Scientists estimate that a one-year increase in alcohol consumption during the COVID-19 pandemic will result in 8,000 additional deaths from alcohol-related liver disease, 18,700 cases of liver failure, and 1,000 cases of liver cancer by 2040.

In the short term, alcohol consumption changes due to COVID-19 are expected to cause 100 additional deaths and 2,800 additional cases of liver failure by 2023.

The new research, published in Hepatology, was led by investigators at Harvard-affiliated Massachusetts General Hospital.

Using data from a national survey of U.S. adults on their drinking habits that found that excessive drinking (such as binge drinking) increased by 21 percent during the COVID-19 pandemic, investigators simulated the drinking trajectories and liver disease trends in all U.S. adults. The researchers noted that a sustained increase in alcohol consumption for more than one year could result in 19 to 35 percent additional mortality.

“Our findings highlight the need for individuals and policymakers to make informed decisions to mitigate the impact of high-risk alcohol drinking during the COVID-19 pandemic in the U.S.,” says senior author Jagpreet Chhatwal, associate director of MGH’s Institute for Technology Assessment and an assistant professor of radiology at Harvard Medical School.

“While we have projected the expected impact of societal drinking changes associated with the COVID-19 pandemic without any interventions, we hope that our research can help jumpstart needed conversations at every level of society about how we can respond to the many behavioral changes, coping mechanisms, and choices that have short- and long-term implications for the health of individuals, families and communities in America,” adds lead author Jovan Julien, a data analyst at the MGH Institute for Technology Assessment.

“The COVID-19 pandemic has had many unintended consequences with unknown long-term impact. Our modeling study provides a framework for quantifying the long-term impact of increased alcohol consumption associated with COVID-19 and initiating conversations for potential interventions,” notes co-author Turgay Ayer, the George Family Foundation Early Career Professor of Systems Engineering at Georgia Institute of Technology.

Co-authors include Elliot B. Tapper, Carolina Barbosa, and William Dowd.

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