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�ǿմ�ý will play a primary role in a new $46.4 million federally funded project to develop a freeze-dried blood substitute that, if successful, has the potential to save thousands of wounded soldiers’ lives—and civilian lives, as well.

The  the four-year effort, which is  and involves multiple academic institutions and industry partners.

The project marks the most significant step to date in the quest to create artificial whole blood, said blood surrogate pioneer Anirban Sen Gupta, the Leonard Case Jr. Professor of Engineering at the Case School of Engineering and lead investigator of the �ǿմ�ý team on the DARPA-funded project. 

“That’s why this is so exciting—this could be the culmination of a century of efforts by human beings to create a substitute for whole blood,” Sen Gupta said. “This is a historic effort and one that scientists in our field have been talking about for a long time. We needed something visionary like this DARPA endeavor to really make it come together.”

The �ǿմ�ý team will analyze how well the three blood-surrogate components—materials mimicking platelets, red blood cells and plasma—effectively work when combined.

Answering a big question

“The big question we’ll be answering over the next four years is: Can we come up with a surrogate product that works like whole blood?” Sen Gupta said.

The rest of �ǿմ�ý’s team includes Umut Gurkan, professor of mechanical and aerospace engineering; Harihara Baskaran, professor and chair of chemical engineering; and Shannon French, director of the Inamori International Center for Ethics and Excellence. French will oversee the ethical, legal and social implications of the research. Sen Gupta said he will also be collaborating with Pedram Mohseni, chair of electrical engineering and computer science. 

Sen Gupta said there are several critical requirements for such a synthetic blood product to be successful. The components must be biosynthetic and donor-independent; must enable production at large scale, amenable to freeze-drying so it can be easily transported and stored; and should mimic the biological functions of red blood cells, platelets and plasma very closely.

Three synthetic components

Each of the three components will come from a different source:

• The freeze-dried platelet surrogates are called SynthoPlate from —developed by Sen Gupta at �ǿմ�ý and patented and licensed to Haima, a Cleveland company.
• The freeze-dried red blood cell surrogates are called Erythromer, —developed by ,  and  and licensed to Kalocyte. Allan Doctor is professor of pediatrics and director of the  and team leader of the DARPA project. 
• And freeze-dried plasma from

Finally, the blood-surrogate product will be evaluated in the laboratories of  Philip Spinella and  at the  at the University of Pittsburgh.

The combination of the three freeze-dried components has never been tested for transfusion effect, Sen Gupta said.

Also involved in the research, according to DARPA: Charles River Laboratories, Latham Biopharm Group, Ohio State University, Pumas-AI Inc., Southwest Research Institute and University of California-San Diego.

Civilian benefits, and global health equity

Sen Gupta said a whole-blood substitute could have benefits beyond the military.

The technology could provide new blood-transfusion options for smaller hospitals without sufficient blood banks and allow ambulances and helicopters to carry such a product for transfusions outside of hospitals or en route to a hospital, he said.

Further, these blood products could address a global health care problem, as not every country has the same access to blood products now for transfusions.

“A lot of people bleed out and die because they can’t get timely and adequate blood transfusions,” Sen Gupta said. “This could change that.”