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New Measures of Aging May Show 70 is the New 60
Stony Brook-led study predicts an end to population aging in USA, Germany and China before end of the 21st Century

SandersonWarren
Warren Sanderson, PhD, Professor of Economics

STONY BROOK, N.Y., June 21, 2017 – Is 70 the new 60? A new Stony Brook University-led study  published in PLOS ONE uses new measures of aging with probabilistic projections from the United Nations to scientifically illustrate that one’s actual age is not necessarily the best measure of human aging itself, but rather aging should be based on the number of years people are likely to live in a given country in the 21st Century.

The study also predicts an end to population aging in the U.S. and other countries before the end of the century. Population aging – when the median age rises in a country because of increasing life expectancy and lower fertility rates – is a concern for countries because of the perception that population aging leads to declining numbers of working age people and additional social burdens.

“This study is different from previous research in that we used United Nations forecasts that take uncertainty into account and combine those forecasts with our new measures of aging,” said Warren Sanderson, PhD, a Professor of Economics at Stony Brook University and the lead author. “When this is done, it is a virtual certainty that population aging will come to an end in China, German, and the U.S. well before the end of the century.”

Professor Sanderson emphasized that the projections imply that as life expectancies increase people are generally healthier with better cognition at older ages and countries can adjust public policies appropriately as to population aging.

Population aging could peak by 2040 in Germany and by 2070 in China, according to the study, which combines measures of aging with probabilistic population projections from the UN. In the USA, the study shows very little population aging at all in the coming century.

Traditional population projections categorize “old age” as a simple cutoff at age 65. But as life expectancies have increased, so too have the years that people remain healthy, active, and productive. In the last decade, IIASA researchers have published a large body of research showing that the very boundary of “old age” should shift with changes in life expectancy, and have introduced new measures of aging that are based on population characteristics, giving a more comprehensive view of population aging.

The study combines these new measures with UN probabilistic population projections to produce a new set of age structure projections for four countries: China, Germany, Iran, and the USA.

“Both of these demographic techniques are relatively new, and together they give us a very different, and more nuanced picture of what the future of aging might look like,” added Professor Sanderson, also a researcher at International Institute for Applied Systems Analysis (IIASA). He wrote the article with Sergei Scherbov, leader of the Re-Aging Project at IIASA, and Patrick Gerland, Chief of the mortality section of the Population Division of the United Nations.  

One of the measures used in the paper looks at life expectancy as well as years lived to adjust the definition of old age. Probabilistic projections produce a range of thousands of potential scenarios, so that they can show a range of possibilities of aging outcomes.

For China, Germany, and the USA, the study showed that population aging would peak and begin declining well before the end of the century. Iran, which had an extremely rapid fall in fertility rate in the last 20 years, has an unstable age distribution and the results for the country were highly uncertain.

“We chose these four countries for analysis because they have very different population structures and projections, and so they allow us to test this methodology across a range of possible scenarios,” summarized Scherbov.

Funding for the research was supported in part by the European Research Council under the European Union’s Seventh Framework Programme. The Population Division of the United Nations provided the researchers with access to data from the World Population Prospects: The 2015 Revision.

 

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Stony Brook University is going beyond the expectations of what today’s public universities can accomplish. Since its founding in 1957, this young university has grown to become one of only four University Center campuses in the State University of New York (SUNY) system with more than 25,700 students, 2,500 faculty members, and 18 NCAA Division I athletic programs. Our faculty have earned numerous prestigious awards, including the Nobel Prize, Pulitzer Prize, Indianapolis Prize for animal conservation, Abel Prize and the inaugural Breakthrough Prize in Mathematics. The University offers students an elite education with an outstanding return on investment: U.S. News & World Report ranks Stony Brook among the top 40 public universities in the nation. Its membership in the Association of American Universities (AAU) places Stony Brook among the top 62 research institutions in North America. As part of the management team of Brookhaven National Laboratory, the University joins a prestigious group of universities that have a role in running federal R&D labs. Stony Brook University is a driving force in the region’s economy, generating nearly 60,000 jobs and an annual economic impact of $4.65 billion. Our state, country and world demand ambitious ideas, imaginative solutions and exceptional leadership to forge a better future for all. The students, alumni, researchers and faculty of Stony Brook University are prepared to meet this challenge.