DANVILLE, Pa. - A team of Geisinger researchers has identified a common genetic variant as a risk factor for stroke, especially in patients older than 65.
Cerebral small vessel disease (SVD) causes about a quarter of ischemic strokes worldwide and is the most common cause of vascular dementia. SVD can manifest as lesions on the brain, which typically appear on brain scan images. SVD is commonly associated with aging and hypertension, but a minority of cases are caused by cysteine altering variants in the NOTCH3 gene. Approximately 1 in 300 people have this type of gene variant. A rare hereditary condition known as cerebral autosomal dominant arteriopathy with subcortical infarcts and leukoencephalopathy, or CADASIL, which is caused by this gene variant, has been associated with SVD and an increased risk of stroke.
In their study, published in Stroke, researchers evaluated a set of health records, including imaging and genomic sequencing data, of more than 300 Geisinger patients, of which 118 exhibited a NOTCH3 variant. Of this group, 12.6% had a history of stroke, compared with 4.9% of those in a control group. The risk of stroke was significantly higher in those older than 65, and patients exhibited a higher number of white matter lesions on the brain. Although all 118 patients in the study group had a NOTCH3 genetic variant, the specific variant that causes CADASIL was rarely seen.
Given the high population frequency of NOTCH3 variants, the number of individuals who may be at higher risk of SVD and stroke as a result of a NOTCH3 variant is significant, the research team wrote. The study indicates that most individuals with a NOTCH3 variant will develop NOTCH3-associated SVD after the age of 65.
"Stroke is a complex multifactorial condition," said Vida Abedi, Ph.D., a scientist in the department of molecular and functional genomics at Geisinger and a co-author of the study. "Dissecting its risk factors and identifying ways to improve patient outcomes is a crucial part of improving patient care."
"This study represents a novel and powerful approach to studying the genetic basis of neurologic disease," said Ramin Zand, M.D., a vascular neurologist and clinician-scientist at Geisinger and co-author of the study. "Geisinger's unique resources, its electronic health records and focus on precision medicine allows us to leverage this data to provide better care for all of our patients."