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Researchers link Blood Sugar to normal
Cognitive Aging
Newswise — Maintaining blood sugar levels,
even in the absence of disease, may be an
important strategy for preserving cognitive
health, suggests a study published by
researchers at Columbia University Medical
Center (CUMC).
The study appeared in the December issue of
Annals of Neurology.
Senior moments, also dubbed by New York
Times Op-Ed columnist David Brooks as being
"hippocampically challenged,” are a normal
part of aging.
Such lapses in memory, according to this new
research, could be blamed, at least in part,
on rising blood glucose levels as we age.
The findings suggest that exercising to
improve blood sugar levels could be a way
for some people to stave off the normal
cognitive decline that comes with age.
"This is news even for people without
diabetes since blood glucose levels tend to
rise as we grow older.
"Whether
through physical exercise, diet or drugs,
our research suggests that improving glucose
metabolism could help some of us avert the
cognitive slide that occurs in many of us as
we age," reported lead investigator Scott A.
Small, M.D., associate professor of
neurology in the Sergievsky Center and in
the Taub Institute for Research on
Alzheimer’s Disease and the Aging Brain at
Columbia University Medical Center.
Although it is widely known that the early
stages of Alzheimer’s disease cause damage
to the hippocampus, the area of the brain
essential for memory and learning, studies
have suggested that it is also vulnerable to
normal aging.
Until now, the underlying causes of
age-related hippocampal dysfunction have
remained largely unknown.
Previously, using high-resolution brain
imaging, Dr. Small and his colleagues
discovered that decreasing brain function in
one area of the hippocampus, called the
dentate gyrus, is a main contributor of
normal decline in memory as we age.
In this new study, funded by the National
Institute on Aging (NIA), the American
Diabetes Association and the McKnight Brain
Research Foundation, the researchers mapped
out the specific areas of the hippocampus
impacted by late-life diseases like diabetes
and stroke.
“This research used imaging in both human
volunteers and in animal models to help us
better understand the basic mechanisms
behind hippocampal dysfunction in the aged,”
said Dr. Marcelle Morrison-Bogorad, NIA
Division of Neuroscience director.
“While more research is needed into the
complex interaction of late-life disease and
how it may affect the hippocampus, this new
study is part of an ongoing effort to
identify specific areas where interventions
might preserve cognitive health.”
This new study looked at measures that
typically change during aging, like rising
blood sugar, body mass index, cholesterol
and insulin levels.
The
research found that decreasing activity in
the dentate gyrus only correlated with
levels of blood glucose.
“Showing for the first time that blood
glucose selectively targets the dentate
gyrus is not only our most conclusive
finding, but it is the most important for
'normal' aging- that is hippocampal
dysfunction that occurs in the absence of
any disease states.
"There
have been many proposed reasons for
age-related hippocampal decline; this new
study suggests that we may now know one of
them," said Dr. Small.
Additional animal studies helped confirm the
relationship between glucose and dentate
gyrus activity; the researchers found the
same association in aging rhesus monkeys and
in mice.
“Beyond the obvious conclusion that
preventing late-life disease would benefit
the aging hippocampus, our findings suggest
that maintaining blood sugar levels, even in
the absence of diabetes, could help maintain
aspects of cognitive health.
More specifically, our findings predict that
any intervention that causes a decrease in
blood glucose should increase dentate gyrus
function and would therefore be cognitively
beneficial,” said Dr. Small.
The new findings also suggest that one way
in which physical exercise could improve
memory is via lowering glucose levels. Dr.
Small’s previous imaging studies in humans
and in mice have documented that among all
hippocampal subregions, physical exercise
causes an improvement in dentate gyrus
function.
“By improving glucose metabolism, physical
exercise also reduces blood glucose. It is
therefore possible that the cognitive
enhancing effects of physical exercise are
mediated, at least in part, by the
beneficial effect of lower glucose on the
dentate gyrus.
Whether with physical exercise, diet or
through the development of potential
pharmacological interventions, our research
suggests that improving glucose metabolism
could be a clinically viable approach for
improving the cognitive slide that occurs in
many of us as we age,” concluded Dr. Small.
With increasing longevity and the aging of
the baby boom population, cognitive decline
has emerged as a major health care crisis
and concern.
This study was built upon an extensive,
ongoing epidemiological imaging study --
under the direction of Richard Mayeux, M.D.,
M.S.-- that evaluated 240 healthy elders in
Manhattan.
Dr. Mayeux is professor of neurology,
psychiatry, and epidemiology and co-director
of the Taub Institute for Research on
Alzheimer’s Disease and the Aging Brain at
CUMC.
Dr. Small led a team of investigators who
published the first article using fMRI to
investigate Alzheimer’s disease and memory
decline in the aging population.
More recently, Dr. Small has pioneered a
novel high-resolution application of fMRI,
which can be used to investigate physiologic
dysfunction in both mouse models of disease
and in human patients.
By being able to investigate patients and
animal models in parallel studies, this new
application will help researchers learn more
about diseases of the brain.
Other authors of the Annals of Neurology
study are: William Wu, Adam M. Brickman,
Jose Luchsinger, Peter Ferrazano, Paola
Pichiule, Mistuhiro Yoshita, Truman Brown,
Charles DeCarli, Carol Barnes, Richard
Mayeux and Susan J. Vannucci.
The Taub Institute for Research on
Alzheimer’s Disease and the Aging Brain at
Columbia University Medical Center is a
multidisciplinary group that has forged
links between researchers and clinicians to
uncover the causes of Alzheimer’s,
Parkinson’s and other age-related brain
diseases and discover ways to prevent and
cure these diseases.
It has partnered with the Gertrude H.
Sergievsky Center at Columbia University
Medical Center which was established by an
endowment in 1977 to focus on diseases of
the nervous system.
The Center integrates traditional
epidemiology with genetic analysis and
clinical investigation to explore all phases
of diseases of the nervous system.
Columbia University Medical Center provides
international leadership in basic,
pre-clinical and clinical research, in
medical and health sciences education, and
in patient care.
The medical center trains future leaders and
includes the dedicated work of many
physicians, scientists, public health
professionals, dentists, and nurses at the
College of Physicians and Surgeons, the
Mailman School of Public Health, the College
of Dental Medicine, the School of Nursing,
the biomedical departments of the Graduate
School of Arts and Sciences, and allied
research centers and institutions.
Established in 1767, Columbia's College of
Physicians and Surgeons was the first
institution in the country to grant the M.D.
degree and is among the most selective
medical schools in the country. Columbia
University Medical Center is home to the
largest medical research enterprise in New
York City and state and one of the largest
in the United States. For more information,
please visit
www.cumc.columbia.edu.
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