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
Olver TD, Grisé KN, McDonald MW, Dey A, Allen MD, Rice CL, Lacefield JC, Melling CWJ, Noble EG & Shoemaker JK. (2014). The Relationship between Blood Pressure and Sciatic Nerve Blood Flow in Rats with 2 Insulin-Treated Experimental Diabetes. Diab Vasc Dis Res. May 22, 11(4), 281-289.
McDonald MW, Murray MR, Hall KE, Noble EG & Melling CW. (2014). Morphological assessment of pancreatic islet hormone content following aerobic exercise training in rats with poorly controlled Type 1 Diabetes mellitus. Islets. May 15, 6. doi: 10.4161/isl.29221
Olver TD, McDonald MW, Grisé KN, Dey AD, Allen MD, Medeiros PJ, Lacefield JC, Jackson DN, Rice CL Melling CWJ, Noble EG & Shoemaker JK. (2014). Exercise training enhances insulin-stimulated nerve vasodilation in rats with insulin-treated experimental diabetes. Am J Physiol Regul Integr Comp Physiol. Jun 15, 306(12), R941-50.
Noble EG, Melling CWJ, Shoemaker K, Tikkanen H, Peltonen J, Stuckey M & Petrella RJ. (2013). Innovation to Reduce Cardiovascular Complications of Diabetes at the Intersection of Discovery, Prevention and Knowledge Exchange. Can J Diabetes, 37, 282-293.
Tompkins R, Melling CWJ, Wilson TD & Shoemaker JK. (2013). Arrangement of sympathetic fibres within the human common peroneal nerve: Implications for microneurography. J Appl Physiol (1985). Nov, 115(10), 1553-61.