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Cranberries may help reduce stroke damage
NEW YORK, Sept. 8 — Researchers have found preliminary evidence that cranberries may reduce brain-cell damage associated with stroke. In lab studies using rat brain cells exposed to simulated stroke conditions, a concentrated cranberry extract reduced the death of brain cells by half in comparison to cells that did not receive the extract, according to the scientists.
The findings suggest that cranberries can aid recovery from stroke,
particularly in its earliest stages, in which the most severe damage
occurs, the researchers say. Their study, which they claim is the first
to demonstrate a link between cranberries and protection from stroke,
was described today at the 226th national meeting of the American Chemical
Society, the world's largest scientific society.
"This study shows that cranberries have the potential to protect against
brain cell damage that occurs during a stroke event," says Catherine Neto,
Ph.D., an assistant professor at the University of Massachusetts-Dartmouth and
a lead investigator in the study. "It may not stop a stroke from occurring
initially, but it may reduce the severity of stroke," she says.
Neurons from the brains of several rats were collected for this study. After
placing the neurons in tissue culture, millions of cells were grown and then
divided into different treatment groups with varying concentrations of cranberry
juice. Under simulated conditions of stroke, exposure to cranberry juice was
found to have a statistically significant effect in reducing brain cell death,
the researcher says.
Although animal and human studies are needed to confirm the findings, the study
offers a compelling reason for recent stroke victims and those at risk for stroke
to consume cranberries, Neto says.
Until those studies are done, nobody knows the amount of cranberries or cranberry
juice people should eat or drink to have an optimal effect against stroke, she
adds. Other studies have shown that cranberries are also effective in fighting
urinary tract infection and may help combat cancer and heart disease. These health
effects have been linked to the rich supply of antioxidants found in the tart
berries.
In related studies using rats, researchers recently demonstrated that blueberries,
which are closely related to cranberries and similarly rich in antioxidants,
also appear to reduce brain damage associated with stroke. That blueberry study
was led by Neto's collaborator in the current study, Marva Sweeney-Nixon, Ph.D.,
of the University of Prince Edward Island in Canada. Both researchers suspect
that cranberries will have a similar effect in live rats, which they plan to
test soon.
Stroke is the third leading cause of death in this country and the most common
cause of disability in adults. It occurs when the blood supply to the brain is
suddenly stopped, usually through a blood clot (ischemic stroke).
In the current study, Neto and her associates obtained brain cells from rats
and exposed the cells to two specific conditions that commonly occur during stroke.
In one condition, a group of cells was deprived of oxygen and glucose, which
occurs during ischemic stroke as brain cells are starved of oxygen and die.
In the other condition, a separate group of brain cells was exposed to hydrogen
peroxide, simulating the action that takes place following the stroke when oxygen
again begins to flow to the brain. The process, called reperfusion, causes further
damage and death to cells, as they are exposed to excess levels of highly reactive
oxygen species. Like a second-wave of attacks, these "superoxides" can
continue causing brain cell damage and cell death for days and weeks after the
initial stroke.
Both groups of cells were then exposed to varying concentrations of cranberry
extract, which was obtained from fresh, whole cranberries. Exposure to the highest
concentration of extract, which was roughly equivalent to a half a cup of whole
cranberries, caused a 50 percent reduction in brain cell death, as measured by
chemical markers indicative of the death of neurons.
Like the blueberry studies, researchers still do not know the specific phytochemicals
that appear to be responsible for the protective effect of cranberries. However,
they believe that they may belong to a class of potent antioxidants called anthocyanins,
which are common in both types of berries and are also responsible for giving
the berries their characteristic dark color.
Further studies are now underway to isolate the active compounds, the researchers
say. Once the active component is identified, researchers may be able to develop
it into a stroke-fighting drug or nutraceutical.
There is a growing variety of cranberry products on the market. Besides juices
and sauces, there are herbal teas, pills and dried whole cranberries. Fresh,
whole cranberries are probably the healthiest, Neto says, since they are more
likely to contain higher levels of antioxidants than processed versions of the
fruit.
According to the National Institutes of Health, there are several proven steps
that consumers can take to reduce their risk of stroke — lowering their
blood pressure, quitting smoking, and keeping heart disease and diabetes in check.
Funding for this study was provided by the Cranberry Institute and the University
of Massachusetts-Dartmouth.
Contact:
Michael Bernstein
202-872-6042 in Washington
Sept. 6-11, 2003, in New York
212-542-1703 or 212-333-6356
American
Chemical Society