Low antioxidant levels contribute to increased blood pressure
during exercise for people with peripheral arterial disease, according to
researchers at Penn State Hershey Heart and Vascular Institute.
Peripheral arterial disease, or PAD, affects an estimated 10
million Americans and increases the chance of death from a cardiovascular
event. Reduced blood flow causes pain in the legs and increases blood pressure
in people who have PAD. However, the causes of the disease are unknown.
"Past studies have shown that having low antioxidant levels
and increased reactive oxygen species -- chemical products that bind to body
cells and cause damage -- is related to more severe PAD," said Matthew
Muller, postdoctoral fellow in Larry Sinoway's lab at Penn State College of
Medicine, and lead author of the study.
Antioxidants prevent the reactive oxygen species from damaging
cells.
"This study shows that blood pressure increases more with
exercise in more severe PAD cases. By infusing the antioxidant vitamin C into
the blood, we were able to lessen the increase in blood pressure during
exercise," said Muller.
Vitamin C does not lessen the increase in blood pressure of PAD
patients to that of healthy people. As the intensity of exercise increases, the
effects of vitamin C decrease but are still seen. The researchers report their
findings in the Journal of Physiology.
Penn State Hershey researchers looked at three groups of PAD
patients to study the blood pressure increase. A group of 13 PAD patients was
compared to people without PAD to see the effects of doing low-intensity
exercise on blood pressure. From that group, a second group of nine patients
was used to measure the effects of vitamin C. A third group of five PAD
patients and five without PAD had their leg muscles electrically stimulated to
remove the brain's role in raising blood pressure during muscle contraction in
this disease.
Increased blood pressure during exercise occurs in both legs,
before pain begins, and relates to the severity of the disease. By using
electrical stimulation, the scientists show that the blood pressure increase
comes from the muscle itself, since the brain is not telling the leg to
contract and the pressure still increases.
"This indicates that during normal, everyday activities such
as walking, an impaired antioxidant system -- as well as other factors -- plays
a role in the increased blood pressure response to exercise," Muller said.
"Therefore, supplementing the diet with antioxidants may help these
patients, but more studies are needed to confirm this concept."
Other researchers are Rachel C. Drew, postdoctoral fellow; Cheryl
A. Blaha, research coordinator; Jessica L. Mast, research coordinator; Jian
Cui, associate professor of medicine; and Amy B. Reed, associate professor of
surgery, all of Penn State College of Medicine.
The study was funded by the National Institutes of Health.
Journal Reference:
1. M. D. Muller, R. C. Drew, C. A. Blaha, J. L.
Mast, J. Cui, A. B. Reed, L. I. Sinoway. Oxidative Stress Contributes
to the Augmented Exercise Pressor Reflex in Peripheral Arterial Disease
Patients. The Journal of Physiology, 2012; DOI: 10.1113/jphysiol.2012.241281
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