DIETARY COCOA FLAVANOLS REVERSE AGE RELATED MEMORY DECLINE IN MICE
Dietary cocoa
flavanols -- naturally occurring bioactives found in cocoa -- reversed
age-related memory decline in healthy older adults, according to a study led by
Columbia University Medical Center (CUMC) scientists. The study, published
today in the advance online issue ofNature Neuroscience, provides the first direct evidence that one
component of age-related memory decline in humans is caused by changes in a
specific region of the brain and that this form of memory decline can be
improved by a dietary intervention
As people age, they
typically show some decline in cognitive abilities, including learning and
remembering such things as the names of new acquaintances or where one parked
the car or placed one's keys. This normal age-related memory decline starts in
early adulthood but usually does not have any noticeable impact on quality of
life until people reach their fifties or sixties. Age-related memory decline is
different from the often-devastating memory impairment that occurs with
Alzheimer's, in which a disease process damages and destroys neurons in various
parts of the brain, including the memory circuits.
Previous work,
including by the laboratory of senior author Scott A. Small, MD, had shown that
changes in a specific part of the brain -- the dentate gyrus -- are associated
with age-related memory decline. Until now, however, the evidence in humans
showed only a correlational link, not a causal one. To see if the dentate gyrus
is the source of age-related memory decline in humans, Dr. Small and his
colleagues tested whether compounds called cocoa flavanols can improve the
function of this brain region and improve memory. Flavanols extracted from
cocoa beans had previously been found to improve neuronal connections in the
dentate gyrus of mice.
Dr. Small is the Boris
and Rose Katz Professor of Neurology (in the Taub Institute for Research on
Alzheimer's Disease and the Aging Brain, the Sergievsky Center, and the
Departments of Radiology and Psychiatry) and director of the Alzheimer's
Disease Research Center in the Taub Institute at CUMC.
A cocoa
flavanol-containing test drink prepared specifically for research purposes was
produced by the food company Mars, Incorporated, which also partly supported
the research, using a proprietary process to extract flavanols from cocoa
beans. Most methods of processing cocoa remove many of the flavanols found in
the raw plant.
In the CUMC study, 37
healthy volunteers, ages 50 to 69, were randomized to receive either a
high-flavanol diet (900 mg of flavanols a day) or a low-flavanol diet (10 mg of
flavanols a day) for three months. Brain imaging and memory tests were
administered to each participant before and after the study. The brain imaging
measured blood volume in the dentate gyrus, a measure of metabolism, and the
memory test involved a 20-minute pattern-recognition exercise designed to
evaluate a type of memory controlled by the dentate gyrus.
"When we imaged
our research subjects' brains, we found noticeable improvements in the function
of the dentate gyrus in those who consumed the high-cocoa-flavanol drink,"
said lead author Adam M. Brickman, PhD, associate professor of neuropsychology
at the Taub Institute.
The high-flavanol
group also performed significantly better on the memory test. "If a
participant had the memory of a typical 60-year-old at the beginning of the
study, after three months that person on average had the memory of a typical
30- or 40-year-old," said Dr. Small. He cautioned, however, that the
findings need to be replicated in a larger study -- which he and his team plan
to do.
Flavanols are also
found naturally in tea leaves and in certain fruits and vegetables, but the
overall amounts, as well as the specific forms and mixtures, vary widely.
The precise
formulation used in the CUMC study has also been shown to improve
cardiovascular health. Brigham and Women's Hospital in Boston recently
announced an NIH-funded study of 18,000 men and women to see whether flavanols
can help prevent heart attacks and strokes.
The researchers point
out that the product used in the study is not the same as chocolate, and they
caution against an increase in chocolate consumption in an attempt to gain this
effect.
Two innovations by the
investigators made the study possible. One was a new information-processing
tool that allows the imaging data to be presented in a single,
three-dimensional snapshot, rather than in numerous individual slices. The tool
was developed in Dr. Small's lab by Usman A. Khan, an MD-PhD student in the
lab, and Frank A. Provenzano, a biomedical engineering graduate student at
Columbia. The other innovation was a modification to a classic neuropsychological
test, allowing the researchers to evaluate memory function specifically
localized to the dentate gyrus. The revised test was developed by Drs. Brickman
and Small.
Besides flavanols,
exercise has been shown in previous studies, including those of Dr. Small, to
improve memory and dentate gyrus function in younger people. In the current
study, the researchers were unable to assess whether exercise had an effect on
memory or on dentate gyrus activity. "Since we didn't reach the intended
VO2max (maximal oxygen uptake) target," said Dr. Small, "we couldn't
evaluate whether exercise was beneficial in this context. This is not to
saythat exercise is not beneficial for cognition. It may be that older people
need more intense exercise to reach VO2max levels that have therapeutic
effects."
The article is titled,
"Enhancing dentate gyrus function with dietary flavanols improves
cognition in older adults," The other contributors are: Lok-Kin Yeung
(CUMC), Wendy Suzuki (New York University, New York, NYU), Hagen Schroeter
(Mars, Incorporated, McLean VA), Melanie Wall (CUMC and New York State
Psychiatric Institute, New York NY), and Richard Sloan (CUMC and New York State
Psychiatric Institute). The study was supported by grants from the National
Institutes of Health (AG034618 and AG035015), the James S. McDonnell
Foundation, the McKnight Brain Research Foundation, and Mars, Incorporated.
Hagen Schroeter is
employed by Mars, Incorporated, a company with long-term research and
commercial interests in cocoa flavanols and procyanidins. The other authors
declare no financial or other conflicts of interest.
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