(Credit: © Tracy King | Dreamstime.com)
It’s not just the number on the scale today that matters. It’s the number that has been creeping up, holding steady, or fluctuating over the past decade. A new study spanning nearly a quarter century found that carrying a high body mass index over many years is associated with faster decline in thinking skills, memory, and the ability to plan and reason. Crucially, the link appeared strongest about eight years after weight patterns were measured, suggesting that long-term BMI trajectories may be worth tracking when assessing future brain-health risk.
Researchers tracked more than 8,200 adults starting in 1996 and followed them through 2020. Rather than measuring weight at a single doctor’s visit, they calculated what they called a “cumulative average BMI,” a running tally of each person’sbody mass indexaveraged across the entire follow-up period. Consider it like the difference between checking your bank balance once and reviewing your average balance over many years. That approach, the authors argue, paints a far more accurate picture of how long-term weight patterns relate to mental sharpness in older age.
With roughly 6.7 million Americans aged 65 and older currently living with dementia, a number projected to nearly double by 2040, anything that could help slow cognitive decline carries enormous public health weight. Published in theJournal of Neurology, this study adds a new dimension to that conversation: it’s not just about where weight stands right now, but about what years of accumulated exposure may mean for the brain down the road.
Researchers drew their data from the Health and Retirement Study, a large, nationally representative survey conducted every two years by the University of Michigan. Participants were 50 years or older at the start, with an average age of 59. About 58 percent were women, and nearly 79 percent identified as non-Hispanic White. All participants were considered cognitively healthy at baseline, meaning none had been diagnosed withdementiaor related conditions when the study began.
Brain function was measured through two areas: memory, assessed via word-recall exercises, and higher-order thinking, tested through tasks like counting backward and subtraction sequences. Scores were combined into a single overall cognition measure and tracked across multiple rounds of data collection over an average follow-up of about 17.5 years.
After accounting for age, gender, race, education, employment, insurance status, smoking habits,depression, and number of chronic diseases, higher cumulative average BMI was consistently tied to faster decline across all three measures: overall cognition, memory, and higher-order thinking. The associations were statistically significant, though the authors note they were modest in magnitude on a yearly scale, as expected given that cognitive change is gradual and shaped by many factors.
To find when the association peaked, researchers tested lag intervals from 2 to 16 years, asking how long aftercumulative BMIwas measured the link with cognitive decline was strongest. At every interval, higher long-term BMI was consistently linked to steeper mental decline. But year eight stood out as the point where the association was strongest across all three cognitive measures.
Formemoryspecifically, the association was present between years four and ten. For higher-order thinking, the mental toolkit people use for planning, decision-making, and reasoning, it spanned years four through twelve and also appeared at year sixteen.
A sharp pattern emerged when results were broken down by age. Among adults 65 and older, the link between cumulative BMI andcognitive declinewas far stronger than among those between 50 and 64. In the older group, the rate of cognitive decline associated with higher long-term BMI exposure was roughly four and a half times greater than in the younger group. Patterns were relatively consistent across men and women and across different levels of educational attainment.
Source: Drudge Report
