A Critical Pathway for Cardiac Defibrillators in Patients with Ischemic Cardiomyopathy

Providence Health Care has established a reputation as one of the leading centres for cardiology research and treatment in Canada. Medtronic of Canada is a major supplier of therapeutic cardiac equipment, technology and implantable devices, and works closely with Providence Healthcare to advance the science of cardiac treatment.

Determination of vessel wall shear stress in the cerebral vasculature using magnetic resonance imaging and computational fluid dynamics

Our project consists of a combination of magnetic resonance imaging (MRI) and numerical simulations to model the blood flow dynamics in major cerebral arteries. In doing so, we hope to determine the shear stresses that are inflicted on the vessel walls of the brain, which should correlate with the vessel’s ability to dilate in response to a vasoactive stimulus. This autoregulatory effect can be measured in terms of cerebrovascular reactivity and is shown to be a useful biomarker for cerebral disease.

Investigation of single nanoparticle properties by scanning probe microscopy and Raman spectroscopy

This project consists of two parts: the synthesis of a variety of nanoparticles using a technique we have developed recently, and the study of individual nanoparticles to examine their properties and polydispersity. Both parts carry major challenges and present unique opportunities for research. The eventual goal of our program is to be able to design nanomaterials with desirable properties in a controlled manner.

Non-human adenoviruses as vaccine delivery vehicles

Infectious diseases remain the major cause of death and economic losses in animals/humans. One way to reduce this is by vaccination. Unique and sophisticated biotechnology-based approaches are needed to produce safe, cost-effective, and highly efficacious vaccines. Potential benefits of these vaccines could include the induction of long lived immunity, ability to immunize newborns and induction of a broad spectrum of immune responses. One way to achieve this is to develop live viral vectored gene

Coil and Sequence Development for Metabolic Magnetic Resonance Imaging

Dynamic Nuclear Polarisation makes it possible to boost the MRI signal of 13C labelled pyruvate 10,000-fold, overcoming the low natural signal of carbon. This makes imaging of metabolic processes possible, and could provide useful insight on changes in cellular metabolism due to cancer.

Development and validation of a mathematical model of brain activity during deep brain stimulation in Parkinson's disease

Deep brain stimulation (DBS) consists in implanting electrodes delivering electric stimuli in deep brain structures to relieve motor symptoms of Parkinson's disease (PD). Even if DBS is successful in alleviating symptoms for about 50,000 patients worldwide, it is an invasive neurosurgical technique, and its mechanisms of action remain elusive. This therapy could be greatly improved by targeting the cortex, also impacted by DBS. However, a pre-requisite is to understand how cortical activity is impacted by DBS.

Prosthetic Communication software for individuals with special needs

My goal is to develop new approaches in speech technologies for physically or cognitively disadvantaged users. This includes applying the specialized automatic speech recognition (ASR) algorithms developed during my doctoral research into real-world tools for speakers with speech disorders. For example, I will develop software-assisted human-human interaction in which speech that is unintelligible because of physical disability is modified to produce a more comprehensible equivalent. This will involve acoustic transformations and speech recognition preprocessing.

Eltrombopag as a bridge to invasive procedures in patients with immune thrombocytopenia (ITP)

Immune thrombocytopenia (ITP) is a common blood disorder characterized by low platelet counts and an increased risk of bleeding. Many patients with ITP can be maintained with conventional therapies, but when an invasive procedure or surgery is planned, a short course of treatment is needed to rapidly increase platelet counts preoperatively so that dangerous bleeds can be prevented (termed ‘bridging’ therapy).

Design of a novel magnetoencephalograph-compatible tracking system for monitoring speech-related orofacial events

Individuals with speech problems face difficulties such as anxiety, poor socialization and poor literacy. Key to effective intervention and therapy is a better understanding of the brain activity associated with speech. Magnetoencephalography (MEG) is a new brain-imaging technology that, for the first time, allows researchers to monitor the fast-changing brain activity involved with speech. The challenge in using MEG for speech analysis is that existing speech-tracking systems introduce too much magnetic interference.