Magnetic resonance imaging (MRI) is an imagig modality which can visualize the internal structure of the human body and is free of radiation. In this project, we would like to write a multi-functional and robust MRI software package using ultrashort echo time (UTE) technique to realize the imaging of the tissues, such as tendons, ligaments […]

Currently available diagnostic imaging tools, such as chest radiography and computed tomography, are inadequate for assessing the lungs of preterm neonates. There is considerable interest in using magnetic resonance imaging (MRI) to monitor lung development in neonates longitudinally, since it is a non-invasive and non-ionizing imaging modality. MRI can potentially detect complications at an early […]

The project aims to translate developments in ultra-sensitive MRI sensors to a clinically-relevant setting. To create high-sensitivity sensors for better images, we aim to create a tight-fitting system which places the sensors—akin to antennas—closer to the brain. This will improve the quality of the signals that we can extract from the brain, and allow us […]

Magnetic resonance imaging (MRI) is an imaging modality which can visualize the internal structure of the human body and is free of radiation. In this project, we would like to write a multi-functional and robust MRI software package using ultrashort echo time (UTE) technique to realize the imaging of the tissues, such as tendons, ligaments, […]

Currently available medical imaging tools, such as x-rays, are inadequate for assessing the lungs of preterm neonates. There is considerable interest in using magnetic resonance imaging (MRI) to monitor lung development in neonates longitudinally, since it is a non-invasive and non-ionizing imaging modality. MRI can potentially detect complications at an early stage and improve outcomes […]

Funds are requested for one fellow to work in the laboratory of Dr. Simon Graham at Sunnybrook Research Institute, Toronto, in partnership with Siemens Healthcare Limited. The fellow will work on development of prototype instrumentation that will enable a technique called “parallel radiofrequency transmission (PTX)” to be implemented flexibly for research purposes on a Siemens […]

Minimally invasive techniques are used for a wide variety of procedures in the diagnosis and treatment of cancer. Many procedures require insertion of a needle along a straight-line path to the site of the disease. Real-time magnetic resonance (MR) imaging offers the means to visualize the needle relative to a small target lesion and avoid […]

This project aims to assess how the use of the novel “ultra-short echo-time” (UTE) MR imaging technology can “add value to” conventional MRI for detection and quantification of blood products in hemophilic joints. We will test this novel technology in joints of hemophilic patients with different stages of arthropathy presenting with blood products at different […]