Posts Tagged: Research
Researchers at UHN’s KITE Research Institute have recently leveraged the power of deep learning to improve nerve signalling interpretation, paving the way for more effective neuroprosthetic devices and offering new hope for those with impaired motor function.
A research team at UHN's Donald K. Johnson Eye Institute in collaboration with the Institute of Biomedical Engineering at the University of Toronto (U of T) has discovered that transplanted retinal cells can share essential materials with host cells in the lab, offering a promising avenue for delivering therapies directly to damaged areas of the eye.
One of the CBRF-funded programs is the Biomanufacturing Hub Network, an immersive talent development program based at the University of Toronto led by U of T University Professor Molly Shoichet (ChemE, BME) along with Darius Rackus, an assistant professor of chemistry and biology at Toronto Metropolitan University, and Gilbert Walker, a professor of chemistry at U of T.
Deep Brain Stimulation (DBS) has been a longstanding adjunctive therapy for movement disorders like Parkinson's disease, yet its precise mechanisms of action have remained elusive. In a recent study published in the journal Neuromodulation, Dr. Milad Lankarany and his team have introduced a computational model that accurately predicts the dynamics of neuronal activity during DBS across various frequencies.
Researchers from the University of Toronto have unveiled a new technological breakthrough that promises to transform early childhood music education. The study addresses a critical gap in musical instrument classification, particularly concerning non-pitched percussion instruments. The findings are published in a recent issue of PLOS one.
Professor Leo Chou have received Acceleration Consortium Seed Grant funding for his research on building DNA origami as a delivery vehicle for therapeutic agents
Professor Omar F. Khan has been awarded the prestigious McCharles Prize for Early Career Research Distinction for his contributions to the fields of biomedical and immune engineering.
Researchers from UHN’s KITE Research Institute have investigated a new affordable and clinically accessible training system for improving the standing balance of spinal cord injury patients. The team led by Dr. Kei Masani, KITE Senior Scientist and senior author of the study, investigated the integration of low-cost and portable sensors like a depth camera and pressure mat, which use motion tracking and distribution of pressure, respectively, to analyze movement.
A study published in the Journal of Cell Science, led by Professor Penney Gilbert (BME) and Jo Nguyen at the University of Toronto, shed light on the impact of culture substrate stiffness and extracellular matrix (ECM) ligands on the contractility, proliferation, and various cellular processes of human myoblasts. The study aims to understand how these factors influence the regenerative activities of muscle stem cells and their progeny, with implications for aging and disease.
The latest research led by Prof. Jan Andrysek published in a peer-reviewed article showcases a pioneering approach to gait analysis, a crucial aspect of rehabilitation and clinical diagnosis. Clinicians have long relied on gait indicators like step length, stride velocity, and joint angles to assess and treat gait issues. However, traditional statistical methods have limitations in analyzing the vast sets of data generated by instrumented gait analysis techniques.
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