Gene Discovery Could Lead to New Stroke Treatments
Gene Discovery Could Lead to New Stroke Treatments
In Study, Gene ‘Signature’ Linked to Unstable Plaque Associated With Strokes
Aug. 4, 2011 -- Plaque buildup in the arteries is a major risk factor for strokes and heart attack, but some plaques are far more dangerous than others.
The problem is there is no good way to distinguish relatively benign plaque on artery walls from plaque that will break off and cause harm, but that may soon change.
Researchers in Italy say they have identified a genetic “signature” seen in unstable plaque from patients who had a stroke, but not in plaque that is not likely to rupture.
If the findings from the small study are confirmed, the discovery could lead to better ways to identify people with clogged arteries at risk for stroke and even new treatments to prevent and treat artery disease.
The study was reported today in the online issue of the American Heart Association journal Stroke.
A Visual Guide to Understanding Stroke
Arterial plaque is made up of a combination fat, cholesterol, calcium, and other substances found in the blood that cling to the inner walls of the arteries.
As plaque deposits get bigger, the arteries become narrow and cut off blood to the brain or heart. Although this narrowing alone causes some heart attacks and strokes, many more are caused when plaque breaks off or ruptures, blocking the flow of blood through the arteries that lead to the heart and brain.
Many experts now believe that the inability to distinguish between stable and unstable plaques in the clinical setting has led to the overuse of treatments to clear blocked arteries.
In the Italian study, Cipollone and colleagues examined the expression of microRNAs in plaque taken from the carotid arteries of people who had recently had strokes and people with carotid artery disease who had not had strokes.
The carotid arteries are the two large blood vessels in the neck that supply blood to the brain.
MicroRNAs (miRNAs) are small RNA strands that are involved in a wide range of biological functions, including immune response and inflammation. Their discovery in the late 1990s led to a 2006 Nobel Prize for the investigators who first identified them.
Gene Discovery Could Lead to New Stroke Treatments
In Study, Gene ‘Signature’ Linked to Unstable Plaque Associated With Strokes
Aug. 4, 2011 -- Plaque buildup in the arteries is a major risk factor for strokes and heart attack, but some plaques are far more dangerous than others.
The problem is there is no good way to distinguish relatively benign plaque on artery walls from plaque that will break off and cause harm, but that may soon change.
Researchers in Italy say they have identified a genetic “signature” seen in unstable plaque from patients who had a stroke, but not in plaque that is not likely to rupture.
If the findings from the small study are confirmed, the discovery could lead to better ways to identify people with clogged arteries at risk for stroke and even new treatments to prevent and treat artery disease.
The study was reported today in the online issue of the American Heart Association journal Stroke.
A Visual Guide to Understanding Stroke
Plaque Rupture Major Cause of Stroke
Arterial plaque is made up of a combination fat, cholesterol, calcium, and other substances found in the blood that cling to the inner walls of the arteries.
As plaque deposits get bigger, the arteries become narrow and cut off blood to the brain or heart. Although this narrowing alone causes some heart attacks and strokes, many more are caused when plaque breaks off or ruptures, blocking the flow of blood through the arteries that lead to the heart and brain.
Many experts now believe that the inability to distinguish between stable and unstable plaques in the clinical setting has led to the overuse of treatments to clear blocked arteries.
In the Italian study, Cipollone and colleagues examined the expression of microRNAs in plaque taken from the carotid arteries of people who had recently had strokes and people with carotid artery disease who had not had strokes.
The carotid arteries are the two large blood vessels in the neck that supply blood to the brain.
MicroRNAs (miRNAs) are small RNA strands that are involved in a wide range of biological functions, including immune response and inflammation. Their discovery in the late 1990s led to a 2006 Nobel Prize for the investigators who first identified them.
