Mayo Clinic develops first genomic-based test to predict stroke from ruptured brain aneurysm
Mayo Clinic researchers have discovered a genetic marker that may pave the way for a fast, inexpensive blood test to predict one type of deadly stroke that strikes 30,000 people in the United States annually.
The article and an editorial appear in the March edition of the Journal of Neurosurgery, http://www.thejns-net.org/jns/issues/toc_pre.html. The Mayo Clinic researchers report that people with key variations in a gene that affects the ability of blood vessels to relax are 10 times more likely to suffer a stroke from a ruptured brain aneurysm than people who have aneurysms but lack these key genetic variations.
“There are an incredible number of people walking around with brain aneurysms, but only a small percentage of these aneurysms will rupture,” says G. Vini Khurana, M.D., Ph.D., the Mayo Clinic neurosurgical researcher who led the study. “There has been a search for a marker that would identify patients with rupture-prone aneurysms for a very long time because this disease can strike like lightning. Rupture typically happens suddenly and completely unexpectedly — and when it does at least half of patients die or suffer long-term disability. Thats why our results suggesting that we may have found such a marker are so exciting: there is an urgent public health need for it.”
Significance of the Mayo Clinic Research
The Mayo Clinic researchers conclude that they have found the first genetic marker to help doctors identify which cases of a condition known as sporadic brain aneurysm are at highest risk for death and disability due to rupturing and subsequent bleeding into the brain. Sporadic brain aneurysm is a different medical condition from familial aneurysm, for which genetic markers are already known. However, approximately 90 percent of all cases of aneurysm — a dangerous thinning of blood vessel walls in the brain — fall into the “sporadic” category. While development of sporadic brain aneurysm is relatively common (as autopsies have shown) many people have them and have no symptoms or warning signs that they could be at risk of catastrophic rupture that is imminently life endangering.
The Key Finding
The Mayo researchers are the first to identify specific genetic variations or “polymorphisms” associated with an approximately 10-fold increased risk of a ruptured aneurysm. If further studies validate these findings, screening for these polymorphisms could be done with a fast, inexpensive blood test to predict which patients with aneurysms are at risk. The experimental blood test researchers developed detects specific variations in the gene that encodes an important blood vessel-relaxation protein.
Dr. Khurana notes that the Mayo Clinic groups effort is just the beginning of their research. Their hope is that a large, multicenter and international clinical trial will test their results. “But our initial results are really very powerful,” he adds. “Our findings have very strong implications for brain aneurysm research. I think from a public health point of view, if you consider the millions and millions of dollars that go to sorting out this lightning-like, catastrophic disease, every year in the United States alone there are potentially 30,000 people who could be affected by this.”
Background Biology
Physicians and researchers have long been puzzled by the discrepancy between the large numbers of people with brain aneurysms — 10 to 15 million people in the U.S. — and the incidence of aneurysms rupturing in a relatively small fraction of those people. Doctors knew some aneurysms were more prone to rupture, but didnt know why. They suspected genes played a role, but lacked convincing studies supporting this hypothesis.
The Mayo Clinic research team had previously done extensive work with a molecule (nitric oxide synthase) known to play a pivotal role in the endothelium. The endothelium is the lining of the blood vessels that is very important to maintaining smooth blood flow. Disrupted blood flow in brain arteries is associated with increased risk of stroke. The Mayo teams previous work showed that when the amount of this molecule is increased using a gene therapy approach, the arteries relax and maintain smooth, healthy flow.
The Investigation
To determine the role of nitric oxide synthase gene variations in ruptured brain aneurysms, the Mayo Clinic team screened the genetic variants of 49 patients who had unruptured brain aneurysms, and compared them with the genetic variants of 58 emergency room patients with ruptured aneurysms.
Blood samples were taken from all, and DNA analysis performed. There was no significant difference between the two groups in terms of age, race, gender, health history, family history, and smoking habits. Despite these similarities, the genetic differences were striking. Says Dr. Khurana: “Our findings are the first to present strong evidence that the reason for sporadic brain aneurysm rupture may be genetic.”
Collaborators and Support
In addition to Dr. Khurana, other Mayo Clinic collaborators include: Irene Meissner, M.D.; Youvraj Sohni, Ph.D.; William Bamlet; Robyn McClelland, Ph.D.; Julie Cunningham, Ph.D.; and Fredric Meyer, M.D. Their work was supported by the Departments of Neurologic Surgery and Neurology, Mayo Clinic and Mayo Foundation.
Media Contact
More Information:
http://www.mayoclinic.comAll latest news from the category: Life Sciences and Chemistry
Articles and reports from the Life Sciences and chemistry area deal with applied and basic research into modern biology, chemistry and human medicine.
Valuable information can be found on a range of life sciences fields including bacteriology, biochemistry, bionics, bioinformatics, biophysics, biotechnology, genetics, geobotany, human biology, marine biology, microbiology, molecular biology, cellular biology, zoology, bioinorganic chemistry, microchemistry and environmental chemistry.
Newest articles
Scientists Create a “Minimal Cell Membrane” with Just Two Lipids
Exploring Life at Its Simplest: Lipids, or fats, are essential to life. They form the membranes around cells, protecting them from the outside. In nature, there is an enormous diversity…
Compact LCOS Microdisplay with Fast CMOS Backplane
…for High-Speed Light Modulation. Researchers from the Fraunhofer Institute for Photonic Microsystems IPMS, in collaboration with HOLOEYE Photonics AG, have developed a compact LCOS microdisplay with high refresh rates that…
New perspectives for material detection
CRC MARIE enters third funding period: A major success for terahertz research: Scientists at the University of Duisburg-Essen and the Ruhr University Bochum have been researching mobile material detection since…