Meghan Ramick

Meghan Ramick
  • Associate Professor
  • Department: Kinesiology
  • Institution: West Chester University of Pennsylvania
  • Email: MRAMICK@wcupa.edu

Education

  • Doctor of Philosophy- Applied Physiology, University of Delaware, Newark, De 2017
  • Bachelor of Science- Biochemistry, University of Delaware, Newark, De 2006

Research Interests

ergogenic aids, exercise performance, disparities in healthcare, yoga, simulation, experiential education

Opportunities

Work Study Positions Available: No

Grant Funded Positions Available: No

Course-Credit Research Opportunities Available: No

Volunteer Research Positions Available: No

Biography

My goal as a professor is to facilitate my students' learning and application of the fundamentals of clinical exercise physiology that they will use in their future careers with an emphasis on the prevention and diagnosis of cardiovascular disease and interventions that improve human health. I achieve this goal by integrating case studies and recent research to promote student application of lecture material, and flipping the classroom to encourage interactive discussion. While pursuing a degree in the exercise science field, students in my classes become immersed in the study of the cardiovascular system and leave with the tools to apply these concepts to their future careers.

Contact Information

Phone: 610-436-2425

List of Publications

  • Kirkman, DL, Ramick, MG, Muth, BJ, Stock, JM, Pohlig, RT, Townsend, RT, Edwards, DG. The effects of aerobic exercise on vascular function in non-dialysis chronic kidney disease: A randomized control trial. Am J Physiol Renal 2019. Kirkman DL, Muth, BJ, Ramick, MG, Townsend, RR, Edwards, DG. The role of mitochondria derived reactive oxygen species in microvascular dysfunction in chronic kidney disease. Am J Physiol Renal. 2018 314(3): F423-F429 Matthews, EL, Brian, MS, Ramick, MG, Lennon-Edwards, S, Edwards, DG, Farquhar, WB. High dietary sodium reduces flow-mediated dilation in humans with salt sensitive and salt resistant blood pressure. J Appl Physiol. 2015. 118(12):1510-5 Lennon-Edwards, S, Ramick, MG, Matthews, EL, Brian, MS, Farquhar, WB, Edwards, DG. Salt loading has a more deleterious effect on flow-mediated dilation in salt-resistant men than women. Nutr Metab Cardiovasc Disc. 2014. 24(9): 990-5 DuPont, JJ, Ramick, MG, Farquhar, WB, Townsend, RR, Edwards, DG. NAD(P)H oxidase-derived superoxide contributes to impaired cutaneous microvascular function in chronic kidney disease. Am J Physiol Renal. 2014. 306(12) F1499-506

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