A study of older adults at risk of
late-onset Alzheimer's disease found that those who consumed more omega-3 fatty
acids did better than their peers on tests of cognitive flexibility -- the
ability to efficiently switch between tasks -- and had a bigger anterior
cingulate cortex, a brain region known to contribute to cognitive flexibility.
The analysis suggests, but does not
prove, that consuming DHA and EPA, two omega-3 fatty acids found in fish,
enhanced cognitive flexibility in these adults in part by beefing up the
anterior cingulate cortex, the researchers
report in the journal Frontiers in Aging Neuroscience.
"Recent research suggests that
there is a critical link between nutritional deficiencies and the incidence of
both cognitive impairment and degenerative neurological disorders, such as
Alzheimer's disease," said University of Illinois neuroscience,
psychology, and speech and hearing science professor Aron Barbey,
who led the study with M.D./Ph.D. student Marta Zamroziewicz. "Our
findings add to the evidence that optimal nutrition helps preserve cognitive
function, slow the progression of aging and reduce the incidence of
debilitating diseases in healthy aging populations."
The researchers focused on aspects of
brain function that are sometimes overlooked in research on aging, Zamroziewicz
said. "A lot of work in cognitive aging focuses on memory, but in fact
cognitive flexibility and other executive functions have been shown to better
predict daily functioning than memory does," she said.
"Executive function"
describes processes like planning, reasoning, paying attention, problem
solving, impulse control and task switching.
"These functions tend to decline
earlier than other cognitive functions in aging," Zamroziewicz said.
The new research built on previous
studies that found associations between omega-3 fatty acid consumption,
cognitive flexibility and the size of the anterior cingulate cortex.
"There's been some work to show
that omega-3 fatty acids benefit cognitive flexibility, and there's also been
work showing that cognitive flexibility is linked to this specific brain
region, the anterior cingulate. But there's been very little work actually
connecting these pieces," Zamroziewicz said.
The new study focused on 40
cognitively healthy older adults between the ages of 65 and 75 who are carriers
of a gene variant (APOE e4) that is known to contribute to the risk of
developing late-onset Alzheimer's disease.
The researchers tested participants'
cognitive flexibility, measured levels of the fatty acids EPA (eicosapentaenoic
acid) and DHA (docosahexaenoic acid) in their blood, and imaged their brains
using MRI. Statistical analyses teased out the relationships between these
factors.
"We wanted to confirm that higher omega-3 fatty acids
related to better cognitive flexibility, and we did in fact see that,"
Zamroziewicz said. "We also wanted to confirm that higher omega-3 fatty
acids related to higher volume in the anterior cingulate cortex, and we saw
that. Finally, we were able to show that higher volume in the anterior
cingulate cortex was an intermediary in the relationship between omega-3 fatty
acids and cognitive flexibility."
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