Search Results - Kavazis, A. N.
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Nitric oxide in exercise physiology: past and present perspectives
Mueller, B. J., Roberts, M. D., Mobley, C. B., Judd, R. L., Kavazis, A. N.Published in Frontiers in Physiology (2025)“…Kavazis, A. N.…”
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Skeletal muscle myosin heavy chain fragmentation as a potential marker of protein degradation in response to resistance training and disuse atrophy
Plotkin, D. L., Mattingly, M. L., Anglin, D. A., Michel, J. M., Godwin, J. S., McIntosh, M. C., Kontos, N. J., Bergamasco, J. G. A., Scarpelli, M. C., Angleri, V., Taylor, L. W., Willoughby, D. S., Mobley, C. B., Kavazis, A. N., Ugrinowitsch, C., Libardi, C. A., Roberts, M. D.Published in Experimental Physiology (2024)“…Kavazis, A. N.…”
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Human skeletal muscle mitochondrial adaptations following resistance exercise training
Parry, H. A., Roberts, M. D., Kavazis, A. N.Published in International Journal of Sports Medicine (2020)“…Kavazis, A. N.…”
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Skeletal muscle myofibrillar protein abundance is higher in resistance-trained men, and aging in the absence of training may have an opposite effect
Vann, C. G., Roberson, P. A., Osburn, S. C., Mumford, P. W., Romero, M. A., Fox, C. D., Moore, J. H., Haun, C. T., Beck, D. T., Moon, J. R., Kavazis, A. N., Young, K. C., Badisa, V. L. D., Mwashote, B. M., Ibeanusi, V., Singh, R. K., Roberts, M. D.Published in Sports (2020)“…Kavazis, A. N.…”
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Muscle fiber hypertrophy in response to 6 weeks of high-volume resistance training in trained young men is largely attributed to sarcoplasmic hypertrophy
Haun, C. T., Vann, C. G., Osburn, S. C., Mumford, P. W., Roberson, P. A., Romero, M. A., Fox, C. D., Johnson, C. A., Parry, H. A., Kavazis, A. N., Moon, J. R., Badisa, V. L. D., Mwashote, B. M., Ibeanusi, V., Young, K. C., Roberts, M. D.Published in PLOS ONE (2018)“…Kavazis, A. N.…”