Posts Tagged: Cell & Tissue Engineering
A 3D hydrogel created by researchers in University Professor Molly Shoichet’s lab is helping University of Ottawa researchers to quickly screen hundreds of potential drugs for their ability to fight highly invasive cancers.
Heart muscle cells need exercise — even when they grow outside the human body. A new device designed by U of T Engineering researchers uses a rigorous training regimen to grow small amounts of cardiac tissue and measure how strongly it beats.
With his PhD from the Institute of Biomaterials & Biomedical Engineering (IBBME) fresh in hand, Cameron Stewart, CEO of health technology start-up Mesosil, wants to revolutionize your fillings.
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.
Showing 91 - 100 of 122 results