka, 560-0043, Japan. 4Present address: 2-10-15, Teraji, Kanazawa, Ishikawa, 921-8178, Japan. correspondence and requests for materials should be addressed to t.Y. (email: yamatoshikazu0501@yahoo.co.jp)
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Health Status and Empiric
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Health Status and Empirical Model of Longevity
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This research paper by Hugo Benítez-Silva and Huan This research paper by Hugo Benítez-Silva and Huan Ni develops one of the most detailed and rigorous empirical models explaining how health status and health changes shape people’s expectations of how long they will live. It uses panel data from the U.S. Health and Retirement Study (HRS), a large longitudinal survey of older adults.
🌟 Core Purpose of the Study
The paper investigates:
How do different measures of health—especially changes in health—affect people’s expected longevity (their subjective probability of living to age 75)?
It challenges the common assumption that simply using “current health status” or lagged health is enough to measure health dynamics. Instead, the authors argue that:
➡ Self-reported health changes (e.g., “much worse,” “better”)
are more accurate and meaningful than
➡ Computed health changes (differences between two reported health statuses).
📌 Key Concepts
1. Health Dynamics Matter
Health is not static—people experience:
gradual aging
chronic disease progression
sudden health shocks
effects of lifestyle and medical interventions
These dynamic elements shape how people assess their future survival.
Health Status and Empirical Mod…
2. Why Self-Reported Health Status Is Imperfect
The paper identifies three major problems with simply using self-rated health categories:
Health Status and Empirical Mod…
a. Cut-point shifts
People’s interpretation of “good” or “very good” health can change over time.
b. Gray areas
Some individuals cannot clearly categorize their health, leading to arbitrary reports.
c. Peer/reference effects
People compare themselves with different reference groups as they age.
These issues mean self-rated health alone doesn’t capture true health changes.
📌 3. Two Measures of Health Change
The authors compare:
A. Self-Reported Health Change (Preferred)
Direct question:
“Compared to last time, is your health better, same, worse?”
Advantages:
captures subtle changes
less affected by shifting cut-points
aligns more closely with subjective survival expectations
B. Computed Health Change (Problematic)
This is calculated mathematically as:
Health score (t+1) − Health score (t)
Problems:
inconsistent with self-reports in 38% of cases
loses information when health changes but does not cross a discrete category
introduces potential measurement error
Health Status and Empirical Mod…
🧠 Why This Matters
Expected longevity influences:
savings behavior
retirement timing
annuity purchases
life insurance decisions
health care usage
Health Status and Empirical Mod…
If researchers use bad measures of health, they may misinterpret how people plan for the future.
📊 Data and Methodology
Uses six waves of the HRS (1992–2003)
Sample: 9,000+ individuals, 24,000+ observations
Controls for:
chronic conditions (heart disease, cancer, diabetes)
ADLs/IADLs
socioeconomic variables
parental longevity
demographic factors
unobserved heterogeneity
Health Status and Empirical Mod…
The model is treated like a production function of longevity, following economic theories of health investment under uncertainty.
📈 Major Findings
✔ 1. Self-reported health changes strongly predict expected longevity
People who report worsening health show large drops in survival expectations.
Health Status and Empirical Mod…
✔ 2. Computed health changes frequently misrepresent true health dynamics
38% are inconsistent
15% lose meaningful health-change information
Health Status and Empirical Mod…
✔ 3. Self-reported changes have effects similar in magnitude to current health levels
This means:
Health trajectory matters as much as current health.
Health Status and Empirical Mod…
✔ 4. Health change measures are crucial for accurate modeling
Failing to include dynamic health measures causes:
biased estimates
misinterpretation of longevity expectations
🏁 Conclusion
This paper makes a major contribution by demonstrating that:
To understand how people form expectations about their own longevity, you must measure health as a dynamic process—not just a static snapshot.
The authors recommend that future empirical models, especially those using large panel surveys like the HRS, should:
✔ prioritize self-reported health changes
✔ treat computed changes with caution
✔ incorporate dynamics of health in survival models
These insights improve research in aging, retirement economics, health policy, and behavioral modeling.
Health Status and Empirical Mod…
If you want, I can also create:
📌 A diagram/flowchart of the model
📌 A one-paragraph brief summary
📌 A bullet-point version
📌 A presentation slide style explanation
Just tell me!...
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Global and National Declines in Life
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Period life expectancy at birth [life expecta
Period life expectancy at birth [life expectancy thereafter] is the most-frequently used indicator
of mortality conditions. More broadly, life expectancy is commonly taken as a marker of human
progress, for instance in aggregate indices such as the Human Development Index (United
Nations Development Programme 2020). The United Nations (UN) regularly updates and makes
available life expectancy estimates for every country, various country aggregates and the world
for every year since 1950 (Gerland, Raftery, Ševčíková et al. 2014), providing a 70-year
benchmark for assessing the direction and magnitude of mortality changes....
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Period life expectancy at birth [life expecta
Period life expectancy at birth [life expectancy thereafter] is the most-frequently used indicator
of mortality conditions. More broadly, life expectancy is commonly taken as a marker of human
progress, for instance in aggregate indices such as the Human Development Index (United
Nations Development Programme 2020). The United Nations (UN) regularly updates and makes
available life expectancy estimates for every country, various country aggregates and the world
for every year since 1950 (Gerland, Raftery, Ševčíková et al. 2014), providing a 70-year
benchmark for assessing the direction and magnitude of mortality changes....
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Grandmothers and the Evolution of Human Longevity
Grandmothers and the Evolution of Human Longevity
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“Grandmothers and the Evolution of Human Longevity “Grandmothers and the Evolution of Human Longevity”**
This PDF is a scholarly research article that presents and explains the Grandmother Hypothesis—one of the most influential evolutionary theories for why humans live so long after reproduction. The paper argues that human longevity evolved largely because ancestral grandmothers played a crucial role in helping raise their grandchildren, thereby increasing family survival and passing on genes that favored longer life.
The article combines anthropology, evolutionary biology, and demographic modeling to show that grandmothering behavior dramatically enhanced reproductive success and survival in early human societies, creating evolutionary pressure for extended lifespan.
👵 1. Core Idea: The Grandmother Hypothesis
The central argument is:
Human females live long past menopause because grandmothers helped feed, protect, and support their grandchildren, allowing mothers to reproduce more frequently.
This cooperative childcare increased survival rates and promoted the evolution of long life, especially among women.
Healthy Ageing
🧬 2. Evolutionary Background
The article explains key evolutionary facts:
Humans are unique among primates because females experience decades of post-reproductive life.
In other great apes, females rarely outlive their fertility.
Human children are unusually dependent for many years; mothers benefit greatly from help.
Grandmothers filled this gap, making longevity advantageous in evolutionary terms.
Healthy Ageing
🍂 3. Why Grandmothers Increased Survival
The study shows how ancestral grandmothers:
⭐ Provided extra food
Especially gathered foods like tubers and plant resources.
⭐ Allowed mothers to wean earlier
Mothers could have more babies sooner, increasing reproductive success.
⭐ Improved child survival
Grandmother assistance reduced infant and child mortality.
⭐ Increased group resilience
More caregivers meant better protection and food access.
These survival advantages favored genes that supported prolonged life.
Healthy Ageing
📊 4. Mathematical & Demographic Modeling
The PDF includes modeling to demonstrate:
How grandmother involvement changes fertility patterns
How increased juvenile survival leads to higher population growth
How longevity becomes advantageous over generations
Models show that adding grandmother support significantly increases life expectancy in evolutionary simulations.
Healthy Ageing
👶 5. Human Childhood and Weaning
Human children:
Develop slowly
Need long-term nutritional and social support
Rely on help beyond their mother
Early weaning—made possible by grandmother help—creates shorter birth intervals, boosting the reproductive output of mothers and promoting genetic selection for long-lived helpers (grandmothers).
Healthy Ageing
🧠 6. Implications for Human Evolution
The article argues that grandmothering helped shape:
✔ Human social structure
Cooperative families and multigenerational groups.
✔ Human biology
Long lifespan, menopause, slower childhood development.
✔ Human culture
Shared caregiving, food-sharing traditions, teaching, and cooperation.
Healthy Ageing
Grandmothers became essential to early human success.
🧓 7. Menopause and Post-Reproductive Lifespan
One major question in evolution is: Why does menopause exist?
The article explains that:
Natural selection usually favors continued reproduction.
But in humans, the benefits of supporting grandchildren outweigh late-life reproduction.
This shift created evolutionary support for long post-reproductive life.
Healthy Ageing
⭐ Overall Summary
This PDF provides a clear and compelling explanation of how grandmothering behavior shaped human evolution, helping produce our unusually long life spans. It argues that grandmothers increased survival, supported early weaning, and boosted reproduction in early humans, leading natural selection to favor individuals—especially females—who lived well past their reproductive years. The article blends anthropology, biology, and mathematical modeling to show that the evolution of human longevity is inseparable from the evolutionary importance of grandmothers....
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7b2a2799-a74e-4dd4-93a8-4bbabe61ca47
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vtciomis-0967
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xevyo
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Diet-dependent entropic a
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Diet-dependent entropic assessment of athletes’
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Cennet Yildiz1, Melek Ece Öngel2 , Bayram Yilmaz3 Cennet Yildiz1, Melek Ece Öngel2 , Bayram Yilmaz3 and Mustafa Özilgen1* 1Department of Food Engineering, Yeditepe University, Kayısdagi, Atasehir, Istanbul 34755, Turkey 2Nutrition and Dietetics Department, Yeditepe University, Kayısdagi, Atasehir, Istanbul 34755, Turkey 3Faculty of Medicine, Department of Physiology, Yeditepe University, Istanbul, Turkey
(Received 29 July 2021 – Final revision received 26 August 2021 – Accepted 26 August 2021)
Journal of Nutritional Science (2021), vol. 10, e83, page 1 of 8 doi:10.1017/jns.2021.78
Abstract Life expectancies of the athletes depend on the sports they are doing. The entropic age concept, which was found successful in the previous nutrition studies, will be employed to assess the relation between the athletes’ longevity and nutrition. Depending on their caloric needs, diets are designed for each group of athletes based on the most recent guidelines while they are pursuing their careers and for the post-retirement period, and then the metabolic entropy generation was worked out for each group. Their expected lifespans, based on attaining the lifespan entropy limit, were calculated. Thermodynamic assessment appeared to be in agreement with the observations. There may be a significant improvement in the athletes’ longevity if theyshift to a retirement diet after the age of 50. The expected average longevity for male athletes was 56 years for cyclists, 66 years for weightlifters, 75 years for rugby players and 92 years for golfers. If they should start consuming the retirement diet after 50 years of age, the longevity of the cyclists may increase for 7 years, and those of weightlifters, rugby players and golfers may increase for 22, 30 and 8 years, respectively.
Key words: Athletes’ diet: Athletes’ longevity: Entropic age: Lifespan entropy
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Analysis of trends
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Analysis of trends in human longevity by new model
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Byung Mook Weon
LG.Philips Displays, 184, Gongda Byung Mook Weon
LG.Philips Displays, 184, Gongdan1-dong, Gumi-city, GyungBuk, 730-702, South Korea
Abstract
Trends in human longevity are puzzling, especially when considering the limits of
human longevity. Partially, the conflicting assertions are based upon demographic
evidence and the interpretation of survival and mortality curves using the Gompertz
model and the Weibull model; these models are sometimes considered to be incomplete
in describing the entire curves. In this paper a new model is proposed to take the place
of the traditional models. We directly analysed the rectangularity (the parts of the curves
being shaped like a rectangle) of survival curves for 17 countries and for 1876-2001 in
Switzerland (it being one of the longest-lived countries) with a new model. This model
is derived from the Weibull survival function and is simply described by two parameters,
in which the shape parameter indicates ‘rectangularity’ and characteristic life indicates
the duration for survival to be ‘exp(-1) % 79.3 6≈ ’. The shape parameter is essentially a
function of age and it distinguishes humans from technical devices. We find that
although characteristic life has increased up to the present time, the slope of the shape
parameter for middle age has been saturated in recent decades and that the
rectangularity above characteristic life has been suppressed, suggesting there are
ultimate limits to human longevity. The new model and subsequent findings will
contribute greatly to the interpretation and comprehension of our knowledge on the
human ageing processes.
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American Longevity:
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American Longevity: Past, Present, and Future
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Samuel Preston is Frederick J. Warren Professor of Samuel Preston is Frederick J. Warren Professor of Demography at the University of Pennsylvania and Director of its Population Studies Center. A 1968 Ph.D. in Economics from Princeton University, he has also been a faculty member at the University of California, Berkeley, and the Universi ty of Washington. He is past president of the Population Association of America and is a member of the National Academy of Sciences, where he chaired the Committee on Population.
The Policy Brief series is a collection of essays on current public policy issues in aging, health, income security, metropolitan studies and related research done by or on behalf of the Center for Policy Research at the Maxwell School of Citizenship and Public Affairs.
Single copies of this publication may be obtained at no cost from the Center for Policy Research, Maxwell School, 426 Eggers Hall, Syracuse, NY 13244-1090.
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aging research
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AFAR American aging research
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Researchers believe that your longevity, that is, Researchers believe that your longevity, that is, the duration of your life, may rely on your having longevity assurance genes. Genes are the bits of DNA that determine an organism’s physical characteristics and drive a whole range of physiological processes. Longevity assurance genes are variations (called alleles) of certain genes that may allow you to live longer (and perhaps more healthily) than other people who inherit other versions of that gene.
WHY ARE LONGEVITY ASSURANCE GENES IMPORTANT?
If scientists could identify longevity genes in humans, in theory, they might also be able to develop ways to manipulate those genes to enable people to live much longer than they do today. Slowing the
aging process would also likely delay the appearance of agerelated diseases such as cancer, diabetes, and Alzheimer’s disease and therefore make people
healthier as well.
Most longevity assurance genes that have already been identified in lower organisms such as yeast, worms, and fruit flies act to increase lifespan and grant resistance to harmful environmental stress. For example, scientists have identified single gene variantions in roundworms that can extend lifespans by 40 to 100 percent. These genes also allow worms to withstand often fatal temperature extremes, excessive levels of toxic free radicals (cellular waste products), or damage due to ultraviolet light.
Some of the longevity assurance genes in lower organisms have similar counterparts among human or mammalian genes, which scientists are now studying. While researchers have not yet found genes that predispose us to greater longevity, some have identified single human gene variants that seem to have a protective effect against certain age-related diseases and are associated with long life. For example, inheriting one version of a gene for a particular protein called apolipoprotein E (Apo E) may decrease a
person’s risk of developing heart
disease and Alzheimer’s disease.
Identification of genes that prevent or delay crippling diseases at old age may help us find novel strategies for assuring a healthier, longer life, and enhancing the quality of life in the elderly.
Researchers believe that your longevity may rely on your having longevity assurance genes.
Infoaging Guide to Longevity | 3
HOW MUCH OF LONGEVITY IS GENETICALLY DETERMINED?
By some estimates, we humans have about 25,000 genes. But only a small fraction of those affect the length of our lives. It is hard to imagine that so few genes can be responsible for such a complex phenomenon as longevity. In looking at personality, psychologists ask how much is nature, that is, inherited, and how much is nurture, which means resulting from external influences. Similar questions exist about the heritability of lifespan. In other words, just how much of longevity is
genetically determined and how much it is mediated by external influences, such as smoking, diet, lifestyle, stress, and occupational exposures?
Studies do show that long-lived parents have long-lived children. Studies of adoptees confirm that their expected lifespans correlate more strongly to those of their birth parents than those of their adoptive parents. One study of twins reared apart suggests about a 30 percent role for heredity in lifespan, while another says the influence is even smaller.
Some scientists estimate the maximal lifespan of a human to be approximately 120 years, a full 50 years longer than the Biblical three score and ten (Psalms 90:10). The people who have actually achieved that maximum can be counted on one hand—or one finger. Mme. Jeanne Calment of France was 122 years old at her death in 1997. But although few challengers to her record exist, we are seeing more and more members of our society reach 100. In fact, in the United States today, there are more than 60,000 centenarians, and their ranks are projected to grow to nearly 1 million
by 2050. Much of this growth will be due to the convergence of the large aging Boomer demographic and improvements in health and medicine.
Most people who get to 100 do so by avoidance. They shun tobacco and excess alcohol, the sun and pollutants, sloth, bad diets, anger, and isolation. Still, many of us may know at least one smoking, drinking, sunburnt, lazy,
cantankerous recluse who has lived to 100—and wondered how he or she did it.
More and more, scientists are finding that part of the explanation lies in our genes. The siblings of centenarians have a four times greater probability of surviving to age 90 than do siblings of people who have an average life expectancy. When it comes to living 100 years, the probability is 17 times greater in male siblings of centenarians and eight times greater in female siblings of centenarians than the average lifespan of their birth cohort.
On the flip side, we humans carry a number of genes that are deleterious to our health and longevity. These genes increase our risk for heart disease and cancer, as well as age-related but harmless symptoms such as gray hair and wrinkles. Though we cannot change our genetic pedigrees, perhaps if we know what unhelpful genes we carry, we can take steps, such as ridding ourselves of bad health habits and adopting good ones, that can overcome the disadvantages our genes confer and live as long as those people with good genes.
WHAT WE HAVE LEARNED FROM LOWER ORGANISMS
Our understanding of genes and aging has exploded in recent years, due in large part to groundbreaking work done in simpler
organisms. By studying the effect of genetic modification on lifespan in laboratory organisms, researchers now provide fundamental insights into basic mechanisms of aging.
These include:
• Yeast
• Worms
• Fruit Flies
• Mice
Yeast Researchers have identified more than 100 genes in baker’s yeast (Saccharomyces cerevisiae) that are associated with increased longevity, and even more provocatively, have found human versions of many of these genes. Further study is ongoing.
As with all other organisms tested, researchers have reported that restricting the amount of calories available to yeast, either through reducing the sugar or amino acid content of the culture medium, can increase lifespan. Caloric
restriction does not extend lifespan in yeast strains lacking one of the longevity assurance genes, SIR2. This result has been shown in multiple organisms from yeast to flies, and even in mice. The SIR2 protein is the founding member of the sirtuin family involved in
genomic stability, metabolism, stress resistance, and aging. Researchers have found that
overexpression of Sir2 extends lifespan, ...
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Determinants of longevity
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Determinants of longevity
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K. CHRISTENSENa & J. W. VAUPELb From abOdense K. CHRISTENSENa & J. W. VAUPELb From abOdense University Medical School, Odense, Denmark; bSanford Institute, Duke University, Durham, NC, USA; and aThe Danish Epidemiology Science Centre, The Steno Institute of Public Health, Department of Epidemiology and Social Medicine, Aarhus University Hospital, Aarhus, Denmark
Abstract. Christensen K, Vaupel JW (Odense University Medical School, Odense, Denmark; Sanford Institute, Duke University, Durham, NC, USA; and The Danish Epidemiology Science Centre, The Steno Institute of Public Health, Department of Epidemiology and Social Medicine, Aarhus University Hospital, Aarhus, Denmark). Determinants of longevity: genetic, environmental and medical factors (Review). J Intern Med 1996; 240: 333–41.
This review focuses on the determinants of longevity in the industrialized world, with emphasis on results from recently established data bases. Strong evidence is now available that demonstrates that in developed
Introduction
The determinants of longevity might be expected to be well understood. The duration of life has captured the attention of many people for thousands of years; an enormous array of vital-statistics data are available for many centuries. Life-span is easily measured compared with other health phenomena, and in many countries data are available on whole populations and not just study samples. Knowledge concerning determinants of human longevity, however, is still sparse, and much of the little that is known has been learned in recent years. This review
countries the maximum lifespan as well as the mean lifespan have increased substantially over the past century. There is no evidence of a genetically determined lifespan of around 85 years. On the contrary, the biggest absolute improvement in survival in recent decades has occurred amongst 80 year-olds. Approximately one-quarter of the variation in lifespan in developed countries can be attributed to genetic factors. The influence of both genetic and environmental factors on longevity can potentially be modified by medical treatment, behavioural changes and environmental improvements.
Keywords: centenarians, life expectancy, lifespan, mortality.
focuses on genetic, environmental and medical factors as determinants of longevity in developed countries and discusses alternative paradigms concerning human longevity.
How should longevity be measured?
Longevity can be studied in numerous ways; key questions include the following. How long can a human live? What is the average length of life? Are the maximum and average lengths of life approaching limits? Why do some individuals live longer than others? In addressing these questions, it is useful to
# 1996 Blackwell Science Ltd 333
334 K. CHRISTENSEN & J. W. VAUPEL
study the maximum lifespan actually achieved in various populations, the mean lifespan, and the variation in lifespan. Estimating the maximum lifespan of human beings is simply a matter of finding a well-documented case report of a person who lived longer than other welldocumented cases. The assessment of mean lifespan in an actual population requires that the study population is followed from birth to extinction. An alternative approach is to calculate age-specific death rates at some point in time for a population, and then use these death rates to determine how long people would live on average in a hypothetical population in which these death rates prevailed over the course of the people’s lives. This second kind of mean lifespan is generally known as life expectancy. The life expectancy of the Swedish population in 1996 is the average lifespan that would be achieved by the 1996 birth cohort if Swedish mortality rates at each age remained at 1996 levels for the entire future life of this cohort. Assessment of determinants of life expectancy and variation in lifespan amongst individuals rely on demographic comparisons of different populations and on such traditional epidemiological designs as follow-up studies of exposed or treated versus nonexposed or nontreated individuals. Designs from genetic epidemiology – such as twin, adoption and other family studies – are useful in estimating the relative importance of genes and environment for the variation in longevity.
Determinants of extreme longevity
Numerous extreme long-livers have been reported in various mountainous regions, including Georgia, Kashmir, and Vilcabamba. In most Western countries, including the Scandinavian countries, exceptional lifespans have also been reported. Examples are Drachenberg, a Danish–Norwegian sailor who died in 1772 and who claimed that he was born in 1626, and Jon Anderson, from Sweden, who claimed to be 147 years old when he died in 1729. There is noconvincingdocumentationfortheseextremelonglivers. When it has been possible to evaluate such reports, they have proven to be very improbable [1, 2]. In countries, like Denmark and Sweden, with a long tradition of censuses and vital statistics, remarkable and sudden declines in the number of
extreme long-livers occur with the introduction of more rigorous checking of information on age of death, as the result of laws requiring birth certificates, the development of church registers and the establishment of statistical bureaus [3, 4]. This suggests that early extreme long-livers were probably just cases of age exaggeration. Today (March 1996), the oldest reported welldocumented maximum lifespan for females is 121 years [5] and for males 113 years [6]. Both these persons are still alive. Analyses of reliable cases of long-livers show that longevity records have been repeatedly broken over past decades [3, 6]; this suggests that even longer human lifespans may occur in the future. There has been surprisingly little success in identifying factors associated with extreme longevity. A variety of centenarian studies have been conducted during the last half century. As reviewed by Segerberg [7], most of the earlier studies were based on highly selected samples of individuals, without rigorous validation of the ages of reputed centenarians. During the last decade several more comprehensive, less selected centenarian studies have been carried out in Hungary [8], France [9], Finland [10] and Denmark [11]. A few specific genetic factors have been found to be associated with extreme longevity. Takata et al. [12] found a significantly lower frequency of HLA-DRw9 amongst centenarians than in an adult control group in Japan, as well as a significantly higher frequency of HLA-DR1. The HLA-antigens amongst the Japanese centenarians are negatively associated with the presence of autoimmune diseases in the Japanese population, which suggests that the association with these genetic markers is mediated through a lower incidence of diseases. More recently, both a French study [13] and a Finnish study [14] found a low prevalence of the e4 allele of apolipoprotein E amongst centenarians. The e4 allele has consistently been shown to be a risk factor both for coronary heart disease and for Alzheimer’s dementia. In the French study [13], it was also found that centenarians had an increased prevalence of the DDgenotype of angiotensin-converting enzyme (ACE) compared with adult controls. This result is contrary to what was expected as the DD-genotype of ACE has been reported to be associated with myocardial infarction. Only a few genetic association studies concerning extreme longevity have been published...
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Inconvenient Truths About
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Inconvenient Truths About Human Longevity
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S. Jay Olshansky, PhD1,* and Bruce A. Carnes, PhD2 S. Jay Olshansky, PhD1,* and Bruce A. Carnes, PhD2
1University of Illinois at Chicago, Division of Epidemiology and Biostatistics. 2University of Oklahoma. *Address correspondence to: S. Jay Olshansky, PhD, University of Illinois at Chicago. E-mail: sjayo@uic.edu
Received: February 2, 2019; Editorial Decision Date: April 3, 2019
Decision Editor: Anne Newman, MD, MPH
Abstract The rise in human longevity is one of humanity’s crowning achievements. Although advances in public health beginning in the 19th century initiated the rise in life expectancy, recent gains have been achieved by reducing death rates at middle and older ages. A debate about the future course of life expectancy has been ongoing for the last quarter century. Some suggest that historical trends in longevity will continue and radical life extension is either visible on the near horizon or it has already arrived; whereas others suggest there are biologically based limits to duration of life, and those limits are being approached now. In “inconvenient truths about human longevity” we lay out the line of reasoning and evidence for why there are limits to human longevity; why predictions of radical life extension are unlikely to be forthcoming; why health extension should supplant life extension as the primary goal of medicine and public health; and why promoting advances in aging biology may allow humanity to break through biological barriers that influence both life span and health span, allowing for a welcome extension of the period of healthy life, a compression of morbidity, but only a marginal further increase in life expectancy.
Keywords: Longevity, Public Health, Life Expectancy....
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A Longevity Agenda
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A Longevity Agenda for Singapore
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Over the last 60 years, life expectancy in Singapo Over the last 60 years, life expectancy in Singapore has increased by nearly 20 years to reach 85 – one of the highest in the world. That’s an extraordinary achievement that is taken for granted and that too often leads to a conversation about the costs of an ageing society. Those costs and concerns are very real, but a deeper more fundamental set of questions need to be answered.
If we are living this much longer, then how do we – individuals, companies and governments – respond to make the most of this extra time? How do we restructure our lives to make sure that as many people as possible, live as long as possible, in as healthy and fulfilled ways as possible?
This note draws on the findings from a high-level conference, sponsored by Rockefeller Foundation and Prudential Singapore, to map out what a global longevity agenda looks like, and to raise awareness around the world – at a government, corporate and individual level – on how we need to seize the benefits of this wonderful human achievement of longer lives.
It also looks at the measures that Singapore has taken to adjust to longer lives. Reassuringly, Singapore leads the world along many dimensions that have to do with ageing, and also longevity. However, there is much that needs to be done. Framing policies around longevity and ‘all of life’ and not just ageing and ‘end of life’ is needed if Singapore is to collectively maximise the gains available.
A Longevity Agenda For Singapore I 2
Executive Summary
• Singapore is undergoing a rapid demographic transition which will see the average age of its society
increase as the proportion of its older citizens increases.
• An ageing society creates many challenges. However, at the same time, with the number of older
people increasing, Singapore is benefitting from a longevity dividend.
• On average, Singaporeans are living for longer and in better health. In other words, how we are
ageing is changing – it is not just about there being more senior people. Exploiting this opportunity
to seize these positive advantages is the longevity agenda.
• A new-born in Singapore today, faces the prospect of living on average one of the longest lives in
human history, and so needs to prepare for his or her future differently.
• At an individual level, Singaporeans are already behaving differently – in terms of marriage, families,
work and education. Many are acting as social pioneers as they try to create a new map of life.
• To support individuals as they adapt to longer lives, Singapore needs to create a new map of life
that enables as many people as possible to live as long as possible and as healthily and as fulfilled as
possible.
• Achieving this will also ensure that not only the individual, but also the economy will benefit.
• Singapore is at the international frontier of best practice in terms of adjusting to an ageing society. It
also leads the way with many longevity measures.
• Further entrenching social change and experimentation, and creating a positive narrative around
longer, healthier lives; in particular, extending policies away from a sole focus on the old and towards the whole course of life are some key priorities ahead of us. ...
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Gene Expression Biomarker
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Gene Expression Biomarkers and Longevity
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Chronological age, a count of how many orbits of t Chronological age, a count of how many orbits of the sun an individual has made as a passenger of planet earth, is a useful but limited proxy of aging processes. Some individuals die of age related diseases in their sixties, while others live to double that age. As a result, a great deal of effort has been put into identifying biomarkers that reflect the underlying biological changes involved in aging. These markers would provide insights into what processes were involved, provide measures of how much biological aging had occurred and provide an outcome measure for monitoring the effects of interventions to slow ageing processes. Our DNA sequence is the fixed reference template from which all our proteins are produced. With the sequencing of the human genome we now have an accurate reference library of gene sequences. The recent development of a new generation of high throughput array technology makes it relatively inexpensive to simultaneously measure a large number of base sequences in DNA (or RNA, the molecule of gene expression). In the last decade, array technologies have supported great progress in identifying common DNA sequence differences (SNPs) that confer risks for age related diseases, and similar approaches are being used to identify variants associated with exceptional longevity [1]. A striking feature of the findings is that the majority of common disease-associated variants are located not in the protein coding sequences of genes, but in regions of the genome that do not produce proteins. This indicates that they may be involved in the regulation of nearby genes, or in the processing of their messages. While DNA holds the static reference sequences for life, an elaborate regulatory system influences whether and in what abundance gene transcripts and proteins are produced. The relative abundance of each tran
script is a good guide to the demand for each protein product in cells (see section 2 below). Thus, by examining gene expression patterns or signatures associated with aging or age related traits we can peer into the underlying production processes at a fundamental level. This approach has already proved successful in clinical applications, for example using gene signatures to classify cancer subtypes [2]. In aging research, recent work conducted in the InCHIANTI cohort has identified gene-expression signatures in peripheral leucocytes linked to several aging phenotypes, including low muscle strength, cognitive impairment, and chronological age itself. In the sections that follow we provide a brief introduction to the underlying processes involved in gene expression, and summarize key work in laboratory models of aging. We then provide an overview of recent work in humans, thus far mostly from studies of circulating white cells.
2 Introducing gene expression
Since the early 1900s a huge worldwide research effort has lead to the discovery and widespread use of genetic science (see the NIH website [3] for a comprehensive review of the history of the subject, and a more detailed description of the transfer of genetic information). The human genome contains the information needed to create every protein used by cells. The information in the DNA is transcribed into an intermediate molecule known as the messenger RNA (mRNA), which is then translated into the sequence of aminoacids (proteins) which ultimately determine the structural and functional characteristics of cells, tissues and organisms (see figure 1 for a summary of the process). RNA is both an intermediate to proteins and a regulatory molecule; therefore the transcriptome (the RNA ∗Address correspondence to Prof. David Melzer, Epidemiology and Public Health Group, Medical School, University of Exeter, Exeter EX1 2LU, UK. E-mail: D.Melzer@exeter.ac.uk
1
2 INTRODUCING GENE EXPRESSION
Figure 1: Representation of the transcription and translation processes from DNA to RNA to Protein — DNA makes RNA makes Protein. This is the central dogma of molecular biology, and describes the transfer of information from DNA (made of four bases; Adenine, Guanine, Cytosine and Thymine) to RNA to Protein (made of up to 20 different amino acids). Machinery known as RNA polymerase carries out transcription, where a single strand of RNA is created that is complementary to the DNA (i.e. the sequence is the same, but inverted although in RNA thymine (T) is replaced by uracil (U)). Not all RNA molecules are messenger RNA (mRNA) molecules: RNA can have regulatory functions (e.g. micro RNAs), and or can be functional themselves, for example in translation transfer RNA (tRNA) molecules have an amino acid bound to one end (the individual components of proteins) and at the other bind to a specific sequence of RNA (a codon again, this is complementary to this original sequence) for instance in the figure a tRNA carrying methionine (Met) can bind to the sequence of RNA, and the ribosome (also in part made of RNA) attaches the amino acids together to form a protein.
production of a particular cell, or sample of cells, at a given time) is of particular interest in determining the underlying molecular mechanisms behind specific traits and phenotypes. Genes are also regulated at the posttranscriptional level, by non-coding RNAs or by posttranslational modifications to the encoded proteins. Transcription is a responsive process (many factors regulate transcription and translation in response to specific intra and extra-cellular signals), and thus the amount of RNA produced varies over time and between cell types and tissues. In addition to the gene and RNA transcript sequences that will determine the final protein sequence (so called exons) there are also intervening sections (the introns) that are removed by a process known as mRNA splicing. While it was once assumed that each gene produced only one protein, it is now
clear that up to 90% of our genes can produce different versions of their protein through varying the number of exons included in the protein, a process called alternative splicing. Alteration in the functional properties of the protein can be introduced by varying which exons are included in the transcript, giving rise to different isoforms of the same gene. Many RNA regulatory factors govern this process, and variations to the DNA sequence can affect the binding of these factors (which can be thousands of base pairs from the gene itself) and alter when, where and for how long a particular transcript is produced. The amount of mRNA produced for a protein is not necessarily directly related to the amount of protein produced or present, as other regulatory processes are involved. The amount of mRNA is broadly indicative of...
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Life Expectancy
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Life Expectancy and Economic Growth
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Life expectancy does not affect all countries the Life expectancy does not affect all countries the same way.
Its impact depends on whether a country is before or after the demographic transition.
The demographic transition is the historical shift from:
High mortality & high fertility → Low mortality & low fertility
This shift completely changes how population, education, and income respond to improved life expectancy.
🧠 CORE IDEA (The Big Discovery)
Life expectancy can both increase and decrease economic growth — depending on the stage of development.
⭐ Before the demographic transition (pre-transitional countries):
Lower mortality → population grows faster
Fertility remains high
Little investment in education
Result: Population growth reduces per-capita income
📉 Life expectancy hurts economic growth in early-stage countries
Life Expectancy and Economic Gr…
⭐ After the demographic transition (post-transitional countries):
Lower mortality → population growth slows down
Families invest more in education (human capital rises)
Economic productivity increases
Result: Per-capita income grows faster
📈 Life expectancy boosts economic growth in advanced-stage countries
Life Expectancy and Economic Gr…
🔥 Ultimate Insight
Improving life expectancy is actually a trigger for the demographic transition itself.
This means:
When life expectancy becomes high enough, a country begins shifting from high fertility to low fertility.
This shift is what unlocks sustained long-run economic growth.
📌 The paper finds strong evidence:
Higher life expectancy significantly increases the probability of undergoing the demographic transition.
Life Expectancy and Economic Gr…
📊 How It Works – Mechanism Explained
1. Pre-Transition Phase (Low Development)
Mortality falls, people live longer
But fertility stays high → population explodes
More people sharing limited land/capital → income per capita drops
Education gains are small
Life Expectancy and Economic Gr…
2. Transition Phase (Around 1970 for many countries)
Fertility begins to fall
Population growth slows
Human capital investment begins to rise
Life Expectancy and Economic Gr…
3. Post-Transition Phase (High Development)
Longer lives → people invest more in education
Human capital grows
Smaller families → more resources per child
Income per capita increases strongly
Life Expectancy and Economic Gr…
🔍 Evidence From the Paper
Based on data from 47 countries (1940–2000):
✔ In pre-transitional countries:
Life expectancy increase → higher population, lower income per capita
Life Expectancy and Economic Gr…
✔ In post-transitional countries:
Life expectancy increase → lower population growth, higher income per capita, higher education levels
Life Expectancy and Economic Gr…
✔ By 2000:
Life expectancy had strong positive effects on schooling in all countries
Life Expectancy and Economic Gr…
🧩 Why Earlier Research Was Conflicting
Previous studies found:
Sometimes life expectancy increases GDP
Sometimes it decreases it
This paper explains why:
👉 The effect depends on whether the country has undergone the demographic transition.
If you mix pre- and post-transition countries, the results get confused.
Life Expectancy and Economic Gr…
🏁 Perfect One-Sentence Summary
Improvements in life expectancy can slow economic growth in early-stage countries by accelerating population growth but strongly boost growth in advanced countries by reducing fertility, raising education, and triggering the demographic transition....
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cfc82824-51e1-4f28-94bd-5d2a146aff50
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kbpgbviq-7258
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xevyo
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/home/sid/tuning/finetune/backend/output/xevyo-bas /home/sid/tuning/finetune/backend/output/xevyo-base-v1/merged_fp16_hf...
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Genetics of extreme human
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Genetics of extreme human longevity to guide drug
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xevyo-base-v1
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Zhengdong D. Zhang 1 ✉, Sofiya Milman1,2, Jhih-R Zhengdong D. Zhang 1 ✉, Sofiya Milman1,2, Jhih-Rong Lin1, Shayne Wierbowski3, Haiyuan Yu3, Nir Barzilai1,2, Vera Gorbunova4, Warren C. Ladiges5, Laura J. Niedernhofer6, Yousin Suh 1,7, Paul D. Robbins 6 and Jan Vijg1,8
Ageing is the greatest risk factor for most common chronic human diseases, and it therefore is a logical target for developing interventions to prevent, mitigate or reverse multiple age-related morbidities. Over the past two decades, genetic and pharmacologic interventions targeting conserved pathways of growth and metabolism have consistently led to substantial extension of the lifespan and healthspan in model organisms as diverse as nematodes, flies and mice. Recent genetic analysis of long-lived individuals is revealing common and rare variants enriched in these same conserved pathways that significantly correlate with longevity. In this Perspective, we summarize recent insights into the genetics of extreme human longevity and propose the use of this rare phenotype to identify genetic variants as molecular targets for gaining insight into the physiology of healthy ageing and the development of new therapies to extend the human healthspan...
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c4b246d6-e88e-4449-9a90-94825db1a914
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8684964a-bab1-4235-93a8-5fd5e24a1d0a
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dvrazzun-9083
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xevyo
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/home/sid/tuning/finetune/backend/output/xevyo-bas /home/sid/tuning/finetune/backend/output/xevyo-base-v1/merged_fp16_hf...
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From Life Span to Health
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From Life Span to Health Span: Declaring “Victory”
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S. Jay Olshansky
School of Public Health, Univers S. Jay Olshansky
School of Public Health, University of Illinois at Chicago, Chicago, Illinois 60612, USA Correspondence: sjayo@uic.edu
Adifficultdilemmahaspresenteditselfinthecurrentera.Modernmedicineandadvancesin the medical sciences are tightly focused on a quest to find ways to extend life—without considering either the consequences of success or the best way to pursue it. From the perspectiveofphysicianstreatingtheirpatients,itmakessensetohelpthemovercomeimmediate healthchallenges,butfurtherlifeextensioninincreasinglymoreagedbodieswillexposethe savedpopulationtoanelevatedriskofevenmoredisablinghealthconditionsassociatedwith aging. Extended survival brought forth by innovations designed to treat diseases will likely push more people into a“ red zone”a later phase in life when the risk of frailty and disability risesexponentially.Theinescapableconclusionfromtheseobservationsisthatlifeextension should no longer be the primary goal of medicine when applied to long-lived populations. The principal outcome and most important metric of success should be the extension of health span, and the technological advances described herein that are most likely to make the extension of healthy life possible.
ON THE ORIGIN OF LIFE SPAN How long people live as individuals, the expected duration of life of people of any age base do current death rates in a national population, and the demographic aging of national populations (e.g., proportion of the population aged 65 and older), are simple metrics that are colloquially understood as reflective of health and longevity. Someone that lives for 100 years had a lifespan of a century ,and a life expectancy at birth of 80 years for men in the United States means that male babies born today will live to an average of 80 years if death rates at all ages today prevail throughout the life of the cohort. When life expectancy rises or declines, that is inter pretend
as an improvement or worsening of public health. These demographic and statistical metrics are reflective measurement tools only—they disclose little about why they change or vary, they reveal nothing about why they exist at all, and theyare indirect and imprecise measures of the health of a population. Understandingwhythereisaspecies-specific life span to begin with and what forces influence its presence ,level ,and the dynamics of variation and change (collectively referred to her “life span determination”) is critical to comprehending why the topic
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599ab3a3-c70a-4ba3-aec0-5660dee3f783
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8684964a-bab1-4235-93a8-5fd5e24a1d0a
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jofodeku-7336
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xevyo
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/home/sid/tuning/finetune/backend/output/xevyo-bas /home/sid/tuning/finetune/backend/output/xevyo-base-v1/merged_fp16_hf...
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Exploring Human Longevity
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Exploring Human Longevity
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xevyo-base-v1
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Riya Kewalani, Insiya Sajjad Hussain Saifudeen Du Riya Kewalani, Insiya Sajjad Hussain Saifudeen Dubai Gem Private School, Oud Metha Road, Dubai, PO Box 989, United Arab Emirates; riya.insiya@gmail.com
ABSTRACT: This research aims to investigate whether climate has an impact on life expectancy. In analyzing economic data from 172 countries that are publicly available from the United Nations World Economic Situation and Prospects 2019, as well as classifying all countries from different regions into hot or cold climate categories, the authors were able to single out income, education, sanitation, healthcare, ethnicity, and diet as constant factors to objectively quantify life expectancy. By measuring life expectancies as indicated by the climate, a comprehensible correlation can be built of whether the climate plays a vital role in prolonging human life expectancy and which type of climate would best support human life. Information gathered and analyzed from examination focused on the contention that human life expectancy can be increased living in colder regions. According to the research, an individual is likely to live an extra 2.2163 years in colder regions solely based on the country’s income status and climate, while completely ruling out genetics. KEYWORDS: Earth and Environmental Sciences; Life expectancy; Climate Science; Longevity; Income groups.
To better understand the study, it is crucial to understand the difference between life span, life expectancy, and longevity. According to the United Nations Population Division, life expectancy at birth is defined as “the average number of years that a newborn could expect to live if he or she were to pass through life subject to the age-specific mortality rates of a given period.” ¹ When addressing the life expectancy of a country, it refers to the mean life span of the populace in that country. This factual normal is determined dependent on a populace in general, including the individuals who die during labor, soon after labor, during puberty or adulthood, the individuals who die in war, and the individuals who live well into mature age. On the other hand, according to News Medical Life Sciences, life span refers to “the maximum number of years that a person can expect to live based on the greatest number of years anyone from the same data set has lived.” ² Taking humans as the model, the oldest recorded age attained by any living individual is 122 years, thereby implicating that human beings have a lifespan of at least 122 years. Life span is also known as longevity. As life expectancy has been extended, factors that affect it have been substantially debated. Consensus on factors that influence life expectancy include gender, ethnicity, pollution, climate change, literacy rate, healthcare access, and income level. Other changeable lifestyle factors also have an impact on life expectancy, including but not limited to, exercise, alcohol, smoking and diet. Nevertheless, life expectancy has for the most part continuously increased over time. The authors’ study aims to quantify and study the factors that affect human life expectancy. According to the American Journal of Physical Anthropology, Neolithic and Bronze Age data collected suggests life expectancy was an average of 36 years for both men and women. ³ Hunter-gatherers had a higher life expectancy than farmers as agriculture was not common yet and
people would resort to hunting and foraging food for survival. From then, life expectancy has been shown to be an upward trend, with most studies suggesting that by the late medieval English era, life expectancy of an aristocrat could be as much as 64 years; a figure that closely resembles the life expectancy of many populations around the world today. The increase in life expectancy is attributed to the advancements made in sanitation, education, and lodging during the nineteenth and mid-twentieth centuries, causing a consistent decrease in early and midlife mortality. Additionally, great progress made in numerous regions of well-being and health, such as the discovery of antibiotics, the green revolution that increased agricultural production, the enhancement of maternal and child survival, and mortality from infectious diseases, particularly human immunodeficiency virus (HIV)/ AIDS, tuberculosis (TB), malaria, and neglected tropical diseases (NTDs), has declined. According to the World Health Organization (WHO), global average life expectancy has increased by 5.5 years between 2000 and 2016, which has been notably the fastest increase since the 1950s.⁴ As per the United Nations World Population Prospects, life expectancy will continue to display an upward trend in all regions of the world. However, the average life expectancy isn’t predicted to grow exponentially as it has these past few decades. Projected increases in life expectancy in Northern America, Europe and Latin American and the Caribbean are expected to become more gradual and stagnant, while projections for Africa continue at a much higher rate compared to the rest of the world. Asia is expected to match the global average by the year 2050. Differences in life expectancy across regions of the world are estimated to persist even into the future due to the differences in group incomes, however, income disparity between regions is forecasted to diminish significantly by 2050 ...
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rblkezvg-9303
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xevyo
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/home/sid/tuning/finetune/backend/output/xevyo-bas /home/sid/tuning/finetune/backend/output/xevyo-base-v1/merged_fp16_hf...
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New map of Life
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New Map Of life
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The New Map of Life is a visionary blueprint for r The New Map of Life is a visionary blueprint for redesigning society to support lives that routinely reach 100 years with purpose, health, and opportunity. Instead of treating longer life as a crisis, the report reframes longevity as a profound achievement—and argues that success depends on rebuilding our social, economic, educational, and health systems for a world where centenarian life becomes normal.
The central idea:
We must redesign life’s stages—not extend old age.
This means improving childhood, work, education, health, communities, and inequality across the entire lifespan so that the extra decades are healthy and meaningful, not marked by disease or decline.
The report proposes eight foundational principles for a society built for longevity, supported by research in economics, psychology, public health, education, urban design, and social sciences.
🧭 Core Themes & Insights
1. Longevity Requires a New Life Course
The traditional model—education → work → retirement—breaks down in a 100-year society.
Instead, life must be flexible, with:
multiple careers
lifelong learning
extended midlife productivity
later, healthier transitions into older age
The report emphasizes fluid, nonlinear life paths that enable reinvention and continuous growth.
2. Healthspan Must Match Lifespan
A 100-year life is only valuable if the added decades are lived in good health.
The report calls for:
early-life investment in nutrition, physical activity, and stress reduction
prevention-centered healthcare
reduction of chronic disease
redesign of environments to promote active living
mental health support across all ages
The goal: compress morbidity, not extend frailty.
3. Learning Should Last a Lifetime
Education must shift from “front-loaded” to “lifelong.”
Key reforms include:
universal childhood support
multi-stage college or education “returns” at midlife
employer-supported learning sabbaticals
continual skill renewal in a changing economy
Learning becomes a lifelong asset for resilience, income stability, and cognitive health.
4. Work Must Become Age-Diverse, Flexible, and Purpose-Centered
With longer lives, people will work 50–60 years, but not continuously in the same way.
The report calls for:
flexible work arrangements
age-diverse teams
midlife career transitions
phased retirement options
redesigned job benefits not tied to single employers
Work must support health, meaning, and social connection—not just income.
5. Families and Communities Must Be Reinforced
Longevity increases the importance of:
strong social connections
multigenerational living options
community infrastructure
walkability
safe, accessible transportation
Healthy aging is deeply social, not individual.
6. Financial Security Must Stretch Across 100 Years
Traditional retirement models are unsustainable. The report recommends:
portable benefits
new savings models
flexible retirement ages
risk pooling
more equitable wealth-building opportunities
Financial systems must adapt to careers with multiple transitions.
7. Inequality Is the Biggest Threat to a Long-Lived Society
Longevity is currently unequally distributed—wealth, race, gender, and geography shape life expectancy.
The report insists that:
early childhood investment
improved education quality
access to preventive healthcare
better working conditions
are essential to ensure everyone benefits from longevity.
Longevity can only be a public good if it’s accessible to all.
🏙️ What a Longevity-Ready Society Looks Like
The report paints a picture of societies where:
cities are age-integrated and walkable
workplaces welcome people at 20, 40, 60, and 80
education is continuous
healthcare aggressively prevents disease
caregiving is supported, shared, and respected
retirement is flexible, not binary
purpose and connection last across the lifespan
It’s a future where longer life means better life, not longer decline.
🎯 Overall Conclusion
The New Map of Life reimagines everything—from childhood to education, work, health, retirement, community design, and public policy—for a world in which living to 100 is common. It argues that longevity is not a burden, but a once-in-human-history opportunity—if societies redesign their systems to support health, purpose, financial security, and social connection across all decades of life.
The message is transformative:
We don’t need to add years to life—we need to add life to years....
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eaf15e4e-34b7-45f6-af33-87617548f0bf
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8684964a-bab1-4235-93a8-5fd5e24a1d0a
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ufydvoij-3348
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xevyo
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/home/sid/tuning/finetune/backend/output/xevyo-bas /home/sid/tuning/finetune/backend/output/xevyo-base-v1/merged_fp16_hf...
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Genetic longevity
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Genetic Longevity
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Markus Valge, Richard Meitern and Peeter Hõrak*
D Markus Valge, Richard Meitern and Peeter Hõrak*
Department of Zoology, University of Tartu, Tartu, Estonia
Life-history traits (traits directly related to survival and reproduction) co-evolve and materialize through physiology and behavior. Accordingly, lifespan can be hypothesized as a potentially informative marker of life-history speed that subsumes the impact of diverse morphometric and behavioral traits. We examined associations between parental longevity and various anthropometric traits in a sample of 4,000–11,000 Estonian children in the middle of the 20th century. The offspring phenotype was used as a proxy measure of parental genotype, so that covariation between offspring traits and parental longevity (defined as belonging to the 90th percentile of lifespan) could be used to characterize the aggregation between longevity and anthropometric traits. We predicted that larger linear dimensions of offspring associate with increased parental longevity and that testosterone-dependent traits associate with reduced paternal longevity. Twelve of 16 offspring traits were associated with mothers’ longevity, while three traits (rate of sexual maturation of daughters and grip strength and lung capacity of sons) robustly predicted fathers’ longevity. Contrary to predictions, mothers of children with small bodily dimensions lived longer, and paternal longevity was not linearly associated with their children’s body size (or testosterone-related traits). Our study thus failed to find evidence that high somatic investment into brain and body growth clusters with a long lifespan across generations, and/or that such associations can be detected on the basis of inter-generational phenotypic correlations.
KEYWORDS
anthropometric traits, body size, inter-generational study, longevity, obesity, sex difference
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c51dd11f-b64d-4ae8-8ffc-272f0fa4dfd5
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arrmgvhy-3290
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xevyo
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/home/sid/tuning/finetune/backend/output/xevyo-bas /home/sid/tuning/finetune/backend/output/xevyo-base-v1/merged_fp16_hf...
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Has the Rate of Human Age
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Has the Rate of Human Aging Already Been Modified
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This paper investigates whether the biological rat This paper investigates whether the biological rate of human aging has changed over the past century, or whether improvements in survival and life expectancy result mostly from reducing early-life and midlife mortality rather than slowing aging itself.
The study uses historical mortality data and aging-rate models to determine if humans age more slowly today or if we simply live longer before aging starts dominating mortality.
🔍 Core Question
Has aging itself slowed down, or do we just survive long enough to reach old age more often?
📊 Methods Used
The study examines:
Mortality curves over time (e.g., 1900–present)
The Gompertz function, which mathematically describes how mortality risk doubles with age
Changes in:
Initial mortality rate (IMR)
Rate of aging (Gompertz slope)
Data comes from:
Historical life tables
Cross-country mortality records
Comparisons of birth cohorts over time
The focus is on whether the slope of mortality increase with age has changed — this slope is considered a direct indicator of the rate of aging.
🧠 Key Findings (Perfect Summary)
1. Human aging rate appears largely unchanged
The study finds no strong evidence that the rate at which mortality increases with age (the Gompertz slope) has slowed.
This means humans likely age at the same biological speed as they did 100 years ago.
2. What has changed is the starting point of aging
Early-life and midlife mortality have dropped dramatically due to sanitation, medicine, nutrition, and public health.
As a result, more people reach old age, giving the impression that aging has slowed.
But aging itself (measured by mortality acceleration) has remained stable.
3. Modern longevity gains are driven by shifting the mortality curve
Rather than flattening the curve (slower aging), society has:
Pushed the curve downward (lower mortality at all ages)
Delayed the onset of chronic disease
Improved survival after age 60
These factors extend lifespan without changing the underlying biological aging rate.
4. Even in recent decades, aging rate shows stability
Improvements after 1970 came from:
Cardiovascular improvements
Medical interventions
Smoking decline
But studies consistently show the rate of mortality acceleration remains constant.
🧬 Overall Interpretation
Human aging — measured as the exponential rise in mortality risk with age — has not slowed.
Instead, society has become better at preventing early death, allowing more people to reach advanced ages.
In short:
❗ We live longer not because we age slower, but because we avoid dying earlier.
📌 One-Sentence Perfect Summary
The paper concludes that although human life expectancy has increased dramatically, the biological rate of aging has remained essentially unchanged, and modern longevity gains are due to reduced mortality before and during old age rather than slower aging itself.
If you want, I can also provide:
A diagram or flowchart
A 5-line summary
A student-friendly explanation
A PDF or PowerPoint version
Just tell me!...
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bqgaiyvm-8168
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The Four Keys
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The Four Keys to Longevity
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Famous comedian George Burns was once quoted as sa Famous comedian George Burns was once quoted as saying, “If you live to be one hundred, you’ve got it made. Very few people die past that age”. By 2050, it is estimated that there will be more than one million centenarians living in the u.S.1 For most people, planning for retirement or their later years is focused mostly on finances and how they will spend their time. However, ensuring they spend those years in good health is something that many overlook. The times are certainly changing, with medical advances and technological breakthroughs, planning for retirement and living longer needs to be more holistic.
In 1970, average life expectancy at birth in the United States was 71 years. In 2014, it is 79 years; and by 2050, the U.S. Census Bureau projects that average life expectancy will be 84 years.2 Today, according to the National Institute on Aging, there are over 40 million people in the United States aged 65 or older, accounting for about 13 percent of the total population. In 1900, there were just 3.1 million older Americans, or about 4.1% of the population.3 The vast majority of baby boomers—those born between 1946 and 1964—are on a quest to improve their odds of living longer than previous generations. They not only want to live longer, they want to live healthily, happily and more financially secure than ever before. Although there is no magic potion to ensure a long and healthy life, there are some notable accounts of individuals, families, and even whole communities that have defied the aging odds.
The holy grail of longevity In one such amazing story, Stamatis Moraitis, a Greek veteran of World War II, narrates how he was diagnosed with lung cancer in the 1960s
while living in the United States.4 He decided to forgo chemotherapy, and instead returned to his birthplace, Ikaria, the island where “people forget to die”. Moraitis abandoned his western diet and lifestyle and embraced the traditional island culture. His American doctors had told Moraitis he had only nine months to live, yet after moving to Ikaria he was still living— cancer free—45 years after his original diagnosis. According to the story, he never had chemotherapy, took drugs or sought therapy of any sort. All he did was move home to Ikaria and embrace the local lifestyle. He claimed he even outlived his U.S. physicians who, decades earlier, had predicted his imminent death as the only plausible outcome of his devastating diagnosis. Moraitis is not alone when it comes to longevity on the island of Ikaria. In fact, University of Athens researchers have concluded that people on Ikaria are reaching the age of 90 at two-and-a-half times the rate of their American counterparts.5 Stark differences in their lifestyle are apparent, even to a casual observer. ...
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Healthy Living Guide
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Healthy Living Guide
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This PDF is a polished, reader-friendly, research- This PDF is a polished, reader-friendly, research-backed wellness guide created to help people improve their overall health in the years 2020–2021. Designed as a practical lifestyle companion, it presents clear, evidence-based advice on nutrition, physical activity, weight management, mental well-being, and maintaining healthy habits during challenging times—especially the COVID-19 pandemic.
It combines scientific recommendations, simple tools, checklists, and motivational strategies into an accessible format that supports long-term healthy living.
🔶 1. Purpose of the Guide
The document aims to help readers:
Understand the core principles of healthy living
Build habits that support long-term physical and emotional well-being
Adapt their lifestyle to pandemic-era challenges
Apply simple, realistic changes to diet, movement, and daily routines
It brings together the most up-to-date public health and nutrition research into a single, user-friendly resource.
🔶 2. Key Themes Covered
The guide addresses the essential pillars of health:
⭐ Healthy Eating
Emphasizes fruits, vegetables, whole grains, nuts, legumes, and healthy fats
Highlights the importance of high-quality food choices
Encourages limiting sugar, sodium, and processed foods
Offers practical meal planning and grocery tips
⭐ Healthy Weight
Explains the relationship between calorie intake, energy balance, and metabolism
Provides strategies for weight loss and weight maintenance
Introduces mindful eating and portion awareness
⭐ Healthy Movement
Encourages daily physical activity, not just structured exercise
Outlines benefits for cardiovascular health, muscle strength, mobility, and mood
Suggests ways to stay active at home
⭐ Mental and Emotional Well-Being
Provides guidance for reducing stress and supporting resilience
Highlights the role of sleep, social connection, and relaxation techniques
Offers coping strategies for pandemic-related anxiety
⭐ COVID-19 and Healthy Living
Explains how the pandemic influenced lifestyle patterns
Encourages maintaining routines for immunity and mental health
Offers science-based recommendations for safety and preventive care
🔶 3. Practical Tools Included
The guide contains numerous supportive features:
Healthy plate diagrams
Food quality rankings
Movement breaks and activity suggestions
Goal-setting templates
Simple recipes and snack ideas
Checklists for building healthy routines
These tools make it easy for readers to turn concepts into action.
🔶 4. Tone and Design
The document is:
Encouraging, positive, and supportive
Richly illustrated with colorful visuals
Organized into short, readable sections
Designed for both beginners and advanced health-conscious individuals
🔶 5. Core Message
The central idea of the guide is that healthy living is achievable through small, consistent, everyday decisions—not extreme diets or intense workout programs. It promotes balance, quality nutrition, regular movement, and mental well-being as the foundations of a long and healthy life.
⭐ Perfect One-Sentence Summary
This PDF is a clear, science-based, and practical guide that teaches readers how to improve their diet, activity levels, weight, and mental well-being—especially during the COVID-19 era—through simple, sustainable healthy living strategies....
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Impact of rapamycin life
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Impact of rapamycin on longevity
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This document is a comprehensive scientific review This document is a comprehensive scientific review exploring how rapamycin influences aging and longevity across biological systems. It explains, in clear mechanistic detail, how rapamycin inhibits the mTOR pathway, a central regulator of growth, metabolism, and cellular aging.
The paper summarizes:
1. Why Aging Happens
It describes aging as the gradual accumulation of cellular and molecular damage, leading to reduced function, increased disease risk, and ultimately death.
2. The Role of mTOR in Aging
mTOR is a nutrient-sensing pathway that controls growth, metabolism, protein synthesis, autophagy, and mitochondrial function.
Overactivation of mTOR accelerates aging.
Rapamycin inhibits mTORC1 and indirectly mTORC2, creating conditions that slow aging at the cellular, tissue, and organ level.
3. Rapamycin as a Longevity Drug
The review highlights extensive evidence from yeast, worms, flies, and mice, showing that rapamycin:
Extends lifespan
Improves healthspan
Reduces age-related diseases
4. Key Anti-Aging Mechanisms of Rapamycin
The document details multiple biological pathways influenced by rapamycin:
Protein Homeostasis
Improves fidelity of protein translation
Reduces toxic misfolded protein accumulation
Suppresses harmful senescence-associated secretory phenotype (SASP)
Autophagy Activation
Encourages the removal of damaged organelles and proteins
Protects against neurodegeneration, heart aging, liver aging, and metabolic decline
Mitochondrial Protection
Enhances function and reduces oxidative stress
Immune Rejuvenation
Balances inflammatory signaling
Reduces age-related immune dysfunction
5. Organ-Specific Benefits
The paper includes a detailed table summarizing preclinical evidence showing rapamycin’s benefits in:
Cardiovascular system
Nervous system
Liver
Kidneys
Muscles
Reproductive organs
Respiratory system
Gastrointestinal tract
These benefits involve improvements in:
Autophagy
Stem cell activity
Inflammation
Oxidative stress
Mitochondrial health
6. Limitations & Challenges
While promising, rapamycin has:
Metabolic side effects
Immune-related risks
Dose-timing challenges
Proper therapeutic regimens are required before safe widespread human use.
In Summary
This document provides an up-to-date, detailed, and scientific overview of how rapamycin may slow aging and extend lifespan by targeting mTOR signaling. It integrates molecular biology, animal research, and clinical considerations to outline rapamycin’s potential as one of the most powerful known geroprotective drugs....
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Evidence for a limit
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Evidence for a limit to human lifespan
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Driven by technological progress, human life expec Driven by technological progress, human life expectancy has increased greatly since the nineteenth century. Demographic evidence has revealed an ongoing reduction in old-age mortality and a rise of the maximum age at death, which may gradually extend human longevity1,2. Together with observations that lifespan in various animal species is flexible and can be increased by genetic or pharmaceutical intervention, these results have led to suggestions that longevity may not be subject to strict, species-specific genetic constraints. Here, by analysing global demographic data, we show that improvements in survival with age tend to decline after age 100, and that the age at death of the world’s oldest person has not increased since the 1990s. Our results strongly suggest that the maximum lifespan of humans is fixed and subject to natural constraints. Maximum lifespan is, in contrast to average lifespan, generally assumed to be a stable characteristic of a species3. For humans, the
maximum reported age at death is generally set at 122 years, the age at death of Jeanne Calment, still the oldest documented human
individual who ever lived4. However, some evidence suggests that
maximum lifespan is not fixed. Studies in model organisms have shown that maximum lifespan is flexible and can be affected by genetic and pharmacological interventions5. In Sweden, based on a long series of reliable information on the upper limits of human lifespan, the
maximum reported age at death was found to have risen from about
101 years during the 1860s to about 108 years during the 1990s6. According to the authors, this finding refutes the common assertion that human lifespan is fixed and unchanging over time6. Indeed, the most convincing argument that the maximum lifespan of humans is not fixed is the ongoing increase in life expectancy in most countries over the course of the last century1,2. Figure 1a shows this increase for France, a country with high-quality mortality data, but very similar patterns were found for most other developed nations (Extended Data Fig. 1). Hence, the possibility has been considered that mortality may decline further, breaking any pre-conceived boundaries of human lifespan1,7. As shown by data from the Human Mortality Database8, many of the historical gains in life expectancy have been attributed to a
reduction in early-life mortality. More recent data, however, show
evidence for a decline in late-life mortality, with the fraction of each birth cohort reaching old age increasing with calendar year. In France, the number of individuals per 100,000 surviving to old age (70 and up) has increased since 1900 (Fig. 1b), which points towards a continuing increase in human life expectancy. This pattern is very similar across the other 40 countries and territories included in the database (Extended Data Figs 2, 3). However, the rate of improvement in survival peaks and then declines for very old age levels (Fig. 1c), which points
1Department of Genetics, Albert Einstein College of Medicine, Bronx, New York 10461, USA. 2Department of Ophthalmology & Visual Sciences, Albert Einstein College of Medicine, Bronx, New York 10461, USA. *These authors contributed equally to this work.
1900 1950 2000 1
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Figure 1 | Trends in life expectancy and late-life survival. a, Life expectancy at birth for the population in each given year. Life expectancy in France has increased over the course of the 20th and early 21st centuries. b, Regressions of the fraction of people surviving to old age demonstrate that survival has increased since 1900, but the rate of increase appears to be slower for ages over 100. c, Plotting the rate of
change (coefficients resulting from regression of log-transformed data) reveals that gains in survival peak around 100 years of age and then rapidly decline. d, Relationship between calendar year and the age that experiences the most rapid gains in survival over the past 100 years. The age with most rapid gains has increased over the century, but its rise has been slowing and it appears to have reached a plateau...
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Gene expression signature
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Gene expression signatures of human cell
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Inge Seim1,2, Siming Ma1 and Vadim N Gladyshev1
D Inge Seim1,2, Siming Ma1 and Vadim N Gladyshev1
Different cell types within the body exhibit substantial variation in the average time they live, ranging from days to the lifetime of the organism. The underlying mechanisms governing the diverse lifespan of different cell types are not well understood. To examine gene expression strategies that support the lifespan of different cell types within the human body, we obtained publicly available RNA-seq data sets and interrogated transcriptomes of 21 somatic cell types and tissues with reported cellular turnover, a bona fide estimate of lifespan, ranging from 2 days (monocytes) to a lifetime (neurons). Exceptionally long-lived neurons presented a gene expression profile of reduced protein metabolism, consistent with neuronal survival and similar to expression patterns induced by longevity interventions such as dietary restriction. Across different cell lineages, we identified a gene expression signature of human cell and tissue turnover. In particular, turnover showed a negative correlation with the energetically costly cell cycle and factors supporting genome stability, concomitant risk factors for aging-associated pathologies. In addition, the expression of p53 was negatively correlated with cellular turnover, suggesting that low p53 activity supports the longevity of post-mitotic cells with inherently low risk of developing cancer. Our results demonstrate the utility of comparative approaches in unveiling gene expression differences among cell lineages with diverse cell turnover within the same organism, providing insights into mechanisms that could regulate cell longevity.
npj Aging and Mechanisms of Disease (2016) 2, 16014; doi:10.1038/npjamd.2016.14; published online 7 July 2016
INTRODUCTION Nature can achieve exceptional organismal longevity, 4100 years in the case of humans. However, there is substantial variation in ‘cellular lifespan’, which can be conceptualized as the turnover of individual cell lineages within an individual organism.1 Turnover is defined as a balance between cell proliferation and death that contributes to cell and tissue homeostasis.2 For example, the integrity of the heart and brain is largely maintained by cells with low turnover/long lifespan, while other organs and tissues, such as the outer layers of the skin and blood cells, rely on high cell turnover/short lifespan.3–5 Variation in cellular lifespan is also evident across lineages derived from the same germ layers formed during embryogenesis. For example, the ectoderm gives rise to both long-lived neurons4,6,7 and short-lived epidermal skin cells.8 Similarly, the mesoderm gives rise to long-lived skeletal muscle4 and heart muscle9 and short-lived monocytes,10,11 while the endoderm is the origin of long-lived thyrocytes (cells of the thyroid gland)12 and short-lived urinary bladder cells.13 How such diverse cell lineage lifespans are supported within a single organism is not clear, but it appears that differentiation shapes lineages through epigenetic changes to establish biological strategies that give rise to lifespans that support the best fitness for cells in their respective niche. As fitness is subject to trade-offs, different cell types will adjust their gene regulatory networks according to their lifespan. We are interested in gene expression signatures that support diverse biological strategies to achieve longevity. Prior work on species longevity can help inform strategies for tackling this research question. Species longevity is a product of evolution and is largely shaped by genetic and environmental factors.14 Comparative transcriptome
studies of long-lived and short-lived mammals, and analyses that examined the longevity trait across a large group of mammals (tissue-by-tissue surveys, focusing on brain, liver and kidney), have revealed candidate longevity-associated processes.15,16 They provide gene expression signatures of longevity across mammals and may inform on interventions that mimic these changes, thereby potentially extending lifespan. It then follows that, in principle, comparative analyses of different cell types and tissues of a single organism may similarly reveal lifespan-promoting genes and pathways. Such analyses across cell types would be conceptually similar, yet orthogonal, to the analysis across species. Publicly available transcriptome data sets (for example, RNA-seq) generated by consortia, such as the Human Protein Atlas (HPA),17 Encyclopedia of DNA Elements (ENCODE),18 Functional Annotation Of Mammalian genome (FANTOM)19 and the Genotype-Tissue Expression (GTEx) project,20 are now available. They offer an opportunity to understand how gene expression programs are related to cellular turnover, as a proxy for cellular lifespan. Here we examined transcriptomes of 21 somatic cells and tissues to assess the utility of comparative gene expression methods for the identification of longevity-associated gene signatures.
RESULTS We interrogated publicly available transcriptomes (paired-end RNA-seq reads) of 21 human cell types and tissues, comprising 153 individual samples, with a mean age of 56 years (Table 1; details in Supplementary Table S1). Their turnover rates (an estimate of cell lifespan4) varied from 2 (monocytes) to 32,850 (neurons) days, with all three germ layers giving rise to both short-lived a...
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Gut microbiota variations
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Gut microbiota variations over the lifespan and
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This study investigates how the gut microbiota (th This study investigates how the gut microbiota (the community of microorganisms living in the gut) changes throughout the reproductive lifespan of female rabbits and how these changes relate to longevity. It compares two maternal rabbit lines:
Line A – a standard commercial line selected mainly for production traits.
Line LP – a long-lived line created using longevity-based selection criteria.
🔬 What the Study Did
Researchers analyzed 319 fecal samples collected from 164 female rabbits across their reproductive lives (from first parity to death/culling). They used advanced DNA sequencing of the gut microbiome, including:
16S rRNA sequencing
Bioinformatics (DADA2, QIIME2)
Alpha diversity (richness/evenness within a sample)
Beta diversity (differences between samples)
Zero-inflated negative binomial mixed models (ZINBMM)
Animals were categorized into three longevity groups:
LL: Low longevity (died/culled before 5th parity)
ML: Medium longevity (5–10 parities)
HL: High longevity (more than 10 parities)
🧬 Key Findings
1. Aging Strongly Alters the Gut Microbiome
Age caused a consistent decline in diversity:
Lower richness
Lower evenness
Reduced Shannon index
20% of ASVs in line A and 16% in line LP were significantly associated with age.
Most age-associated taxa declined with age.
Age explained the greatest proportion of sample-to-sample microbiome variation.
2. Longevity Groups Have Distinct Microbiomes
High-longevity rabbits (HL) showed lower evenness, meaning fewer taxa dominated the community.
Differences between longevity groups were more pronounced in line A than line LP.
In line A, 15–16% of ASVs differed between HL and LL/ML.
In line LP, only 4% differed.
Suggests genetic selection for longevity stabilizes microbiome patterns.
3. Strong Genetic Line Effects
LP rabbits consistently had higher alpha diversity than A rabbits.
About 6–12% of ASVs differed between lines even when comparing animals of the same longevity, proving:
Genetics shape the microbiome independently of lifespan.
Several bacterial families were consistently different between lines, such as:
Lachnospiraceae
Oscillospiraceae
Ruminococcaceae
Akkermansiaceae
🧩 What It Means
The gut microbiota shifts dramatically with age, even under identical feeding and environmental conditions.
Specific bacteria decline as rabbits age, likely tied to immune changes, reproductive stress, or physiological aging.
Longevity is partially linked to microbiome composition—but genetics strongly determines how much the microbiome changes.
The LP line shows more microbiome stability, hinting at genetic resilience.
🌱 Why It Matters
This research helps:
Understand aging biology in mammals
Identify microbial markers of longevity
Improve breeding strategies for long-lived, healthy livestock
Explore microbiome-driven approaches for health and productivity...
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Dublin Longevity
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Dublin Longevity Declaration
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Consensus Recommendation to Immediately Expand Res Consensus Recommendation to Immediately Expand Research on Extending Healthy Human Lifespans
For millennia, the consensus of the general public has been that aging is inevitable. For most of our history, even getting to old age was a significant accomplishment – and while centenarians have been around at least since the time of the Greeks, aging was never of major interest to medicine.
That has changed. Longevity medicine has entered the mainstream. First, evidence accumulated that lifestyle modifications prevent chronic diseases of aging and extend healthspan, the healthy and highly functional period of life. More recently, longevity research has made great progress – aging has been found to be malleable and hundreds of interventional strategies have been identified that extend lifespan and healthspan in animal models. Human clinical studies are underway, and already early results suggest that the biological age of an individual is modifiable.
A concerted effort has been made in the longevity field to institutionalize the word “healthspan”. Why healthspan (how long we stay healthy) and not its side-effect of lifespan (how long we live)? The reasons are linked more to perception than reality. Fundamental to this need to highlight healthspan is the idea that individuals get when they are asked if they want to live longer. Many imagine their parents or grandparents at the end of their lives when they often have major health issues and low quality of life. Then they conclude that they would not choose to live longer in that condition. This is counter to longevity research findings, which show that it is possible to intervene in late middle life and extend both healthspan and lifespan simultaneously. Emphasizing healthspan also reduces concerns of some individuals about whether it is ethical to live longer.
A drawback of this exists, though: many current longevity interventions may extend healthspan more than lifespan. Lifestyle interventions such as exercise probably fit this mold. Many interventions that have dramatic health-extending effects in invertebrate models have more modest effects in mice, and there is a concern that they will be further reduced in humans. In other words, the drugs and small molecules that we are excited about today may, despite their hefty development costs and lengthy approval processes, only extend average healthspan by five or ten years and may not extend maximum lifespan at all. Make no mistake, this would still represent a revolution in medical practice! A five-year extension in human healthspan, with equitable access for all people, would save trillions per year in healthcare costs, provide extra life quality across the entire population ...
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health services
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health services use by older adults
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This PDF is a fact sheet that summarizes how older This PDF is a fact sheet that summarizes how older adults (age 65+) use health services in the United States. It presents national statistics on doctor visits, chronic diseases, hospital care, emergency care, prescription drug use, long-term services, and long-term care needs among seniors.
The focus is to show how rising longevity, chronic illness, and disability shape healthcare demands in older populations.
The document is structured with clear data points, percentages, and brief explanations—ideal for public health professionals, students, policymakers, and caregivers.
📌 Main Topics Covered
1. Use of Physician Services
Seniors account for 26% of all physician visits in the U.S.
Doctor visits increase with age due to chronic disease management.
Many older adults see multiple specialists annually.
2. Hospital Use
People aged 65+ make up a large proportion of hospital admissions.
Older adults have higher rates of:
inpatient stays
readmissions
longer lengths of stay
Hospitalization risk increases with complex chronic conditions.
3. Emergency Department (ED) Visits
Seniors frequently use emergency departments for:
falls
injuries
acute illness episodes
complications of chronic diseases
ED visits rise significantly after age 75.
4. Chronic Diseases
The PDF highlights the heavy burden of chronic illness in late life:
80% of older adults have at least one chronic condition.
Up to 50% have two or more chronic diseases.
Common conditions include:
arthritis
heart disease
diabetes
hypertension
osteoporosis
COPD
Chronic illness is the primary driver of healthcare utilization in older populations.
5. Prescription Drug Use
Older adults use a disproportionately high number of medications.
Polypharmacy (using 5+ medications at once) is common and increases risks of:
adverse drug reactions
drug–drug interactions
falls
hospitalization
6. Long-Term Services and Supports (LTSS)
The PDF includes essential data on long-term care:
Older adults are the largest users of home care, community-based services, and institutional care.
A growing population of seniors requires:
help with activities of daily living (ADLs)
nursing home services
home health care
personal care services
7. Long-Term Care Facilities
The data highlight the following:
65+ adults represent the majority of people living in:
nursing homes
assisted living facilities
Many residents have significant functional or cognitive impairment (e.g., dementia).
8. Summary of Utilization Patterns
The PDF shows a clear pattern:
Older adults are the highest users of healthcare across almost all service types.
Their needs are shaped by:
multiple chronic diseases
declining mobility
cognitive decline
functional impairments
increased vulnerability to acute health events
As longevity increases, demand for health services will continue to rise.
🧾 Overall Conclusion
The PDF provides a concise but comprehensive portrait of how much and what types of healthcare older adults use.
Key messages:
✔ Older adults use far more physician services, hospital care, and emergency care than younger groups.
✔ Chronic diseases dominate health service use.
✔ Prescription medication use is high, with major safety concerns.
✔ Long-term services and institutional care are essential for many seniors.
✔ As the population ages, the healthcare system must adapt to growing demand.
If you want, I can also prepare:
✅ a short summary
✅ a data-only summary
✅ an infographic-style description
Just tell me!...
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The effect of water
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The effect of drinking water
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Theeffectofdrinkingwaterqualityonthehealthand long Theeffectofdrinkingwaterqualityonthehealthand longevityofpeople-AcasestudyinMayang,HunanProvince, China
JLu1,2 andFYuan1 1DepartmentofEngineeringandSafety,UiTTheArcticUniversityofNorway,N9037Tromsø,Norway
E-mail:Jinmei.lu@uit.no Abstract. Drinking water is an important source for trace elements intake into human body. Thus, the drinking water quality has a great impact on people’s health and longevity. This study aims to study the relationship between drinking water quality and human health and longevity. A longevity county Mayang in Hunan province, China was chosen as the study area. The drinking water and hair of local centenarians were collected and analyzed the chemical composition. The drinking water is weak alkalineandrichintheessentialtraceelements.ThedailyintakesofCa,Cu,Fe,Se,Sr from drinking water for residents in Mayang were much higher than the national average daily intake from beverage and water. There was a positive correlation between Ni and Pb in drinking water and Ni and Pb in hair. There were significant correlationsbetweenCu,KindrinkingwaterandBa,Ca,Mg,Srinthehairatthe0.01 level. The concentrations of Mg, Sr, Se in drinking water showed extremely significant positive relation with two centenarian index 100/80% and 100/90% correlation. Essential trace elements in drinking water can be an important factor for localhealthandlongevity.
1. Introduction Trace elements can not be manufactured by human body itself, and they must be taken from the natural environment. Water is a major source of trace elements necessary for the growth of biological organisms. The composition of trace elements in water has a significant impact on human health. Changes in drinking water and groundwater sources can lead to significant changes in health risk relatedwithtraceelements[1]. Insufficient or excessive trace elements in water can lead to the occurrence of certain diseases. Liu XJ et al. found that the concentrations of Cu, Fe, Sr, Ti and V in the water samples from area with high incidence of gastric cancer were significantly higher than those in the area with low incidence of gastric cancer [2]. Another research on the relationship between the concentration of trace elements in drinking water and gastric cancer showed that Se and Zn can significantly prevent the development of gastric cancer [3]. Kikuchi H. et al. studied the relationship between the levels of trace elements in water and age-adjusted incidence of colon and rectal cancer, and the results showed that the incidence ...
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LIFE EXPECTANCY AND HUMAN
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LIFE EXPECTANCY AND HUMAN CAPITAL INVESTMENTS
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This PDF is a theoretical and economic analysis th This PDF is a theoretical and economic analysis that examines how life expectancy influences human capital investment—particularly education, skill acquisition, and long-term personal development. The central purpose of the paper is to explain why people invest more in education and training when they expect to live longer, and how improvements in survival rates reshape economic behavior, societal development, and intergenerational outcomes.
The core message:
Longer life expectancy increases the returns to human capital, incentivizes individuals to acquire more education and skills, and plays a crucial role in shaping economic growth and income distribution.
🎓 1. Purpose and Motivation
The paper addresses key questions:
Why do individuals invest more in education when life expectancy rises?
How does increased longevity affect economic growth?
How do survival improvements change intergenerational human capital transmission?
What are the broader implications for inequality and development?
It links demography with economics, showing that human capital decisions depend heavily on expected lifespan.
LIFE EXPECTANCY AND HUMAN CAPIT…
🧠 2. Core Theoretical Insight
Human capital investment—like education or training—has upfront costs but produces returns over time.
If people expect to live longer:
They enjoy returns for more years
They have more incentive to invest
They delay retirement
They allocate more time to schooling in youth
They acquire training even in mid-life
Thus, longer life expectancy raises the value of human capital.
LIFE EXPECTANCY AND HUMAN CAPIT…
👶 3. The Overlapping Generations Framework
The paper uses an OLG (Overlapping Generations) model, where:
Parents invest in children
Children become productive adults
Longer life expectancy changes optimal investments
Key mechanisms:
⭐ Higher expected lifespan → higher returns on education
Parents allocate more resources toward schooling.
⭐ Children attend school longer
Their lifetime earnings potential increases.
⭐ Economy accumulates more knowledge
Driving long-run growth.
LIFE EXPECTANCY AND HUMAN CAPIT…
📈 4. Empirical and Theoretical Implications
✔ More schooling
Increased life expectancy correlates with more years of formal education.
✔ Higher productivity
A more educated workforce boosts national growth.
✔ Lower fertility
Parents invest more per child as education becomes more valuable.
✔ Intergenerational impact
Educated parents pass on higher human capital to children.
✔ Economic development pathway
Longevity is a key driver in the transition from low- to high-income economies.
LIFE EXPECTANCY AND HUMAN CAPIT…
⚠️ 5. Inequality and Distributional Effects
The document also examines how life expectancy interacts with economic inequality:
Higher-income families invest more in children, widening gaps.
Unequal improvements in survival can reinforce inequality.
Policy interventions may be required to equalize educational opportunity.
The overall conclusion:
Longevity-driven human capital growth can either reduce or increase inequality depending on policy design.
LIFE EXPECTANCY AND HUMAN CAPIT…
🧩 6. Policy Implications
⭐ Support for early-life education
Because returns amplify over longer lifespans.
⭐ Investments in public health
Better health → higher life expectancy → higher human capital.
⭐ Incentives for lifelong learning
Especially in aging societies.
⭐ Reduce barriers to education
To avoid inequality expansion.
LIFE EXPECTANCY AND HUMAN CAPIT…
⭐ Overall Summary
This PDF explains that life expectancy is a powerful determinant of human capital investment. Longer lives increase the payoff from education, encourage skill acquisition, and promote economic growth through a more productive workforce. However, if survival and educational opportunities are unevenly distributed, inequality may rise. The paper provides a strong theoretical foundation for understanding why healthier, longer-living societies tend to be more educated and more economically advanced....
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ljrlcirv-5496
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Healthy Ageing
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Healthy Ageing
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This document is an academic research article titl This document is an academic research article titled “Healthy Ageing and Mediated Health Expertise” by Christa Lykke Christensen, published in Nordicom Review (2017). It explores how older adults understand health, how they think about ageing, and most importantly, how media influence their beliefs and behaviors about healthy living.
✅ Main Purpose of the Article
The study investigates:
How older people use media to learn about health.
Whether they trust media health information.
How media messages shape their ideas of active ageing, lifestyle, and personal responsibility for health.
🧓📺 Core Focus
The article is based on 16 qualitative interviews with Danish adults aged 65–86. Through these interviews, the author analyzes how elderly people react to health information in media such as TV, magazines, and online content.
⭐ Key Insights and Themes
1️⃣ Two Different Ageing Strategies Identified
The research shows that older adults fall into two broad groups:
(A) Those who maintain a youthful lifestyle into old age
Highly active (gym, sports, diet programs).
Use media health content as guidance (exercise shows, magazines, expert advice).
Believe good lifestyle can prolong life.
Try hard to “control” ageing through diet and activity.
(B) Those who accept natural ageing
Define health as simply “not being sick.”
Value mobility, independence, social interaction.
More relaxed about diet and exercise.
Focus on quality of life, relationships, emotional well-being.
More critical and skeptical of media health claims.
2️⃣ Role of Media
The article describes a dual influence:
Positive influence
Media provide accessible knowledge.
Inspire healthy habits.
Offer motivation and new routines.
Negative influence
Information often contradicts itself.
Creates pressure to meet unrealistic standards.
Can lead to guilt, frustration, confusion.
Overemphasis of diet/exercise overshadows social and emotional health.
3️⃣ “The Will to Be Healthy”
Inspired by previous research, the article explains that modern society expects older people to:
Stay active
Eat perfectly
Avoid illness through personal discipline
Continuously self-improve
Older adults feel that being healthy becomes a moral obligation, not just a personal choice.
4️⃣ Media’s Framing of Ageing
The media often portray older adults as:
Energetic
Positive
Fit
Productive
These representations push the idea of “successful ageing,” creating pressure for older individuals to avoid looking or feeling old.
5️⃣ Tension and Dilemmas
The study reveals emotional conflicts such as:
Wanting a long life but not wanting to feel old.
Trying to follow health advice but feeling overwhelmed.
Personal health needs vs. societal expectations.
Desire for autonomy vs. media pressure.
📌 Conclusions
The article concludes that:
Health and ageing are shaped heavily by media messages.
Older people feel responsible for their own ageing process.
Media act as a “negotiating partner” — guiding, confusing, pressuring, or inspiring.
Ageing today is not passive; it requires continuous decision-making and self-management.
There is no single way to age healthily — each individual balances ideals, limitations, and life experience....
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Healthy life expectancy,
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Healthy life expectancy, mortality, and age
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This paper explains why traditional measures of He This paper explains why traditional measures of Healthy Life Expectancy (HLE) can be misleading when they rely only on age-specific morbidity (illness/disability) rates.
The authors show that many health conditions in older ages are not primarily driven by age, but by Time-To-Death (TTD)—how close someone is to dying. Because of this, the usual practice of linking health problems to chronological age produces distorted results, especially when comparing populations or tracking trends over time.
Key Insights
Morbidity often rises sharply in the final years before death, regardless of the person's age.
Therefore, when life expectancy increases, the population shifts so that more people are farther from death, leading to lower observed disability at a given age—even if the true underlying health process hasn’t changed.
This means that improvements in mortality alone can make it appear that morbidity has decreased or that people are healthier at older ages.
As a result, period HLE estimates may falsely suggest real health improvements, when the change actually comes from mortality declines—not better health.
What the Study Demonstrates
Using U.S. Health and Retirement Study data and mortality tables:
They model disability patterns based on TTD and convert them into apparent age patterns.
They show mathematically and empirically how mortality changes distort age-based morbidity curves.
They test how much bias enters standard health expectancy decompositions (e.g., Sullivan method).
They find that a 5-year increase in life expectancy after age 60 can artificially reduce disability estimates by up to 1 year, even if actual morbidity is unchanged.
Core Message
Age-based prevalence of disease/disability cannot be reliably interpreted without understanding how close individuals are to death.
Thus, comparing HLE between populations—or within a population over time—can be biased unless TTD dynamics are considered....
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Human capital and life
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Human capital and longevity
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Title: Human Capital and Longevity: Evidence from Title: Human Capital and Longevity: Evidence from 50,000 Twins
Authors: Petter Lundborg, Carl Hampus Lyttkens, Paul Nystedt
Published: July 2012
Dataset: Swedish Twin Registry (≈50,000 same-sex twins, 1886–1958)
🔍 What the Study Investigates
The document analyzes why well-educated people live longer, using one of the world’s largest collections of identical (MZ) and fraternal (DZ) twins. Because twins share genes and environments, this study uniquely isolates whether the connection between education and longevity is causal or simply due to shared background factors.
📊 Core Research Questions
Does education truly increase lifespan?
Or do unobserved factors—such as genetics, early-life health, birth weight, family environment, or ability—explain the link?
How much extra life expectancy is gained from higher education?
🧬 Why Twins Are Used
Twins help the researchers eliminate:
Shared genes
Shared childhood environments
Early-life conditions
Many unobserved family-level factors
This allows a much cleaner measurement of the effect of education alone.
📈 Main Findings (Clear & Strong)
1️⃣ Education strongly increases longevity.
Across all models:
Each extra year of schooling reduces mortality by about 6%.
2️⃣ Even after controlling for:
Shared genes
Shared environment
Birth weight differences
Height (proxy for IQ & early health)
Only twins who differ in schooling
➡️ The relationship remains significant and strong.
3️⃣ High education adds 2.5–3 additional years of life at age 60.
This effect is:
Consistent for men and women
Consistent across birth cohorts
Strongest in younger generations
Stronger at mid-life (age 50–60) than in old age
🧪 Key Tests & Evidence
Birth Weight Test
Birth weight differences predict schooling differences
BUT birth weight does not predict mortality
→ So omission of birth weight does not bias the education effect.
Height (Ability Proxy) Test
Taller twins achieve more schooling
But height does not predict mortality in twin comparisons
→ Ability differences cannot explain the education–longevity link.
MZ vs DZ Twins
Identical twins (MZ) share 100% genes
Fraternal twins (DZ) share ~50%
Results are extremely similar
Suggests genetics are not driving the relationship.
📉 Non-Linear Benefits
Education levels:
<10 years
10–12 years
≥13 years (university level)
Effects:
Middle group: ~13% lower mortality
University group: 35–40% lower mortality
Very strong evidence of a degree effect.
⏳ Age Patterns
The effect is strongest between ages 50–60
The benefit declines slightly at older ages
But remains significant across all age groups
📅 Cohort Patterns
The education–longevity gap has grown stronger over time
Likely due to rising skill demands and better health knowledge among educated groups
📘 Methodology
The study uses advanced statistical tools:
Cox proportional hazards models
Stratified partial likelihood (twin fixed-effects)
Gompertz survival models
Linear probability models for survival to 70 and 80
These allow precise estimation of the effect of education on mortality.
📌 Policy Implications
Education has large, long-term health returns
These returns go far beyond labor market earnings
Increasing education could significantly raise population longevity—especially in developing countries
Evidence suggests education improves:
Health behaviors
Decision-making
Access to knowledge
Use of medical information
🎯 Final Summary (Perfect One-Liner)
The study provides powerful evidence that education itself—not genes, family environment, or early-life factors—directly increases human lifespan by several years, making schooling one of the most effective longevity-enhancing investments in society....
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8684964a-bab1-4235-93a8-5fd5e24a1d0a
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tllivfbe-3782
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xevyo
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How chronic disease
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How chronic disease affects ageing?
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This monographic report, How Chronic Diseases Affe This monographic report, How Chronic Diseases Affect Ageing, provides a comprehensive and multidisciplinary analysis of how the global rise in life expectancy is directly influencing the prevalence, complexity, and long-term impact of chronic diseases in ageing populations. Drawing on international health organisations, national statistics, clinical research, and current care models, the document explains how chronic diseases—such as cardiovascular conditions, diabetes, chronic respiratory illnesses, cancer, and other age-associated disorders—shape the physical, functional, cognitive, emotional, and social dimensions of older adults.
The report examines demographic trends, theoretical frameworks, and epidemiological data to explain why chronicity is becoming one of the major public health challenges of the 21st century. It details the increasing coexistence of multiple chronic conditions (multimorbidity), the clinical complexities of polypharmacy, the progressive decline in autonomy, and the emergence of frailty—both physical and social—as a defining characteristic of advanced age.
Through a structured and evidence-based approach, the document outlines:
✔ Types of chronic diseases prevalent in ageing adults
Including cardiovascular disease, COPD, cancer, diabetes, arthritis, hypertension, osteoporosis, depression, and neurodegenerative disorders such as Alzheimer’s.
✔ The chronic patient profile
Describing levels of complexity, comorbidity, frailty, care dependence, and the growing role of multidisciplinary teamwork in long-term management.
✔ Risk factors
From modifiable lifestyle behaviours (tobacco, diet, activity) to metabolic, genetic, environmental, and socio-economic determinants.
✔ Key challenges
Such as medication reconciliation, treatment non-adherence, limited access to specialised geriatric resources, fragmented care systems, psychological burden, and nutritional vulnerabilities.
✔ Solutions and innovations
Including preventive strategies (primary, secondary, tertiary, quaternary), strengthened primary care, case management models, specialised geriatric resources, PROMs and PREMs for quality-of-life measurement, and advanced technologies—AI, remote monitoring, predictive models—to anticipate complications and personalise care.
✔ Conclusions
Highlighting the need for integrated, person-centred, preventive, predictive, and technologically supported healthcare models capable of addressing the growing burden of chronic diseases in an ageing world.
This report serves as an essential resource for healthcare professionals, policymakers, researchers, and organisations seeking to better understand, manage, and innovate within the intersection of chronicity and ageing.
If you want, I can also create:
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Just tell me!...
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How has the variance
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How has the variance of longevity changed ?
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This document is a comprehensive research paper th This document is a comprehensive research paper that examines how the variance of longevity (variation in age at death) has changed across different population groups in the United States over the past several decades. Rather than focusing only on life expectancy, it highlights how unpredictable lifespan is, which is crucial for retirement planning and the value of lifetime income products like annuities.
🔎 Main Purpose of the Study
The core purpose is to analyze:
How lifespan variation has changed from the 1970s to 2019
How differences vary across race, gender, and socioeconomic status (education level)
How changes in lifespan variability influence the economic value of annuities
The authors focus heavily on the implications for retirement planning, longevity risk, and financial security.
🔍 Populations Analyzed
The study evaluates five major groups:
General U.S. population
Annuitants (people who purchase annuities)
White—high education
White—low education
Black—high education
Black—low education
All groups are analyzed separately for men and women, and conditional on survival to ages 50, 62, 67, and 70.
📈 Key Findings (Perfect Summary)
1. Population-level variance has remained stable since the 1970s
Even though life expectancy increased, the spread of ages at death (standard deviation) remained mostly unchanged for the general population.
2. SES and racial disparities in lifespan variation remain large
Black and lower-education individuals have consistently greater lifespan variation.
They face higher risks of both premature death and very late death.
This inequality captures an important dimension of social and economic disadvantage.
3. Different groups show different trends (2000–2019)
Variance increased for almost all groups
→ especially high-education Black and low-education White individuals.
Exception: Low-education Black males
→ They showed a substantial decrease in variability mostly due to reduced premature mortality.
4. Annuitants have less lifespan variation at age 50
Those who purchase annuities tend to be healthier, wealthier, and show less lifespan uncertainty.
However, by age 67, the difference in variation between annuitants and the general population nearly disappears.
💰 Economic Insights: Impact on Annuity Value
Using a lifecycle model, the study calculates wealth equivalence — how much additional wealth a person would need to compensate for losing access to a fair annuity.
Key insight:
Even though longevity variance increased, the value of annuities actually declined over time.
Why?
Because life expectancy increased, delaying mortality credits to older ages — lowering annuity value in economic terms.
Quantitative Findings
A one-year increase in standard deviation → raises annuity value by 6.8% of initial wealth.
A one-year increase in life expectancy → reduces annuity value by 3.1%.
From 2000–2019:
General population saw only a 1.3–2.0% increase in annuity value due to rising variance.
By group:
High-education Black males: +13.6%
Low-education Black males: –6.1%
🔬 Methodology
The study uses:
SSA cohort life tables for the general population
Mortality estimates using NVSS & ACS data for race-education groups
Annuity mortality tables (1971 IAM, 1983 IAM, 2000, 2012 IAM) for annuitants
Lifespan variation measured using standard deviation of age at death (Sx)
Wealth equivalence is computed using a CRRA utility model with full annuitization and actuarially fair payouts.
🧠 Why This Matters
Lifespan uncertainty directly affects:
✔ Retirement planning
✔ Optimal savings behavior
✔ Need for annuities or guaranteed lifetime income
✔ Social welfare policy
Groups with higher lifespan uncertainty benefit more from annuities.
The study’s results emphasize:
Persistent inequalities in mortality patterns
The importance of accessible lifetime income options
The role of policy in addressing retirement security
📌 Perfect One-Sentence Summary
The document shows that while life expectancy has risen, the variance of longevity has remained stable overall but diverged notably across racial and socioeconomic groups, significantly influencing the economic value and importance of annuities in retirement planning.
If you want:
✅ A diagram
✅ A simplified student-friendly summary
✅ A PPT, PDF, or infographic
✅ A comparison table
✅ A visual chart
Just tell me — I can generate it!...
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Healthy Aging Among
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Healthy Aging Among Centenarians and Near-Centenar
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This PDF is a comprehensive academic research pape This PDF is a comprehensive academic research paper that explores what allows people to live to 100 years and beyond while still maintaining physical, psychological, and social well-being. It examines the characteristics, lifestyles, health patterns, and resilience factors of centenarians and near-centenarians, highlighting why some individuals age successfully despite extreme longevity.
The paper integrates demographic data, medical profiles, social determinants, and psychological traits to understand healthy aging in the oldest-old—a population that is rapidly increasing worldwide.
🔶 1. Purpose of the Study
The document aims to:
Identify what differentiates healthy centenarians from those with typical age-related decline
Analyze their physical health, cognitive functioning, and emotional well-being
Explore long-life determinants including lifestyle, genetics, environment, and personality
Understand how these individuals maintain independence and quality of life
Provide insights for public health and aging research
It serves as a foundational resource for gerontologists, clinicians, and policymakers.
🔶 2. Who Are the Participants?
The study focuses on:
Centenarians (100+ years)
Near-centenarians (ages 95–99)
These groups are compared across:
Health status
Cognitive functioning
Daily living ability
Social networks
Psychological resilience
🔶 3. Key Findings
⭐ A. Physical Health Patterns
The paper notes:
Many centenarians delay major diseases until very late in life (“compression of morbidity”)
Some maintain surprisingly good mobility and independence
Common chronic issues include vision, hearing, and musculoskeletal limitations
Hospitalization rates are not always higher than younger elderly groups
Despite extreme age, a proportion of centenarians preserve functional health.
⭐ B. Cognitive Functioning
The study highlights:
A meaningful number maintain intact cognitive abilities
Others show mild impairments, but dementia is not universal
Cognitive resilience is linked to higher education, mental engagement, and social activity
Longevity does not guarantee cognitive decline; variability is wide.
⭐ C. Psychological Strength & Emotional Well-Being
A central message is that many centenarians possess strong mental resilience:
High optimism
Emotional stability
Adaptive coping skills
Lower depressive symptoms than expected
Positive psychological traits strongly correlate with healthy aging.
⭐ D. Social Environment & Support
Findings show:
Strong family support is crucial
Continued social engagement boosts health and mood
Many maintain close relationships with caregivers and relatives
Successful aging is deeply connected to social connection.
⭐ E. Lifestyle Factors
Patterns common among long-lived individuals include:
Moderation in diet
Regular light physical activity
Avoidance of smoking
Effective stress management
Consistent daily routines
These habits contribute significantly to longevity quality—not just lifespan.
⭐ F. Biological & Genetic Contributions
Although lifestyle matters, the study notes:
Genetics plays a major role in reaching 100+
Longevity-associated genes influence inflammation, metabolism, and cellular repair
Family history of longevity is a strong predictor
🔶 4. Broader Implications
The paper stresses that understanding healthy aging in centenarians can:
Help identify protective factors for the general population
Guide interventions for aging societies
Improve caregiving and support systems
Challenge stereotypes about extreme old age
🔶 5. Central Conclusion
Healthy aging at 100+ is shaped by a combination of genetics, lifestyle, psychological resilience, and strong social support. Many centenarians remain physically functional, mentally active, emotionally stable, and socially connected—demonstrating that long life can also be a high-quality life.
⭐ Perfect One-Sentence Summary
This PDF provides a detailed scientific examination of how centenarians and near-centenarians achieve healthy aging, revealing that exceptional longevity is supported by resilient psychological traits, strong social networks, delayed disease onset, functional independence, and a meaningful interplay between lifestyle and genetics....
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atmaowak-0526
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xevyo
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Healthy lifestyle
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Healthy lifestyle and life expectancy with
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This scientific study investigates how healthy lif This scientific study investigates how healthy lifestyle behaviors in midlife influence life expectancy, both with and without major chronic diseases, over a 20-year period. The research uses data from 57,053 Danish adults aged 50–69 years from the well-known Diet, Cancer and Health cohort.
The authors aim to understand how everyday lifestyle choices shape long-term health, disease onset, multimorbidity, and healthcare use.
🔑 Purpose of the Study
The study asks:
How does a combined healthy lifestyle score relate to:
Life expectancy free of major chronic diseases
Life expectancy with disease
Multimorbidity (2+ simultaneous chronic illnesses)
Days of hospitalization over 20 years?
It quantifies how much longer and healthier people live as their lifestyle improves.
🧪 How the Study Was Conducted
Population
57,053 men and women, ages 50–69
Denmark, followed for up to 21.5 years
Free of major disease at the start (1997)
Lifestyle Health Score (0–9 points)
Based on 5 behavioral factors:
Smoking (0–2 points)
Sport activity (0–1 point)
Alcohol intake (0–2 points)
Diet quality (0–2 points)
Waist circumference (0–2 points)
A higher score = healthier lifestyle.
Diseases included
Participants were tracked for the development of:
Cancer
Type 2 diabetes
Stroke
Heart disease
Dementia
COPD
Asthma
Follow-up outcomes
Life expectancy without disease
Life expectancy with disease
Time with one disease and multi-disease
Hospitalization days
📊 Key Findings (Perfect Summary)
🟢 1. Healthy behavior significantly extends disease-free life
For 65-year-old participants, each 1-point increase in the health score resulted in:
+0.83 years of disease-free life for men
+0.86 years for women
People with the highest score (9) lived ~7.5 more years disease-free compared to those with the lowest score (0).
🔴 2. Healthy lifestyle reduces the years lived with chronic disease
For each 1-point increase in health score:
Men: –0.18 years with disease
Women: –0.37 years with disease
Women gained the most reduction.
🔵 3. Multimorbidity drops sharply with higher health scores
Among 65-year-olds:
Men with a low score spent 16.8% of life with 2+ diseases
Men with high scores spent only 3.6%
The pattern is similar in women.
Healthy lifestyle greatly compresses time lived with multiple illnesses.
🟣 4. Healthy lifestyle dramatically cuts hospitalization days
For 65-year-old men:
Score 0 → 6.1 days/year in the hospital
Score 9 → 2.4 days/year
For women:
Score 0 → 5.5 days/year
Score 9 → 2.5 days/year
Healthier behaviors = less burden on healthcare systems.
🔥 Which behavior mattered most?
1. Smoking (largest impact)
Current smoking reduced disease-free life by:
–3.20 years in men
–3.74 years in women
And increased years with disease.
2. High waist circumference
Reduced disease-free years by:
–2.54 years (men)
–1.90 years (women)
3. Diet, exercise, & alcohol
These had moderate but meaningful positive effects.
🧠 Final Interpretation
The study clearly shows:
Healthy living in midlife extends life, delays disease, and reduces hospital use.
Even small lifestyle improvements make measurable differences.
The health score is a simple but powerful predictor of later-life health outcomes.
📌 One Perfect Sentence Summary
A healthy lifestyle combining no smoking, regular activity, optimal diet, balanced alcohol intake, and healthy waist size can extend disease-free life by more than 7 years, reduce multimorbidity, and significantly cut hospitalization over 20 years.
If you'd like, I can create:
✅ A simple student summary
✅ A diagram/flowchart
✅ A presentation (PPT)
✅ A PDF summary
✅ A visual table of results
Just tell me!...
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healthy lifespan
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Healthy lifespan inequality
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This document provides a comprehensive global anal This document provides a comprehensive global analysis of healthy lifespan inequality (HLI)—a groundbreaking indicator that measures how much variation exists in the age at which individuals first experience morbidity. Unlike traditional health metrics that capture only averages, such as life expectancy (LE) and health-adjusted life expectancy (HALE), HLI reveals the distribution and timing of health deterioration within populations.
Using data from the Global Burden of Disease Study 2019, the authors reconstruct mortality and morbidity curves to compare lifespan inequality (LI) with healthy lifespan inequality across 204 countries and territories from 1990 to 2019. This analysis uncovers significant global patterns in how early or late people begin to experience disease, disability, or less-than-good health.
The document presents several key findings:
1. Global Decline in Healthy Lifespan Inequality
Between 1990 and 2019, global HLI decreased for both sexes, indicating progress in narrowing the spread of ages at which morbidity begins. However, high-income countries experienced stagnation, showing no further improvement despite increases in longevity.
2. Significant Regional Differences
Lowest HLI is observed in high-income regions, East Asia, and Europe.
Highest HLI is concentrated in Sub-Saharan Africa and South Asia.
Countries such as Mali, Niger, Nigeria, Pakistan, and Haiti exhibit the widest variability in morbidity onset.
3. Healthy Lifespan Inequality Is Often Greater Than Lifespan Inequality
Across most regions, HLI exceeds LI—meaning variability in health loss is greater than variability in death. This indicates populations are becoming more equal in survival but more unequal in how and when they experience disease.
4. Gender Differences
Women tend to experience higher HLI than men, reinforcing the “health–survival paradox”:
Women live longer
But spend more years in poor health
And experience more uncertainty about when morbidity begins.
5. Rising Inequality After Age 65
For older adults, HLI65 has increased globally, signaling that while people live longer, the onset of morbidity is becoming more unpredictable in later life. Longevity improvements do not necessarily compress morbidity at older ages.
6. A Shift in Global Health Inequalities
The study reveals that as mortality declines worldwide, inequalities are shifting away from death and toward disease and disability. This transition marks an important transformation in modern population health and has major implications for:
healthcare systems
pension planning
resource allocation
long-term care
public health interventions
7. Policy Implications
The findings stress that improving average lifespan is not enough. Policymakers must also address when morbidity begins and how uneven that experience is across populations. Rising heterogeneity in morbidity onset, especially among older adults, requires:
stronger preventative health strategies
lifelong health monitoring
reduction of socioeconomic and regional disparities
integration of morbidity-related indicators into national health assessments
In Short
This study reveals a crucial and previously overlooked dimension of global health: even as people live longer, the timing of health deterioration is becoming more unequal, especially in high-income and aging societies. Healthy lifespan inequality is emerging as a vital metric for understanding the true dynamics of global aging and for designing health systems that prioritize not only longer life, but fairer and healthier life.
If you want, I can also create:
✅ A shorter perfect description
✅ An executive summary
✅ A diagram for HLI vs LI
✅ A simplified student-level explanation...
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