A UC San Francisco-created, insulin-generating implant that utilizes nanotechnology is closer to becoming a real treatment for diabetes, after being acquired by a San Francisco-based startup.
The research journey toward building a fully functioning, surgically implantable artificial kidney as an alternative to kidney transplant and dialysis just took another step forward with the announcement of a $6 million grant to The Kidney Project, headquartered at the UCSF School of Pharmacy.
Research in the laboratory of Tejal Desai, PhD, is creating new kinds of drug delivery devices to reduce the scarring and inflammation that can undermine stents—metal mesh tubes implanted to prop open blocked arteries, including in the heart.
Passengers who travel on American Airlines from September through October 2011 will learn about the surgically implantable bioartificial kidney being developed at UCSF as a permanent solution to end stage renal disease.
The implantable bioartificial kidney is explained in this December 6, 2010, SmartPlanet video featuring Shuvo Roy, PhD, a faculty member in the UCSF Schools of Pharmacy and Medicine.
Shuvo Roy, PhD, an engineer and research scientist, is leading a U.S. project to build the world’s first bioartificial kidney to treat end stage renal disease. The goal is to surgically implant this coffee-cup-sized device in a human patient within 5 to 7 years.
A national research project is under way to develop an surgically implantable bioartificial kidney using the latest advances in science and technology with the goal of both improving the health and lives of patients with end stage renal disease and saving health care dollars.
