Master of Science (MSc)
Doctor of Philosophy (PhD)
- medical professional (MD)
- biomedical research
- academia (faculty member)
- occupational therapy
- pharma drug representative
Cardio-Vascular Stress Response
The Cardio-Vascular Stress Response Lab (CVSRL) works to understand the characteristics of the endothelial response to changes in blood flow and how this can be applied to understand and prevent pathological changes in vascular function.
Visit the Cardiovascular Stress Response Research Lab website
Particular emphasis is placed on the study of aerobic and anaerobic metabolism and cardiorespiratory functions. Course work deals with the effects of different types and quantities of exercise, the influence of varying environmental conditions (attitude, heat, cold exposure), and the effects of growth, aging, hereditary factors, nutritional status and disease on exercise responses and adaptations. Current methodologies for the assessment of human metabolism, muscle biochemistry, and cardiorespiratory functions during exercise are emphasized.
Human Vascular Control
To understand the nature of mechanisms controlling blood vessels involved in adjusting exercising muscle blood flow (and thereby oxygen delivery), how disturbances and disease affect this control, and how exercise training can restore/improve this control.
To understand the mechanisms by which both different intensities and different types of exercise improve mitochondrial function in healthy, overweight/obese and diseased populations.
Visit the Muscle Physiology Lab website
In general, research conducted within the School of Kinesiology and Health Studies has involved the study of exercising human subjects, although opportunities for animal research are available via collaboration with other Queen's University units. Research directions of faculty members in the various areas of exercise physiology include mechanisms of cardiovascular control and autonomic nervous functions under different acute and chronic conditions; chronic exercise effects on cardiac anatomy and function; effects of varying treatments (i.e. diet and/or exercise) on lipid and carbohydrate metabolism; and the effects of pregnancy on physiological responses to acute and chronic exercise.
Eligible students are required to apply to the Ontario Graduate Scholarships (OGS) program; the CGSM Master's Tri-Council Funding (CIHR/NSERC) or Tri-Council Doctoral Funding; and other external agencies that fund graduate students.
Collaborative research which involves other biomedical departments at Queen's University is encouraged. Recent master's thesis projects have included research from the Department of Medicine, the School of Rehabilitation Therapy, the School of Nursing, the Division of Cardiology, and the Department of Obstetrics and Gynecology.
- medical professional
- biomedical research
- health team project leader