Associate Professor Samuel Grant presents from Florida State University
Unfortunately, we have to cancel the upcoming Anomalous Relaxation and Diffusion Study Group Webinar which was scheduled for 1 October 2020, 9:00 PM Brisbane AEST (1 October 2020, 12 noon BST; 1 October 2020, 6:00 AM CDT).
We apologise for the inconvenience and hope you can join us for the next ARDS group meeting on 15 October 2020 (details to come).
Visit the Study Group webpage for full details and registration.
Associate Professor Samuel Grant's research laboratory at Florida State University is focused on the development of high resolution techniques to investigate the biophysical origins of MR signals under a variety of perturbations. His lab utilises high magnetic fields to achieve high sensitivity and spatial/ spectral resolution on specimen ranging from single isolated neurons to fixed neurological tissues (brains and spinal cords) to in vivo animal models. In particular, he employs high fields MR microscopy to examine neurodegenerative diseases such as amyotrophic lateral sclerosis, Alzheimer's disease and stroke.
His laboratory is actively involved in MR sequence development, modeling of cellular compartmentalization & function and Radio Frequency coil design. In addition, they are interrogating new and emerging contrast mechanisms at high field. These efforts include endogenous (e.g. magnetic susceptibility and dipolar fields) and exogenous (e.g. nanoparticle agents and current density imaging) contrasts that may provide new insights into the biophysical changes that occur during pathology or regeneration.
About Webinars: Anomalous Relaxation and Diffusion Study Group
Associate Professor Viktor Vegh and a group of international collaborators have set up the Anomalous Relaxation and Diffusion Study Group. The Study Group meets fortnightly via Zoom for a 30-40 minutes live presentation followed by a 20-30 minutes discussion.
If you have an interest in using mathematical models for probing tissue microstructure and constituents, or just in using models for extracting novel information from biologically relevant data, then you may wish to join the Study Group to keep up to date with recent activities within this area.
Visit the Study Group page for more information and to register for upcoming talks:
Anomalous Relaxation and Diffusion Study Group
We look forward to you joining us.