A new analysis of period life expectancy around the world shows that the COVID-19 pandemic could cause a short-term decline in life expectancy in many regions of the world.
Unless the spread of the disease is contained, COVID-19 will likely lead to reduced life expectancy in severely affected areas, according to a new study published in the journal PLOS ONE. The study examined the impact of COVID-19-related deaths on life expectancy for four broad world regions across multiple rates of infection and age groups.
“Our study provides the first assessment of the potential impact of COVID-19 on period life expectancies according to a range of scenarios of prevalence rates over a one-year period,” says IIASA researcher Guillaume Marois, who led the study.
Period life expectancy is a measure of the number of years that an average person may expect to live. Improved healthcare, socioeconomic conditions, and education are among the key factors influencing our health and how long we live. Life expectancy has been used as a measure of human development across countries and regions. Indeed, over the past century, life expectancy has increased significantly in many regions of the world.
In the new study, IIASA researchers built a microsimulation model that simulates the probability of getting infected by COVID-19, the probability of dying from it, and the probability of dying from another cause for a period of one year, taking into account the different fatality rates from the disease for different age groups. They then calculated the impact of COVID-19 on life expectancy by reconstructing life tables and life expectancies from the simulation and comparing them with those used for the inputs.
They found that at very low prevalence rates, the COVID-19 pandemic would not affect life expectancy, but at prevalence rates of only 2%, it could cause a drop in life expectancy in countries where average life expectancy is high - roughly around 80 years. At higher prevalence rates, the impact on life expectancy would be greater, especially in Europe and North America.
“At 10% prevalence, the loss in life expectancy is likely to be above one year in high life-expectancy countries such as those in Europe and North America. At 50%, it would translate into three to nine years of life lost in high life-expectancy regions. In less developed regions, the impact is smaller given that there is already lower survival at older ages,” says Marois. “However, even in the most affected regions, the life expectancy will likely recover once the pandemic is over,” he adds.
IIASA researcher Sergei Scherbov, who also worked on the study, says, “It took Europe almost 20 years for average life expectancy at birth to increase by six years — from 72.8 years in 1990 to 78.6 years in 2019. COVID-19 could thus set back this indicator in 2020 to the values observed some time ago. However, we do not know what is going to happen further. In many countries fatality from COVID is strongly decreasing, probably because the protocol of COVID treatment became better defined.”
This type of analysis is useful to decision makers as it shows in broad strokes the potential cost of human lives lost due to the disease.
IIASA World Population Program Deputy Director Raya Muttarak, a study coauthor, adds, “These ‘what-if’ scenarios can give policy-relevant information on what could potentially happen to life expectancy under different levels of prevalence, which vary with public health strategies to reduce and prevent the spread of COVID-19. We show that if the virus spread widely in the population, for instance, in the absence of any lockdowns and social distance measures, this could result in a notable drop in period life expectancy.”
The new study provides an important first estimate of the impact of COVID-19 on life expectancy, but new developments in healthcare or broader impacts of the pandemic on healthcare access or economic systems could also affect mortality rates and life expectancies. The researchers point out that the potential overload of health care systems at higher rates of prevalence would inevitably lead to higher mortality. On the other hand, as healthcare providers gain more experience and knowledge in treating the disease, mortality rates may decrease.
Reference
Marois G, Muttarak R, & Scherbov S (2020). Assessing the potential impact of COVID-19 on life expectancy. PLOS ONE DOI: 10.1371/journal.pone.0238678
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https://iiasa.ac.at/web/home/research/researchPrograms/WorldPopulation/Introduct...
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Researcher contact
Guillaume Marois
Research Scholar
World Population Program
Tel: +43(0) 2236 807 486
marois@iiasa.ac.at
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Ansa Heyl
IIASA Press Office
Tel: +43 2236 807 574
Mob: +43 676 83 807 574
heyl@iiasa.ac.at
About IIASA:
The International Institute for Applied Systems Analysis (IIASA) is an international scientific institute that conducts research into the critical issues of global environmental, economic, technological, and social change that we face in the twenty-first century. Our findings provide valuable options to policymakers to shape the future of our changing world. IIASA is independent and funded by prestigious research funding agencies in Africa, the Americas, Asia, and Europe. www.iiasa.ac.at
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