These 3 Common Sleep Habits May Be Aging Your Brain Faster
By Niranjana Rajalakshmi, University of Arizona
Sleep habits may influence how the brain ages over time. A new University of Arizona study suggests that several common sleep patterns are associated with signs of brain aging.
The study, published in the journal Alzheimer’s
& Dementia, analyzed existing brain scans and questionnaire data from
more than 23,000 middle-aged and older adults in a large biomedical database.
The research is part of a wider collaboration involving the U of A Department
of Psychology, the Zuckerman College of Public Health and the University of
Southern California.
The researchers found that three sleep behaviors were
clearly linked to a marker of brain aging in otherwise healthy people: sleeping
outside the recommended range of seven to nine hours, frequent daytime napping,
and sleeplessness. Each was associated with a larger volume of white matter
lesions, which are areas of brain damage that can build up with age and are
connected to a greater risk of dementia, including Alzheimer’s disease.
Madeline Ally, the study’s lead author and a graduate
researcher at the Department of Psychology, said sleep is often examined as a
single overall measure instead of as a set of separate behaviors and patterns.
That approach can make it harder to see how specific aspects of sleep relate to
brain aging.
“Sleep is a universal but complex behavior, and there is still much to learn about how different aspects of sleep relate to brain health,” Ally said.
Sleep habits leave brain clues
Participants first answered a questionnaire from 2006 to
2010 about five sleep behaviors: how long they slept, whether they napped
during the day, whether they experienced sleeplessness, whether they
unintentionally dozed during the day and whether they snored. About nine years
later, those same participants received brain MRI scans, which the researchers
used to measure the volume of white matter lesions. The study was conducted in
collaboration with David Raichlen, the lead collaborator at the University of
Southern California, and a professor of human and evolutionary biology.
At first, all five sleep behaviors were linked to greater
lesion volume. After the researchers adjusted for blood vessel health and
lifestyle factors that can also shape brain health, including high blood
pressure, smoking, and physical inactivity, three behaviors remained
significant: sleeping outside the recommended range, frequent daytime napping,
and greater sleeplessness. Snoring and unintentional daytime dozing no longer
stood out.
Napping remains more complex
The daytime napping results were especially notable because
other research suggests that short naps can support alertness and cognition.
Gene Alexander, the study’s senior author and a professor in the Department of
Psychology, said the questionnaire did not include details about how long
individual naps lasted or when they occurred. Future studies will need to
examine whether brief, occasional naps affect the brain differently over time
than longer or more frequent naps.
In a follow-up analysis, the researchers examined sleep
duration more closely. They found that participants who slept fewer than seven
hours a night had higher lesion volume than those who slept within the
recommended range.
“Our findings suggest that having too little sleep may lead
to greater white matter lesion volumes in the brain as we age,” said Alexander.
“We didn’t see greater white matter impacts in people who reported longer sleep
durations, but this needs to be followed up in cohorts with more long
sleepers.”
Sleep may offer prevention targets
Still, Alexander said the three behaviors have one important
feature in common: they can potentially be changed.
“Sleep is one of those potentially modifiable risk factors.
If we can improve the quality of our sleep, it may help reduce the impacts of
brain aging and maybe even lower the risk for dementias like Alzheimer’s
disease,” Alexander said.
Reference: “Associations of sleep behaviors with white
matter hyperintensity volume in middle-aged to older adults” by Madeline Ally,
Daniel H. Aslan, M. Katherine Sayre, Pradyumna K. Bharadwaj, Silvio
Maltagliati, Matthew D. Grilli, Mark H. C. Lai, Rand R. Wilcox, Yann C.
Klimentidis, David A. Raichlen and Gene E. Alexander, 5 May 2026, Alzheimer’s
& Dementia.
DOI: 10.1002/alz.71457
Supported by the National Institutes of
Health (NIH; P30AG072980, P30AG019610, R56AG067200, R01AG064587, and
R01AG072445), the state of Arizona and the Arizona Department of Health
Services, and the McKnight Brain Research Foundation.
