Jamie Melling, PhD
School of Health Studies; School of Kinesiology
Room 221, HSB
519 661-2111 x85374
- BSc, MSc, PhD (Western University)
Supervising Graduate Students
- Roles and mechanisms of intracellular molecular signaling pathways in the development of cardiovascular disease/complications associated with Type I diabetes
- Neurological influence of adrenergic signaling in the expression of stress-related cardioprotective proteins in the heart and vasculature
- Cellular mechanisms involved in exercise-related reductions in glycemia in Type 1 diabetes
- The American Diabetes Association
- The American Physiology Society
- Canadian Society of Exercise Physiology
- Systemic approaches to functional anatomy
- Diabetes, metabolism and exercise
- High-intensity endurance training results in faster vessel-specific rate of vasorelaxation in type 1 diabetic rats. Murias JM, Dey A, Campos OA, Estaki M, Hall KE, Melling CW, Noble EG. PLoS One.
- The role of resistance and aerobic exercise training on insulin sensitivity measures in STZ-induced Type 1 diabetic rodents. Hall KE, McDonald MW, Grisé KN, Campos OA, Noble EG, Melling CW. Metabolism. 2013 Jun 27.
- A model of poorly controlled type 1 diabetes mellitus and its treatment with aerobic exercise training. Melling CW, Grisé KN, Hasilo CP, Fier B, Milne KJ, Karmazyn M, Noble EG. Diabetes Metab. 2013 May;39(3):226-35.
- Acute endurance exercise induces changes in vasorelaxation responses that are vessel-specific.Murias JM, Grise KN, Jiang M, Kowalchuk H, Melling CW, Noble EG.Am J Physiol Regul Integr Comp Physiol. 2013 Apr 1;304(7):R574-80.
- Vessel-specific rate of vasorelaxation is slower in diabetic rats. Murias JM, Campos OA, Hall KE, McDonald MW, Melling CW, Noble EG. Diab Vasc Dis Res. 2013 Mar;10(2):179-86.