A Genome-wide Genotyping Study in Patients with Ischaemic Stroke: Initial Analysis and Data Release

Overview

Journal Lancet Neurol

Specialty Neurology

Date 2007 Apr 17

PMID 17434096

Citations 83

Authors

Mar Matarin

W Mark Brown

Sonja Scholz

Javier Simon-Sanchez

Hon-Chung Fung

Dena Hernandez

J Raphael Gibbs

Fabienne Wavrant De Vrieze

Cynthia Crews

Angela Britton

Carl D Langefeld

Thomas G Brott

Robert D Brown Jr

Bradford B Worrall

Michael Frankel

Scott Silliman

L Douglas Case

Andrew Singleton

John A Hardy

Stephen S Rich

James F Meschia

Affiliations

Soon will be listed here.

Abstract

Background: Despite evidence of a genetic role in stroke, the identification of common genetic risk factors for this devastating disorder remains problematic. We aimed to identify any common genetic variability exerting a moderate to large effect on risk of ischaemic stroke, and to generate publicly available genome-wide genotype data to facilitate others doing the same.

Methods: We applied a genome-wide high-density single-nucleotide-polymorphism (SNP) genotyping approach to a cohort of samples with and without ischaemic stroke (n=278 and 275, respectively), and did an association analysis adjusted for known confounders in a final cohort of 249 cases and 268 controls. More than 400,000 unique SNPs were assayed.

Findings: We produced more than 200 million genotypes in 553 unique participants. The raw genotypes of all the controls have been posted publicly in a previous study of Parkinson's disease. From this effort, results of genotype and allele association tests have been publicly posted for 88% of stroke patients who provided proper consent for public release. Preliminary analysis of these data did not reveal any single locus conferring a large effect on risk for ischaemic stroke.

Interpretation: The data generated here comprise the first phase of a genome-wide association analysis in patients with stroke. Release of phase I results generated in these publicly available samples from each consenting individual makes this dataset a valuable resource for data-mining and augmentation.

Citing Articles

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Genome-Wide Studies in Ischaemic Stroke: Are Genetics Only Useful for Finding Genes?.

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