Posts Tagged: Research
The Donnelly Centre for Cellular and Biomolecular Research is home to a new self-driving lab (SDL), borne out of a $200 million grant from the Canada First Research Excellence Fund to the Acceleration Consortium.
A team of researchers led by Professor Daniel Franklin (BME) unveiled a cutting-edge wearable medical device designed to revolutionize cardiovascular monitoring. This innovative device integrates multiple sensory modalities to provide a comprehensive assessment of hemodynamic status, surpassing conventional blood pressure monitoring.
In a study published today, researchers from the University of Toronto have introduced an innovative biosensor, Apollo-NADP+, in living zebrafish embryos to track molecular metabolism. The study, featured in Science Advances, sheds light on the potential applications of this cutting-edge technology in understanding cellular processes and addresses a critical question in diabetes research.
Researchers at the University of Toronto have developed an alternative theory to explain how nanoparticles enter and exit the tumours they are meant to treat. This new principle debunks a leading theory in cancer nanomedicine that has guided research for nearly four decades.
Professor Milica Radisic (BME, ChemE) has been awarded the 2023 Humboldt Research Award from the Alexander von Humboldt Foundation.
U of T Engineering has partnered with CCRM, BioZone and the School of Continuing Studies on a new set of microcredentials that will help workers across Canada’s biomanufacturing industry to upgrade or strengthen their skills.
New innovations in the ways that human cells are grown in laboratories could help speed up the development of cellular therapy, a branch of regenerative medicine that targets diseases that are incurable today. According to Professor Julie Audet (BME), some of the most significant challenges to achieving this goal have to do with how the therapeutic cells are produced.
Researchers at the University of Toronto and the Ted Rogers Centre for Heart Research have identified a previously unknown mechanism that governs the movement of cardiac progenitors during heart development in fruit fly embryos. By using advanced imaging techniques, mathematical modelling and genetic and biophysical manipulations, Dr. Rodrigo Fernandez-Gonzalez and colleagues shed light on the formation of the early heart tube and provide insights into the cellular causes of congenital heart defects.
Researchers at the University of Toronto have made progress in understanding the intricate cellular processes involved in tissue development and repair. The findings, published in the journal Current Biology, shed light on the mechanisms underlying collective cell migration, a fundamental behavior that plays a crucial role in both normal embryo development and pathological conditions such as cancer metastasis.
A study from U of T Engineering researchers shows that mechanical deformation of medically implantable materials — such as bending or twisting — can have a big impact on the formation of potentially harmful biofilms.
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