All courses for every first-year Science student will be delivered online this fall. A limited number of students in their second, third and fourth years will return to campus for part of the semester.
Generally, my interests involve understanding the mechanisms of skeletal muscle adaptation and repair to exercise and injury. We focus primarily on skeletal muscle progenitor cells and their role in remodelling of tissue. Additionally, we focus on how muscle progenitor cells fails in aging and examine strategies to rejuvenate the muscle progenitor response to injury and exercise in older adults.
Parise G., McKinnell I., and MA Rudnicki. Adult muscle stem cells are not recruited following acute exercise. Appl. Physiol. Nutr. Metab. In review. 2006.
Parise G., O’Reilly CE., and MA Rudnicki. Molecular regulation of myogenic progenitor populations. Appl. Physiol. Nutr. Metab. In press. 2006.
McInnell, I., Parise, G., and MA Rudnicki. Origin, specification and regenerative potential of adult muscle stem cells. Current Trends in Developmental Biology. 2005.
Parise, G., Phillips SM., Kaczor, JJ., and MA Tarnopsolsky. Antioxidant enzyme activity is up-regulated following unilateral resistance-exercise training in older adults. Free Radical Biology and Medicine. In Review. 2005.
Parise G., Kaczor, JJ., Mahoney, DJ., Phillips, SM., and MA Tarnopolsky. Oxidative stress and the mitochondrial theory of aging in human skeletal muscle. Experimental Gerontology.39(9). 1391-400. 2004.
Parise, G., Brose, AN., and MA Tarnopolsky. Resistance exercise-training decreases oxidative damage to DNA and increases cytochrome oxidase activity in older adults. Experimental Gerontology. In Press. 2004.