ERC Researchers Extend the Preservation of Rat Livers Fivefold Using Partial Freezing Technique

Outcome/Accomplishment

By adapting strategies used by animals to endure freezing winter temperatures, researchers with the NSF-funded Engineering Research Center (ERC) for Advanced Technologies for the Preservation of Biological Systems (ATP-Bio), co-led by the University of Minnesota and Massachusetts General Hospital, successfully extended the preservation duration of rodent livers fivefold.

Impact/Benefits

Limited preservation duration is a contributing factor to the limited number of organs that are available for transplants. Extending the length of time transplant tissue can be preserved could reduce the cost of transplantation, as well as increase the likelihood that patients in need receive lifesaving donor organs.

Explanation/Background

While the need for transplants is growing steadily, the supply of donor organs is nowhere near demand. Extending the length of time donor organs can survive outside of the body could significantly impact organ allocation, handling, and transplantation. By adapting a freeze tolerance strategy used by animals in nature, the NSF-funded team stored whole rat livers in a partially frozen state at -15°C for up to five days. The organs remained statistically the same as a transplantable control that was stored at the clinical standard for organ preservation at 4°C for one day.

This project was a collaborative effort between ATP-Bio faculty Dr. Korkut Uygun, Dr. Shannon Tessier, and Dr. Mehmet Toner, as well as industry partner Sylvatica Biotech, Inc.

Image

Location

Minneapolis, Minnesota

e-mail

atp-bio@umn.edu

Start Year

Biotechnology and Healthcare

Biotechnology and Health Care Icon
Biotechnology and Health Care Icon

Biotechnology and Healthcare

Lead Institution

University of Minnesota

Core Partners

Massachusetts General Hospital, University of California, Berkeley, University of California, Riverside
Image

Outcome/Accomplishment

By adapting strategies used by animals to endure freezing winter temperatures, researchers with the NSF-funded Engineering Research Center (ERC) for Advanced Technologies for the Preservation of Biological Systems (ATP-Bio), co-led by the University of Minnesota and Massachusetts General Hospital, successfully extended the preservation duration of rodent livers fivefold.

Location

Minneapolis, Minnesota

e-mail

atp-bio@umn.edu

Start Year

Biotechnology and Healthcare

Biotechnology and Health Care Icon
Biotechnology and Health Care Icon

Biotechnology and Healthcare

Lead Institution

University of Minnesota

Core Partners

Massachusetts General Hospital, University of California, Berkeley, University of California, Riverside

Impact/benefits

Limited preservation duration is a contributing factor to the limited number of organs that are available for transplants. Extending the length of time transplant tissue can be preserved could reduce the cost of transplantation, as well as increase the likelihood that patients in need receive lifesaving donor organs.

Explanation/Background

While the need for transplants is growing steadily, the supply of donor organs is nowhere near demand. Extending the length of time donor organs can survive outside of the body could significantly impact organ allocation, handling, and transplantation. By adapting a freeze tolerance strategy used by animals in nature, the NSF-funded team stored whole rat livers in a partially frozen state at -15°C for up to five days. The organs remained statistically the same as a transplantable control that was stored at the clinical standard for organ preservation at 4°C for one day.

This project was a collaborative effort between ATP-Bio faculty Dr. Korkut Uygun, Dr. Shannon Tessier, and Dr. Mehmet Toner, as well as industry partner Sylvatica Biotech, Inc.