Vancouver, British Columbia – The invention – synthetic
heart valves, arteries, and veins made of polyvinyl alcohol hydrogel – was
created by researchers at the University of British Columbia’s (UBC) Okanagan campus.
The polyvinyl tissue makes it possible for surgeons and medical residents to practice bypass surgery using the synthetic material as opposed to the current practice of using the arteries and veins of dead pigs or human cadavers.
"One of the major issues with using arteries from human or animal cadavers is that they break down very quickly if they are not treated with preservatives," says inventor and Assist. Prof. of Engineering Hadi Mohammadi. "This synthetic material doesn't decompose and can't be contaminated, meaning doctors can practice their technique almost anywhere.
"An added benefit is that this material can be created safely and cheaply, which could solve any issues surgeons currently have in accessing practice materials."
The invention, currently only used for teaching purposes, is already being used by a number of surgeons and medical residents at the Kelowna General Hospital (KGH) in British Columbia's interior.
The new synthetic material is designed to feel like living human tissue and provides a number of benefits over what is currently being done, says co-inventor Dr. Guy Fradet, head of cardiovascular surgery at KGH and an associate professor in UBC's Faculty of Medicine.
"A problem with using arteries from animals or human cadavers for practicing bypass surgery is that they feel different than living human tissue," Fradet says. "The more realistic we can make surgical practice, the easier it will be to prepare surgeons for the operating room, which can only benefit patients."
The synthetic heart valves, veins and arteries are currently being used to practice bypass surgery on actual hearts harvested from pigs.
The two inventors are currently working towards creating a synthetic heart using the new material, which could then be used to largely eliminate the need to use any animal or human cadaver tissues and organs when practicing heart surgery.
Mohammadi and Fradet's research was recently published in the journal Cardiovascular Engineering and Technology.
Source: UBC
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