BFR & IPC for Performance, Rehab, and Health w/ Jamie Burr, PhD


Manage episode 291508305 series 2407587
By Owens Recovery Science and Johnny Owens. Discovered by Player FM and our community — copyright is owned by the publisher, not Player FM, and audio is streamed directly from their servers. Hit the Subscribe button to track updates in Player FM, or paste the feed URL into other podcast apps.
In this episode Johnny and Kyle chat with Dr. Jamie Burr, Director of the Human Performance & Health Research Laboratory at the University of Guelph. During this podcast we discuss Dr. Burr and his lab’s work centering on ischemic preconditioning, and blood flow restriction exercise and how it can be used to address the exercise needs of the elite level athlete to person’s managing chronic disease like diabetes. We’re certain you’ll enjoy this chat! Here’s some of the information we discussed during the podcast: Pignanelli, C., Christiansen, D., & Burr, J. F. (2021). Blood flow restriction training and the high-performance athlete: science to application. Journal of Applied Physiology. Bjørnsen, T., Wernbom, M., Kirketeig, A., Paulsen, G., Samnøy, L., Bækken, L., Cameron-Smith, D., Berntsen, S., & Raastad, T. (2018). Type 1 Muscle Fiber Hypertrophy after Blood Flow-restricted Training in Powerlifters. Medicine and Science in Sports and Exercise. Ferguson, R. A., Mitchell, E. A., Taylor, C. W., Bishop, D. J., & Christiansen, D. (2021). Blood-flow-restricted exercise: Strategies for enhancing muscle adaptation and performance in the endurance-trained athlete. Experimental Physiology. Morley, W. N., Coates, A. M., & Burr, J. F. (2020). Cardiac autonomic recovery following traditional and augmented remote ischemic preconditioning. European Journal of Applied Physiology. Petrick, H. L., Pignanelli, C., Barbeau, P.-A., Churchward-Venne, T. A., Dennis, K. M. J. H., van Loon, L. J. C., Burr, J. F., Goossens, G. H., & Holloway, G. P. (2019). Blood flow restricted resistance exercise and reductions in oxygen tension attenuate mitochondrial H2 O2 emission rates in human skeletal muscle. The Journal of Physiology. Dr. Burr discussing the work his lab does: Cheung, C. P., Slysz, J. T., & Burr, J. F. (2019). Ischemic Preconditioning: Improved Cycling Performance Despite Nocebo Expectation. International Journal of Sports Physiology and Performance, 1–22. Jean-St-Michel, E., Manlhiot, C., Li, J., Tropak, M., Michelsen, M. M., Schmidt, M. R., McCrindle, B. W., Wells, G. D., & Redington, A. N. (2011). Remote preconditioning improves maximal performance in highly trained athletes. Medicine and Science in Sports and Exercise, 43(7), 1280–1286. Crisafulli, A., de Farias, R. R., Farinatti, P., Lopes, K. G., Milia, R., Sainas, G., Pinna, V., Palazzolo, G., Doneddu, A., Magnani, S., Mulliri, G., Roberto, S., & Oliveira, R. B. (2018). Blood Flow Restriction Training Reduces Blood Pressure During Exercise Without Affecting Metaboreflex Activity. Frontiers in Physiology, 9, 1736.

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