Posts Tagged: Cell & Tissue Engineering
A team led by Professor John E. Davies has uncovered new information about medical devices that could accelerate post-surgical healing.
This new 3D skin printer can help heal deep wounds by forming tissue in situ, depositing and setting in place in two minutes or less.
A study published by Professor Rodrigo Fernandez-Gonzalez sheds light on how a network of proteins drive a wound repair process that leaves no scars.
Three IBBME-affiliated researchers have developed a new material designed to stop cavity-causing bacteria in fillings.
U of T biomedical engineering student Bailey Bernknopf is working towards a better understanding of how aortic valve disease affects women and men differently.
A team of researchers from the labs of Professors Rodrigo Fernandez-Gonzalez and Peter Zandstra have built a new platform that enables human embryonic stem cells to self-organize into a structure with embryo-like features.
New research from Professor Michael Sefton's lab demonstrates viability of implanting pancreatic cells under the skin to treat type 1 diabetes.
Professor Milica Radisic's lab has developed a flexible tissue scaffold that could enable new minimally-invasive surgery techniques.
Professors Sefton, Gilbert lead Medicine by Design-funded stem cell therapy research team comprised of experts spanning SickKids, UHN and U of T.
Two PhD candidates from Professor Peter Zandstra's lab have developed new technologies that clear key barriers to developing a renewable source of cells for therapies.
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