Ventilatory responses to inspiratory threshold loading and role of muscle fatigue in task failure

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Ventilatory responses to inspiratory threshold loading and role of muscle fatigue in task failure

P. R. Eastwood, D. R. Hillman and K. E. Finucane
Department of Pulmonary Physiology, Sir Charles Gairdner Hospital, Nedlands, Australia.

To examine respiratory muscle recruitment pattern during inspiratory loading and role of fatigue in limiting endurance, we studied seven normal subjects on 17 +/- 6 days during breathing against progressive inspiratory threshold load. Threshold pressure (Pth) was progressively increased 14 +/- 5 cmH2O every 2 min until voluntary cessation (task failure). Subjects could adopt any breathing pattern. Tidal volume (VT), chest wall motion, end-tidal PCO2, and arterial O2 saturation were measured. At moderate loads [50-75% of maximum Pth (Pthmax)], inspiratory time (TI) decreased and VT/TI and expiratory time increased, increasing time for recovery of muscles between inspirations. At high loads (> 75% Pthmax), VT/TI decreased, which, with progressive decrease in end-expiratory lung volume (EELV) throughout, increased potential for inspiratory force development. Progressive hypoxia and hypercapnia occurred at higher work loads. Immediately after task failure all subjects could recover at high loads and still reachieve initial Pthmax on reimposition of progressive loading. Respiratory pressures were measured in subgroup of three subjects: transdiaphragmatic pressure response to 0.1-ms bilateral supramaximal phrenic nerve stimulation at end expiration initially increased with increasing load/decreasing EELV, consistent with increasing mechanical advantage of diaphragm, but decreased at highest loads, suggesting diaphragm fatigue. Full recovery had not occurred at 30 min after task failure. We demonstrated that progressive threshold loading is associated with systematic changes in breathing pattern that act to optimize muscle strength and increase endurance. Task failure occurred when these compensatory mechanisms were maximal. Inspiratory muscles appeared relatively resistant to fatigue, which was late but persistent.

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				K. E. Finucane, J. A. Panizza, and B. Singh Efficiency of the normal human diaphragm with hyperinflation J Appl Physiol, October 1, 2005; 99(4): 1402 - 1411. [Abstract] [Full Text] [PDF]

				F. Laghi, W. E. Langbein, A. Antonescu-Turcu, A. Jubran, C. Bammert, and M. J. Tobin Respiratory and Skeletal Muscles in Hypogonadal Men with Chronic Obstructive Pulmonary Disease Am. J. Respir. Crit. Care Med., March 15, 2005; 171(6): 598 - 605. [Abstract] [Full Text] [PDF]

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				N Hart, M T Kearney, N B Pride, M Green, F Lofaso, A M Shah, J Moxham, and M I Polkey Inspiratory muscle load and capacity in chronic heart failure Thorax, June 1, 2004; 59(6): 477 - 482. [Abstract] [Full Text] [PDF]

				J. A. Simpson, J. Van Eyk, and S. Iscoe Respiratory muscle injury, fatigue and serum skeletal troponin I in rat J. Physiol., February 1, 2004; 554(3): 891 - 903. [Abstract] [Full Text] [PDF]

				G. Sturdy, D. Hillman, D. Green, S. Jenkins, N. Cecins, and P. Eastwood Feasibility of High-Intensity, Interval-Based Respiratory Muscle Training in COPD Chest, January 1, 2003; 123(1): 142 - 150. [Abstract] [Full Text] [PDF]

				ATS/ERS Statement on Respiratory Muscle Testing Am. J. Respir. Crit. Care Med., August 15, 2002; 166(4): 518 - 624. [Full Text] [PDF]

				N. Hart, P. Hawkins, C-H. Hamnegard, M. Green, J. Moxham, and M.I. Polkey A novel clinical test of respiratory muscle endurance Eur. Respir. J., February 1, 2002; 19(2): 232 - 239. [Abstract] [Full Text] [PDF]

				A Ramirez-Sarmiento, M Orozco-Levi, E Barreiro, R Mendez, A Ferrer, J Broquetas, and J Gea Expiratory muscle endurance in chronic obstructive pulmonary disease Thorax, February 1, 2002; 57(2): 132 - 136. [Abstract] [Full Text] [PDF]

				S. C. Gandevia Spinal and Supraspinal Factors in Human Muscle Fatigue Physiol Rev, October 1, 2001; 81(4): 1725 - 1789. [Abstract] [Full Text] [PDF]

				S. Yan and J. H.�T. Bates Breathing responses to small inspiratory threshold loads in humans J Appl Physiol, March 1, 1999; 86(3): 874 - 880. [Abstract] [Full Text] [PDF]

				P.�R. EASTWOOD, D.�R. HILLMAN, A.�R. MORTON, and K.�E. FINUCANE The Effects of Learning on the Ventilatory Responses to Inspiratory Threshold Loading Am. J. Respir. Crit. Care Med., October 1, 1998; 158(4): 1190 - 1196. [Abstract] [Full Text] [PDF]

				F. Laghi, A. Topeli, and M. J. Tobin Does resistive loading decrease diaphragmatic contractility before task failure? J Appl Physiol, September 1, 1998; 85(3): 1103 - 1112. [Abstract] [Full Text] [PDF]

				J. D. Road and A. M. Cairns Phrenic motoneuron firing rates before, during, and after prolonged inspiratory resistive loading J Appl Physiol, September 1, 1997; 83(3): 776 - 783. [Abstract] [Full Text] [PDF]

				D. K. McKenzie, G. M. Allen, J. E. Butler, and S. C. Gandevia Task failure with lack of diaphragm fatigue during inspiratory resistive loading in human subjects J Appl Physiol, June 1, 1997; 82(6): 2011 - 2019. [Abstract] [Full Text] [PDF]

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Ventilatory responses to inspiratory threshold loading and role of muscle fatigue in task failure