Poulsen, M. K., Rees, S. E., Hansen, J, Stevenson, A. J. T., Kjærgaard, S, Volta, C. A., Spadaro, S & Karbing, D. S. (2023). Inspiratory pressure waveform influences time to failure, respiratory muscle fatigue, and metabolism during resistive breathing. Physiological Reports, 11 (9), e15668. Zugriff am 12.08.2023 unter https://doi.org/10.14814/phy2.15668
APA-Zitierstil (7. Ausg.)Poulsen, M. K., Rees, S. E., Hansen, J., Stevenson, A. J. T., Kjærgaard, S., Volta, C. A., . . . Karbing, D. S. (2023). Inspiratory pressure waveform influences time to failure, respiratory muscle fatigue, and metabolism during resistive breathing. Physiological Reports, 11(9), e15668.
Chicago-Zitierstil (17. Ausg.)Poulsen, M. K., S. E. Rees, J. Hansen, A. J. T. Stevenson, S. Kjærgaard, C. A. Volta, S. Spadaro, und D. S. Karbing. "Inspiratory Pressure Waveform Influences Time to Failure, Respiratory Muscle Fatigue, and Metabolism During Resistive Breathing." Physiological Reports 11, no. 9 (2023): e15668.
MLA-Zitierstil (9. Ausg.)Poulsen, M. K., et al. "Inspiratory Pressure Waveform Influences Time to Failure, Respiratory Muscle Fatigue, and Metabolism During Resistive Breathing." Physiological Reports, vol. 11, no. 9, 2023, p. e15668.