News Release

Protein in plasma may one day change transfusions

Peer-Reviewed Publication

St. Michael's Hospital

Dr. Heyu Ni, St. Michael's Hospital

image: "Most treatments that help the body stop bleeding can actually cause blood clots and many treatments to prevent excessive blood clots increase risk of bleeding out," said Dr. Heyu Ni, the principal investigator and a scientist in the Keenan Research Centre for Biomedical Science of St. Michael's Hospital. view more 

Credit: St. Michael's Hospital

TORONTO, Sept. 2, 2014 – In injured mice, the naturally occurring protein fibronectin is instrumental in stopping bleeding but interestingly also at preventing life-threatening blood clots – according to new research published today in Journal of Clinical Investigation.

When someone is bleeding, a blood clot is a positive response – the body forms the clot as a plug to stop bleeding. But when blood clots form in the absence of an injury, those clots can be life-threatening. Excessive blood clots in arteries and the brain are the main cause of heart attack and stroke.

Researchers found that fibronectin can actually switch its function from stopping bleeding to stopping overactive blood clots.

"Most treatments that help the body stop bleeding can actually cause blood clots and many treatments to prevent excessive blood clots increase risk of bleeding out," said Dr. Heyu Ni, the principal investigator and a scientist in the Keenan Research Centre for Biomedical Science of St. Michael's Hospital. "But when given to mice after an injury or to mice treated with blood thinners – which frequently lead to bleeding complications – fibronectin seems to offer a win-win solution."

More clinical studies are required to determine whether fibronectin – one of many proteins found in blood – plays a similar role in people. Dr. Ni's research shows that fibronectin may actually be the body's first response to prevent bleeding at an injured blood vessel.

This discovery highlights a possible new research direction for bleeding control and may be most relevant for surgery and traumatic injuries, which often require a large amount of blood transfusions.

"Blood transfusions carry risk of heart attack and stroke, especially in surgical patients, so researchers and clinicians around the world are experimenting with different forms of blood product to determine which is best for transfusions," said Dr. Ni, who is also a scientist with Canadian Blood Services.

At this point, however, experts disagree about what blood products are most beneficial for the control of bleeding. The most common form of blood product used in Canada is processed by testing and preserving donor blood. Other forms of blood product are more heavily refined; one such product is refined by stripping away most of the proteins found in blood, including fibronectin, to create a concentrated form of a single blood protein – fibrinogen.

"Fibrinogen has been shown to help the body stop bleeding, but our research indicates that less-refined blood products that include fibronectin and fibrinogen may help stop bleeding even more effectively," said Dr. Ni. "And, as an added bonus, fibronectin likely also reduces the risk of life-threatening blood clots from forming."

Debate concerning infection risks has led to some of the more processed blood products being withdrawn from a number of European countries but Canada, the United States, and England are still using them. The more heavily refined blood products, including concentrated fibrinogen, have been approved by many countries but are only available in Canada through Health Canada's special access program.

"There is a lot of work to be done but we might find that the less expensive and less processed form of donor blood may be more effective for transfusions," said Dr. Ni. "We've shown that fibronectin might play a role in improving results from transfusions and should not be discarded during blood product processing. It may be also an important protein in transfusions for stopping bleeding, particularly for patients who receive blood thinners during surgeries."

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About St. Michael's Hospital

St. Michael's Hospital provides compassionate care to all who enter its doors. The hospital also provides outstanding medical education to future health care professionals in 27 academic disciplines. Critical care and trauma, heart disease, neurosurgery, diabetes, cancer care, care of the homeless and global health are among the hospital's recognized areas of expertise. Through the Keenan Research Centre and the Li Ka Shing International Healthcare Education Centre, which make up the Li Ka Shing Knowledge Institute, research and education at St. Michael's Hospital are recognized and make an impact around the world. Founded in 1892, the hospital is fully affiliated with the University of Toronto.

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