Date: 24.11.2014
Taking a cue from the human body’s own coagulation processes, researchers at UC Santa Barbara synthesize platelet-like nanoparticles that can do more than clot blood.
Stanching the free flow of blood from an injury remains a holy grail of clinical medicine. Controlling blood flow is a primary concern and first line of defense for patients and medical staff in many situations, from traumatic injury to illness to surgery. If control is not established within the first few minutes of a hemorrhage, further treatment and healing are impossible.
At UC Santa Barbara, researchers in the Department of Chemical Engineering and at Center for Bioengineering (CBE) have turned to the human body’s own mechanisms for inspiration in dealing with the necessary and complicated process of coagulation. By creating nanoparticles that mimic the shape, flexibility and surface biology of the body’s own platelets, they are able to accelerate natural healing processes while opening the door to therapies and treatments that can be customized to specific patient needs.
“This is a significant milestone in the development of synthetic platelets, as well as in targeted drug delivery,” said Samir Mitragotri, CBE director, who specializes in targeted therapy technologies. Results of the researchers’ findings appear in the current issue of the journal ACS Nano.
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