Reduction in blood flow declines Alzheimer's .
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The research, putting proteins often linked to heart disease front and center in a brain disease whose causes remain a mystery, hark back to what German physician Alois Alzheimer noted when he first recognized the disease 100 years ago. Though Alzheimer noted changes in both the brain's cells and in the small arteries and capillaries that supply and drain blood to and from the brain, over the decades doctors separated the two concepts and have come to focus mainly on the toxic effects of the disease on cells. The changes to blood vessels have been pushed to the background.
The latest findings from the University of Rochester Medical Center mesh not only with Dr. Azheimer's initial observations but also with new findings from today's best imaging technologies. While the first visible symptom of Alzheimer's may be a person forgetting names or faces, the very first physical change is actually a decline in the amount of blood that flows in the brain. Doctors have found that not only is blood flow within the brain reduced, but that the body's capacity to allocate blood to different areas of the brain on demand is blunted in people with the disease. "A reduction in blood flow precedes the decline in cognitive function in Alzheimer's patients," said Berislav Zlokovic, M.D., Ph.D., professor in the Department of Neurological Surgery and a neurovascular expert whose research is causing scientists to consider the role of reduced blood flow in Alzheimer's disease.
"People used to say, well, the brain is atrophying because of the disease, so not as much blood as usual is needed. But perhaps it's the opposite, that the brain is dying because of the reduced blood flow," he adde
The two dominant proteins that determine how much blood flows through the body's arteries have been implicated in Alzheimer's disease, in a new study in the Jan. 16 issue of the Proceedings of the National Academy of Sciences. They offer new, surprising targets against Alzheimer's disease just as scientists are getting back in touch with the vascular roots of the disease that were first recognized early last century. Now the group is looking for ways to stop the two proteins from working together to constrict the blood vessels, so that blood flow in the brains of people with Alzheimer's disease would return to normal, much as the team achieved in mice. "More and more, people are paying attention to the role of the vascular system in Alzheimer's disease," said Zlokovic, director of the Frank P. Smith Laboratories for Neurosurgical Research, who has made several findings that implicate blood flow and the blood-brain barrier transport mechanism as key components of the Alzheimer's disease process.
Alzheimer's Donation
Donate Online Now
.
The research, putting proteins often linked to heart disease front and center in a brain disease whose causes remain a mystery, hark back to what German physician Alois Alzheimer noted when he first recognized the disease 100 years ago. Though Alzheimer noted changes in both the brain's cells and in the small arteries and capillaries that supply and drain blood to and from the brain, over the decades doctors separated the two concepts and have come to focus mainly on the toxic effects of the disease on cells. The changes to blood vessels have been pushed to the background.
The latest findings from the University of Rochester Medical Center mesh not only with Dr. Azheimer's initial observations but also with new findings from today's best imaging technologies. While the first visible symptom of Alzheimer's may be a person forgetting names or faces, the very first physical change is actually a decline in the amount of blood that flows in the brain. Doctors have found that not only is blood flow within the brain reduced, but that the body's capacity to allocate blood to different areas of the brain on demand is blunted in people with the disease. "A reduction in blood flow precedes the decline in cognitive function in Alzheimer's patients," said Berislav Zlokovic, M.D., Ph.D., professor in the Department of Neurological Surgery and a neurovascular expert whose research is causing scientists to consider the role of reduced blood flow in Alzheimer's disease.
"People used to say, well, the brain is atrophying because of the disease, so not as much blood as usual is needed. But perhaps it's the opposite, that the brain is dying because of the reduced blood flow," he adde
The two dominant proteins that determine how much blood flows through the body's arteries have been implicated in Alzheimer's disease, in a new study in the Jan. 16 issue of the Proceedings of the National Academy of Sciences. They offer new, surprising targets against Alzheimer's disease just as scientists are getting back in touch with the vascular roots of the disease that were first recognized early last century. Now the group is looking for ways to stop the two proteins from working together to constrict the blood vessels, so that blood flow in the brains of people with Alzheimer's disease would return to normal, much as the team achieved in mice. "More and more, people are paying attention to the role of the vascular system in Alzheimer's disease," said Zlokovic, director of the Frank P. Smith Laboratories for Neurosurgical Research, who has made several findings that implicate blood flow and the blood-brain barrier transport mechanism as key components of the Alzheimer's disease process.
posted by Valery Yermalitsky at
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