Position:  Assistant ProfessorPaul_O'Conor_headshot (002).jpg
Department:  Exercise and Health Sciences Division
Campus Address:  HP Building 1173
Phone:  989-774-1084
Alternate Phone:  989-774-3541
Email:  oconn2p@cmich.edu
Courses: 
HSC 220 - Basics in Health Fitness

Degrees and Universities

BSc: Dublin City University, Ireland

PhD: Dublin City University, Ireland


 

Research Area and Interests

My research examines the effects of acute and chronic exercise on the production of circulating microparticles, a potential novel marker of cardiovascular disease.  Microparticles are reported to be elevated in numerous disease states, however the effects of exercise on the production of microparticles is currently unclear.  Microparticles may play a role in disease prevention and exercise could advance this role.

Another element of my research has examined the role high-intensity interval training plays in improving aerobic fitness in both clinical and sporting populations compared to traditional low volume endurance training.  High-intensity interval training is a time efficient method of improving aerobic fitness in team sports, while maintaining speed and power, leaving more time for technical and tactical development.

I have been involved in research using technologies such as heart rate systems, metabolic systems, GPS, accelerometers, and Dartfish to analyse the physiological demands and movement patterns in Gaelic Games. The results are then used to inform best practice for training.

I have worked in a sport science support role for various individuals, teams and governing bodies including athletics, soccer and Gaelic Games.

Publications

Brendan Egan, David T. Ashley, Emmet Kennedy, Paul L. O’Connor, Donal J. O’Gorman. Higher rate of fat oxidation during rowing compared to cycling ergometer exercise across a range of exercise intensities. Scand J Med Sci Sports In press 2015

Egan B, O'Connor PL, Zierath JR, O'Gorman DJ. Time course analysis reveals gene-specific transcript and protein kinetics of adaptation to short-term aerobic exercise training in human skeletal muscle. PLoS ONE. 01/2013; 8(9):e74098. DOI: 10.1371/journal.pone.0074098

Egan B, Dowling P ,O'Connor PL, Henry M, Meleady P, Zierath JR, O'Gorman DJ. 2-D DIGE analysis of the mitochondrial proteome from human skeletal muscle reveals time course-dependent remodelling in response to 14 consecutive days of endurance exercise training. Proteomics. 2011, 11(8):1413-28.

MacEneaney OJ, Harrison M, O'Gorman DJ, Pankratieva EV, O'Connor PL, Moyna NM. Effect of prior exercise on postprandial lipemia and markers of inflammation and endothelial activation in normal weight and overweight adolescent boys.  Eur J Appl Physiol. 2009 Jul;106(5):721-9.

Harrison M, Murphy RP, O'Connor PL, O'Gorman DJ, McCaffrey N, Cummins PM, Moyna NM. The endothelial microparticle response to a high fat meal is not attenuated by prior exercise.  Eur J Appl Physiol. 2009, 106(4):555-62.