Book contents
- The Biodemography of Ageing and Longevity
- The Biodemography of Ageing and Longevity
- Copyright page
- Dedication
- Contents
- Contributors
- Foreword
- Acknowledgements
- 1 The Eternal Youth of Ageing Research
- 2 Theories of Ageing across Ages
- 3 The Diversity of Longevity Metrics
- 4 The Meaning of ‘Exceptional Longevity’
- 5 The Inevitability of Senescence
- 6 The Untapped Potential of Zoo and Aquarium Data for the Comparative Biology of Ageing
- 7 Perspectives in Comparative Biology of Ageing
- 8 An Integrative Approach to Understanding Variation in the Form, Pattern and Pace of Ageing
- 9 Sex Differences in Lifespan, Ageing and Health in the Living World
- 10 Evolution of Human Reproduction, Ageing and Longevity
- 11 Lifespan and Mortality in Hunter-Gatherer and Other Subsistence Populations
- 12 Longevity in Modern Populations
- 13 Health Transition and Population Ageing
- 14 Limit of Human Longevity
- 15 Mortality Modelling at the Oldest Ages in Human Populations
- 16 Lessons from Exceptionally Long-Lived Individuals and Long-Living Families
- 17 Human Populations with Extreme Longevities
- 18 Socio-Economic Consequences of Increased Longevity in Contemporary Populations
- Index
- References
12 - Longevity in Modern Populations
Published online by Cambridge University Press: 14 November 2024
Book contents
- The Biodemography of Ageing and Longevity
- The Biodemography of Ageing and Longevity
- Copyright page
- Dedication
- Contents
- Contributors
- Foreword
- Acknowledgements
- 1 The Eternal Youth of Ageing Research
- 2 Theories of Ageing across Ages
- 3 The Diversity of Longevity Metrics
- 4 The Meaning of ‘Exceptional Longevity’
- 5 The Inevitability of Senescence
- 6 The Untapped Potential of Zoo and Aquarium Data for the Comparative Biology of Ageing
- 7 Perspectives in Comparative Biology of Ageing
- 8 An Integrative Approach to Understanding Variation in the Form, Pattern and Pace of Ageing
- 9 Sex Differences in Lifespan, Ageing and Health in the Living World
- 10 Evolution of Human Reproduction, Ageing and Longevity
- 11 Lifespan and Mortality in Hunter-Gatherer and Other Subsistence Populations
- 12 Longevity in Modern Populations
- 13 Health Transition and Population Ageing
- 14 Limit of Human Longevity
- 15 Mortality Modelling at the Oldest Ages in Human Populations
- 16 Lessons from Exceptionally Long-Lived Individuals and Long-Living Families
- 17 Human Populations with Extreme Longevities
- 18 Socio-Economic Consequences of Increased Longevity in Contemporary Populations
- Index
- References
Summary
Humans live longer today than ever before. The remarkable rise in longevity occurred in a brief period of human history, roughly since the eighteenth century, and was driven by persistent efforts against epidemics, famines, health insecurity and chronic diseases. This chapter covers essential concepts regarding this extraordinary achievement for the human race, such as the demographic transition model, distinguishable from the earlier Neolithic demographic transition, which both led in their unique way to substantial alterations in the cause and age distribution of deaths. To account for the shift in disease patterns over time, the concept of epidemiological transition was originally proposed by Abdel Omran in the early 1970s and later evolved into broader conceptual frameworks, including the health transition. The chapter concludes by briefly addressing whether increased human longevity is matched by improved health and its future sustainability.
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- Information
- The Biodemography of Ageing and Longevity , pp. 239 - 252Publisher: Cambridge University PressPrint publication year: 2024
References
United Nations. 2022. World Population Prospects 2022: Summary of Results. United Nations, Department of Economic and Social Affairs, Population Division.Google Scholar
Human Mortality Database. 2023. University of California, Berkeley (USA) and Max Planck Institute for Demographic Research (Germany). www.mortality.org.Google Scholar
Acsádi, G., Nemeskéri, J. 1970. History of Human Life Span and Mortality. Akadémiai Kiadó.Google Scholar
Bandy, M.S., Fox, J.R. 2010. Becoming villagers: the evolution of early village societies. In Becoming Villagers: Comparing Early Village Societies (eds Bandy, M.S., Fox, J.R.), pp. 1–16. University of Arizona Press.Google Scholar
Bocquet‐Appel, J.-P. 2002. Paleoanthropological traces of a Neolithic demographic transition. Curr. Anthropol. 43, 637–650.CrossRefGoogle Scholar
Livi-Bacci, M. 2007. A Concise History of World Population (4th ed.). Wiley Blackwell.Google Scholar
Cohen, M.N. 1984. An introduction to the symposium. In Paleopathology at the Origins of Agriculture (eds Cohen, M.N., Armelagos, G.J.), pp. 1–11. University Press of Florida.Google Scholar
Bocquet-Appel, J.-P. 2008. Explaining the Neolithic demographic transition. In The Neolithic Demographic Transition and its Consequences (eds Bocquet-Appel, J.-P., Bar-Yosef, O.), pp. 35–55. Springer Netherlands.CrossRefGoogle Scholar
Bocquet-Appel, J.-P., Dubouloz, J. 2003. Traces paléoanthropologiques et archéologiques d’une transition démographique néolithique en Europe. Bull. Société Préhistorique Fr. 100, 699–714.CrossRefGoogle Scholar
Cockburn, T.A. 1971. Infectious diseases in ancient populations. Curr. Anthropol. 12, 45–62.CrossRefGoogle ScholarPubMed
Landry, A. 1934. La Révolution Démographique: Études et Essais sur les Problèmes de la Population. Librairie du Recueil Sirey.Google Scholar
Notestein, F. 1945. Population: the long view. In Food for the World (ed. Schultz, T.W.), pp. 36–57. University of Chicago Press.Google Scholar
Davis, K. 1945. The world demographic transition. Ann. Am. Acad. Polit. Soc. Sci. 237, 1–11.CrossRefGoogle Scholar
Carr-Saunders, A.M. 1936. World Population: Past Growth and Present Trends. Clarendon Press.Google Scholar
Chesnais, J.-C. 1986. La Transition Démographique: Étapes, Formes, Implications Économiques. Étude de séries temporelles (1720–1984) relatives à 67 pays. Présentation d’un Cahier de l’INED. Population 41, 1059–1070.CrossRefGoogle Scholar
Kuate Defo, B. 2014. Demographic, epidemiological, and health transitions: are they relevant to population health patterns in Africa? Glob. Health Action 7, 22443.CrossRefGoogle ScholarPubMed
Oeppen, J., Vaupel, J.W. 2002. Broken limits to life expectancy. Science 296, 1029–1031.CrossRefGoogle ScholarPubMed
Vallin, J., Meslé, F. 2009. The segmented trend line of highest life expectancies. Popul. Dev. Rev. 35, 159–187.CrossRefGoogle Scholar
Omran, A.R. 1971. The epidemiologic transition: a theory of the epidemiology of population change. Milbank Mem. Fund Q. 49, 509–538.CrossRefGoogle ScholarPubMed
Crimmins, E.M. 1981. The changing pattern of American mortality decline, 1940–77, and its implications for the future. Popul. Dev. Rev. 7, 229–254.CrossRefGoogle Scholar
Ouellette, N., Barbieri, M., Wilmoth, J.R. 2014. Period-based mortality change: turning points in trends since 1950. Popul. Dev. Rev. 40, 77–106.CrossRefGoogle ScholarPubMed
Horiuchi, S. 1999. Epidemiological transitions in human history. In Health and Mortality Issues of Global Concern: Proceedings of the Symposium on Health and Mortality, Brussels, 19–22 November 1997 (eds Chamie, J., Cliquet, R.L.), pp. 54–71. United Nations and CBGS.Google Scholar
Wilmoth, J.R. 2007. Human longevity in historical perspective. In Physiological Basis of Aging and Geriatrics (ed. Timiras, P.S.), pp. 11–22. CRC Press.Google Scholar
Omran, A.R. 1982. Epidemiologic transition. In International Encyclopedia of Population (ed. Ross, J.A.), pp. 172–183. Free Press.Google Scholar
Omran, A.R. 1983. The epidemiologic transition theory: a preliminary update. J. Trop. Pediatr. 29, 305–316.CrossRefGoogle ScholarPubMed
Olshansky, J.S., Ault, B.A. 1986. The fourth stage of the epidemiologic transition: the age of delayed degenerative diseases. Milbank Q. 64, 355–391.CrossRefGoogle ScholarPubMed
Frenk, J., Bobadilla, J.L., Stern, C., Frejka, T., Lozano, R. 1991. Elements for a theory of the health transition. Health Transit. Rev. 1, 21–38.Google ScholarPubMed
McKeown, T., Record, R.G. 1962. Reasons for the decline of mortality in England and Wales during the nineteenth century. Popul. Stud. 16, 94–122.CrossRefGoogle Scholar
McKeown, T. 1979. The Role of Medicine: Dream, Mirage, or Nemesis. Princeton University Press.Google Scholar
Preston, S. 1990. Sources of variation in vital rates: an overview. In Convergent Issues in Genetics and Demography (eds Adarns, J., Lam, D.A., Herrnalin, A.I., Smouse, P.E.), pp. 335–350. Oxford University Press.Google Scholar
Preston, S.H., van de Walle, E. 1978. Urban French mortality in the nineteenth century. Popul. Stud. 32, 275–297.CrossRefGoogle ScholarPubMed
Gersten, O., Barbieri, M. 2021. Evaluation of the cancer transition theory in the US, select European nations, and Japan by investigating mortality of infectious- and noninfectious-related cancers, 1950–2018. JAMA Netw. Open 4, e215322.CrossRefGoogle ScholarPubMed
Wilmoth, J.R., Horiuchi, S. 1999. Rectangularization revised: variability of age at death within human populations. Demography 36, 475–495.CrossRefGoogle Scholar
Fries, J.F. 1980. Aging, natural death, and the compression of morbidity. N. Engl. J. Med. 303, 130–135.CrossRefGoogle ScholarPubMed
Kannisto, V., Lauritsen, J., Thatcher, R.A., Vaupel, J.W. 1994. Reductions in mortality at advanced ages: several decades of evidence from 27 countries. Popul. Dev. Rev. 20, 793–810.CrossRefGoogle Scholar
Thatcher, A.R., Cheung, S.L.K., Horiuchi, S., Robine, J.-M. 2010. The compression of deaths above the mode. Demogr. Res. 22, 505–538.CrossRefGoogle ScholarPubMed
van Raalte, A.A., Sasson, I., Martikainen, P. 2018. The case for monitoring life-span inequality. Science 362, 1002–1004.CrossRefGoogle ScholarPubMed
Horiuchi, S., Ouellette, N., Cheung, S.L.K., Robine, J.-M. 2013. Modal age at death: lifespan indicator in the era of longevity extension. Vienna Yearb. Popul. Res. 11, 37–69.CrossRefGoogle Scholar
Ouellette, N., Côté-Gendreau, M., Violo, P. 2022. Modeling contextual determinants of rising adult modal age at death in high-income countries. Paper presented at the Annual Meeting of the Population Association of America, Atlanta, GA, 6–9 April.Google Scholar
Gruenberg, E.M. 1977. The failures of success. Milbank Mem. Fund Q. Health Soc. 55, 3–24.CrossRefGoogle ScholarPubMed
Kramer, M. 1980. The rising pandemic of mental disorders and associated chronic diseases and disabilities. Acta Psychiatr. Scand. 62, 382–397.CrossRefGoogle Scholar
Manton, K.G. 1982. Changing concepts of morbidity and mortality in the elderly population. Milbank Mem. Fund Q. Health Soc. 60, 183–244.CrossRefGoogle ScholarPubMed
Robine, J.-M., Jagger, C., Crimmins, E.M., Saito, Y., Van Oyen, H. 2020. Trends in health expectancies. In International Handbook of Health Expectancies (eds Jagger, C., Crimmins, E.M., Saito, Y., Yokota, R.T.D.C., Van Oyen, H., Robine, J.-M.), pp. 19–34. Springer.CrossRefGoogle Scholar
Cambois, E., Duthé, G., Meslé, F. 2023. Global trends in life expectancy and healthy life expectancy. In Oxford Research Encyclopedia of Global Public Health (ed. McQueen, D.V.), pp. 1–34. Oxford University Press.Google Scholar
Jagger, C., Crimmins, E.M., Saito, Y., Yokota, R.T.D.C., Van Oyen, H., Robine, J.-M. 2020. International Handbook of Health Expectancies. Springer.CrossRefGoogle Scholar
Case, A., Paxson, C. 2005. Sex differences in morbidity and mortality. Demography 42, 189–214.CrossRefGoogle ScholarPubMed
Di Lego, V., Di Giulio, P., Luy, M. 2020. Gender differences in healthy and unhealthy life expectancy. In International Handbook of Health Expectancies (eds Jagger, C., Crimmins, E.M., Saito, Y., Yokota, R.T.D.C., Van Oyen, H., Robine, J.-M.), pp. 151–172. Springer.CrossRefGoogle Scholar
Wilmoth, J.R. 2000. Demography of longevity: past, present, and future trends. Exp. Gerontol. 35, 1111–1129.CrossRefGoogle ScholarPubMed
Kannisto, V. 1988. On the survival of centenarians and the span of life. Popul. Stud. 42, 389–406.CrossRefGoogle Scholar
Vaupel, J., Lundström, H. 1994. Longer life expectancy? Evidence from Sweden of reductions in mortality rates at advanced ages. In Studies in the Economics of Aging (ed. Wise, D.A.), pp. 79–102. University of Chicago Press.Google Scholar
Rau, R., Soroko, E., Jasilionis, D., Vaupel, J.W. 2008. Continued reductions in mortality at advanced ages. Popul. Dev. Rev. 34, 747–768.CrossRefGoogle Scholar
Zuo, W., Jiang, S., Guo, Z., Feldman, M.W., Tuljapurkar, S. 2008. Advancing front of old-age human survival. Proc. Natl. Acad. Sci. 115, 11209–11214.CrossRefGoogle Scholar
Meslé, F. 2004. Mortality in Central and Eastern Europe: long-term trends and recent upturns. Demogr. Res. 2, 45–70.CrossRefGoogle Scholar
Humphreys, K. et al. 2022. Responding to the opioid crisis in North America and beyond: recommendations of the Stanford–Lancet Commission. The Lancet 399, 555–604.CrossRefGoogle Scholar
Vallin, J., Meslé, F. 2004. Convergences and divergences in mortality: a new approach of health transition. Demogr. Res. 2, 12–44.Google Scholar
Biraben, J.-N. 1979. Essai sur l’évolution du nombre des hommes. Population 34, 13–25.Google Scholar
Kaneda, T., Haub, C. 2022. How many people have ever lived on earth? Population Reference Bureau. www.prb.org/articles/how-many-people-have-ever-lived-on-earth.Google Scholar