UConn joins Advanced Regenerative Manufacturing Institute as partner
University is working on regenerating human knee, leg
The University of Connecticut will partner with the Advanced Regenerative Manufacturing Institute to share its human tissue and limb regeneration technologies.
In late December, the U.S. Department of Defense announced it would be supplying $80 million over five years to the newly-created bio research and manufacturing institute, which will be based in the Manchester Millyard. The institute aims to speed the growth and use of engineered human tissues and organs that can be transplanted into patients, particularly injured American service members.
With public-private investment funding approaching nearly $300 million, ARMI is bringing together a consortium of nearly 100 partner organizations from across industry, government, academia and the non-profit sector to develop next-generation manufacturing processes and technologies for cells, tissues and organs.
"We are excited to collaborate with ARMI to lend our expertise to our country and push our regenerative engineering discoveries and breakthroughs closer to the bedsides of soldiers and Americans in need of vital medical care," said Dr. Cato T. Laurencin, an internationally acclaimed surgeon-scientist who is chief executive officer of the Connecticut Institute for Clinical and Translational Science at UConn, and director of the Institute for Regenerative Engineering and The Raymond and Beverly Sackler Center for Biomedical, Biological, Physical, and Engineering Sciences at UConn Health.
According to a press release, UConn is currently working toward regenerating a human knee within six years and an entire limb by 2030. Laurencin's brainchild is the HEAL Project – Hartford Engineering A Limb – which was launched in November 2015 and is the first international effort for knee and limb engineering. Laurencin, whose laboratory research successes include the growth of bone and knee ligaments, is known as a pioneer in the field of regenerative engineering and material sciences.
At UConn, collaborators making the partnership with ARMI possible include innovative regenerative engineering scientist Lakshmi S. Nair, known for her research advances in growing musculoskeletal tissue at the Institute for Regenerative Engineering at UConn Health. The new ARMI initiative at UConn benefits from strong support by Dr. Bruce T. Liang, dean of the UConn School of Medicine, Kazem Kazerounian, dean of the UConn School of Engineering, and Jeff Seemann, UConn's vice president for research.
"In joining ARMI, UConn will contribute to the program's mission to bring together the country's most talented researchers to accelerate the advancement of tissue bioengineering and regeneration discoveries, while helping bring these promising, much needed breakthroughs to patients in their clinical care," said Seemann.