Search Results - Comparative Exercise Physiology

Wu, J., Xu, K., Yin, M., Ding, X., Wang, T., Zhang, Q., Wu, X., Xiao, N.

Micke, F., Mühlenhoff, S., Swoboda, A., Held, S.

Smith, E. S., Kuikman, M., Rusell, S., Gardiner, C. L., Halson, S. L., Stellingwerff, T., Harris, R., McKay, A. K. A., Burke, L. M.

Pirlot, T., Baron, B., Scholler, V., Grappe, F., Pageaux, B., Groslambert, A. “…Professionals trained 795 (120) h·y-1, compared with 388 (202) h·y-1 for nationals. Exercise intensities were determined using individualized PO values, with participants` self-regulating treadmill velocity via real-time feedback. …”

Yu, S., Zhou, S., Peng, D., Jie, D.

Whitfield, J., McKay, A. K. A., Tee, N., McCormick, R., Morabito, A., Karagounis, L. G., Fouassier, A. M., D`Amico, D., Singh, A., Burke, L. M., Hawley, J. A. “…Results: Running performance (3000 m time trial) was not significantly improved in either treatment group (UA; p = 0.116, PL; p = 0.771), although UA supplementation significantly lowered ratings of perceived exertion (RPE, p = 0.02) and reduced indirect markers of post-exercise muscle damage (CK, total area under the curve p < 0.0001) following the 3000 m time trial compared with PL. …”

Mølmen, K. S., Odden, I., Sørensen, M. D., Rustaden, A. M., Hammarström, D., Hansen, J., Nygaard, H., Hamarsland, H., Rønnestad, B. R. “…Purpose This study compared the physiological effects of a moderate-intensity interval training (MIT) microcycle followed by an active recovery period (collectively termed MITblock) with a time-matched regular training period (REG) during the general preparation phase in well-trained cyclists. …”

Solem, K., Clauss, M., Jensen, J.

Masur, L., Willenbockel, H. F., Cordes, T., Sperlich, B., Düking, P. “…Purpose Infrared thermography can be used to investigate the kinetics of thermoregulatory processes during exercise. The kinetics of the thermal contrast index (TCI), associated with activated perforasomes, and correlation with selected cardiovascular, metabolic, and subjective parameters have not been investigated during exercise. …”

Pérez-Díaz, J. J., Benítez, I., Salas-Montoro, J. A., Zabala, M., Sanabria, D.

Donaldson, J. A., Wiles, J. D., Papadakis, M., Sharma, S., Sharma, R., O'Driscoll, J. M.

Sendra-Pérez, C.

Solana-Tramunt, M., Bofill-Ródenas, A.

Appelhans, D., Rønnestad, B., Skovereng, K. “…In previous studies comparing different interval protocols for high-intensity interval training, large differences in time above 90% of maximal oxygen consumption (VO2max) have been observed. …”

Li, S. N., Peeling, P., Budden, T., Simpson, A., Scott, B. R., Peiffer, J. J., Shaykevich, A., Girard, O. “…Conclusion: Despite comparable physiological responses during HR-clamped cycling, hypoxia severity influenced selected perceived sensations (ie, difficulty focusing, difficulty breathing, and light-headedness). …”

Sumi, D., Takii, Y., Abe, S., Sakaguchi, M. “…Purpose: Although it is anecdotally believed that fluctuating running speed during competition has a negative impact on running performance, its influence on physiological strain remains unclear. Therefore, the purpose of the present study was to determine the effect of fluctuating running speed during 10-km running on physiological strain compared with constant running speed. …”

Jardine, W. T., Condo, D., Aisbett, B., Ross, M. L., Burke, L. M., Durkalec-Michalski, K., Abbott, G., Périard, J. D., Carr, A. J.

Sánchez-Jiménez, J. L., Salas-Montoro, J.-A., Mateo-March, M., Priego-Quesada, J. I., Zabala, M., Pérez-Díaz, J.-J.

Brady, A. J., Moynagh, M. B., Devenney, S., Egan, B.

Ranieri, L. E., Casado, A., Martin, D., Trujillo-Colmena, D., Gil-Arias, A., Kenneally, M., Jiménez, A.