Research could lead to potential new ways to predict and prevent strokes in young adults.
A person’s blood type may be linked to their risk of having an early stroke, according to a new meta-analysis of research. The meta-analysis included all available data from genetic studies focusing on ischemic strokes, which are caused by a blockage of blood flow to the brain, occurring in younger adults under age 60. The study was led by University of Maryland School of Medicine (UMSOM) researchers, and the findings were published on August 31, 2022, in the journal Neurology.
“The number of people with early strokes is rising. These people are more likely to die from the life-threatening event, and survivors potentially face decades with disability. Despite this, there is little research on the causes of early strokes,” said study co-principal investigator Steven J. Kittner, MD, MPH. He is a Professor of Neurology at UMSOM and a neurologist with the University of Maryland Medical Center.
Blood type A had a 16 percent higher risk of having an early stroke and blood type O had a 12 percent lower risk of having a stroke than people with other blood types.
Kittner and his colleagues conducted the study by performing a meta-analysis of 48 studies on genetics and ischemic stroke that included 17,000 stroke patients and nearly 600,000 healthy controls who never had experienced a stroke. They then scrutinized all collected chromosomes to identify genetic variants associated with a stroke. They discovered a link between early-onset stroke – occurring before age 60 – and the area of the chromosome that includes the gene that determines whether a blood type is A, AB, B, or O.
According to the study, people with early stroke were more likely to have blood type A and less likely to have blood type O (the most common blood type) — compared to people with late stroke and people who never had a stroke. Both early and late stroke patients were also more likely to have blood type B compared to controls. After adjusting for sex and other factors, investigators found that people who had blood type A had a 16 percent higher risk of having an early stroke than people with other blood types. People who had blood type O had a 12 percent lower risk of having a stroke than those with other blood types.
“Our meta-analysis looked at people’s genetic profiles and found associations between blood type and risk of early-onset stroke. The association of blood type with later-onset stroke was much weaker than what we found with early stroke,” said study co-principal investigator Braxton D. Mitchell, PhD, MPH, Professor of Medicine at UMSOM.
The scientists emphasized that the increased risk was very modest. They said that those with type A blood should not worry about having an early-onset stroke or engage in extra screening or medical testing based on this finding.
“We still don’t know why blood type A would confer a higher risk, but it likely has something to do with blood-clotting factors like platelets and cells that line the blood vessels as well as other circulating proteins, all of which play a role in the development of blood clots,” said Dr. Kittner. Previous studies suggest that those with an A blood type have a slightly higher risk of developing blood clots in the legs known as deep vein thrombosis. “We clearly need more follow-up studies to clarify the mechanisms of increased stroke risk,” he added.
In addition to Dr. Kittner and Dr. Mitchell, UMSOM faculty involved in this study included Huichun Xu, MD, PhD, Associate Professor of Medicine; Patrick F. McArdle, PhD, Associate Professor of Medicine; Timothy O’Connor, PhD, Associate Professor of Medicine; James A. Perry, PhD, Assistant Professor of Medicine; Kathleen A. Ryan, MPH, MS, Statistician; John W. Cole, MD, Professor of Neurology; Marc C. Hochberg, MD, MPH, Professor of Medicine; O. Colin Stine, PhD, Professor of Epidemiology and Public Health; and Charles C. Hong, MD, PhD, Melvin Sharoky MD Professor of Medicine.
A limitation of the study was the relative lack of diversity among participants. The data was derived from the Early Onset Stroke Consortium, a collaboration of 48 different studies across North America, Europe, Japan, Pakistan, and Australia. About 35 percent of the participants were of non-European ancestry.
“This study raises an important question that requires a deeper investigation into how our genetically predetermined blood type may play a role in early stroke risk,” said Mark T. Gladwin, MD, Executive Vice President for Medical Affairs, UM Baltimore, and the John Z. and Akiko K. Bowers Distinguished Professor and Dean, University of Maryland School of Medicine. “It points to the urgent need to find new ways to prevent these potentially devastating events in younger adults.”
Reference: “Contribution of Common Genetic Variants to Risk of Early Onset Ischemic Stroke” by Thomas Jaworek, Huichun Xu, Brady J Gaynor, John W. Cole, Kristiina Rannikmae, Tara M Stanne, Liisa Tomppo, Vida Abedi, Philippe Amouyel, Nicole D Armstrong, John Attia, Steven Bell, Oscar R Benavente, Giorgio B Boncoraglio, Adam Butterworth, for the Cervical Artery Dissections and Ischemic Stroke Patients (CADSIP) Consortium, Jara Carcel-Marquez, Zhengming Chen, Michael Chong, Carlos Cruchaga, Mary Cushman, John Danesh, Stephanie Debette, David J Duggan, Jon Peter Durda, Gunnar Engstrom, Chris Enzinger, Jessica D Faul, Natalie S Fecteau, Israel Fernandez-Cadenas, Christian Gieger, Anne-Katrin Giese, Raji P Grewal, Ulrike Grittner, Aki S Havulinna, Laura Heitsch, Marc C Hochberg, Elizabeth Holliday, Jie Hu, Andreea Ilinca, for the INVENT Consortium, Marguerite R Irvin, Rebecca D Jackson, Mina A. Jacob, Raquel Rabionet Janssen, Jordi Jimenez-Conde, Julie A Johnson, Yoichiro Kamatani, Sharon L Kardia, Masaru Koido, Michiaki Kubo, Leslie Lange, Jin-Moo Lee, Robin Lemmens, Christopher R Levi, Jiang Li, Liming Li, Kuang Lin, Haley Lopez, Sothear Luke, Jane Maguire, Patrick F McArdle, Caitrin W. McDonough, James F Meschia, Tiina Metso, Martina Muller-Nurasyid, Timothy D O’Connor, Martin O’Donnell, Leema R Peddareddygari, Joanna Pera, James A Perry, Annette Peters, Jukka Putaala, Debashree Ray, Kathryn Rexrode, Marta Ribases, Jonathan Rosand, Peter M Rothwell, Tatjana Rundek, Kathleen A Ryan, Ralph L. Sacco, Veikko Salomaa, Cristina Sanchez-Mora, Reinhold Schmidt, Pankaj Sharma, Agnieszka Slowik, Jennifer A Smith, Nicholas L Smith, Sylvia Wassertheil-Smoller, Martin Soederholm, O. C Stine, Daniel Strbian, Cathie L Sudlow, Turgut Tatlisumak, Chikashi Terao, Vincent Thijs, Nuria P Torres-Aguila, David-Alexandre Tregouet, Anil M. Tuladhar, Jan H Veldink, Robin G Walters, David R Weir, Daniel Woo, Bradford B Worrall, Charles C Hong, Owen Ross, Ramin Zand, Frank-Erik de Leeuw, Arne G Lindgren, Guillaume Pare, Christopher D. Anderson, Hugh S Markus, Christina Jern, Rainer Malik, Martin Dichgans, Braxton D Mitchell, Steven J Kittner, the Early Onset Stroke Genetics Consortium of the International Stroke Genetics Consortium (ISGC), 31 August 2022, Neurology.
DOI: 10.1212/WNL.0000000000201006
The study was supported by the National Institutes of Health and the Department of Veterans Affairs. Researchers from more than 50 institutions worldwide were co-authors on this study.