Analysis of human chest wall motion using a two-compartment rib cage model

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Analysis of human chest wall motion using a two-compartment rib cage model

M. E. Ward, J. W. Ward and P. T. Macklem
Meakins-Christie Laboratories, McGill University Clinic, Royal Victoria Hospital, Montreal, Quebec, Canada.

We present a model of chest wall mechanics that extends the model described previously by Macklem et al. (J. Appl. Physiol. 55: 547-557, 1983) and incorporates a two-compartment rib cage. We divide the rib cage into that apposed to the lung (RCpul) and that apposed to the diaphragm (RCab). We apply this model to determine rib cage distortability, the mechanical coupling between RCpul and RCab, the contribution of the rib cage muscles to the pressure change during spontaneous inspiration (Prcm), and the insertional component of transdiaphragmatic pressure in humans. We define distortability as the relationship between distortion and transdiaphragmatic pressure (Pdi) and mechanical coupling as the relationship between rib cage distortion and the pressure acting to restore the rib cage to its relaxed configuration (Plink), as assessed during bilateral transcutaneous phrenic nerve stimulation. Prcm was calculated at end inspiration as the component of the pressure displacing RCpul not accounted for by Plink or pleural pressure. Prcm and Plink were approximately equal during quiet breathing, contributing 3.7 and 3.3 cmH2O on average during breaths associated with a change in Pdi of 3.9 cmH2O. The insertional component of Pdi was measured as the pressure acting on RCab not accounted for by the change in abdominal pressure during an inspiration without rib cage distortion and was 40 +/- 12% (SD) of total Pdi. We conclude that there is substantial resistance of the human rib cage to distortion, that, along with rib cage muscles, contributes importantly to the fall in pleural pressure over the costal surface of the lung.

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				P. T. Macklem A Century of the Mechanics of Breathing Am. J. Respir. Crit. Care Med., July 1, 2004; 170(1): 10 - 15. [Full Text] [PDF]

				G. B. Drummond The abdominal muscles in anaesthesia and after surgery Br. J. Anaesth., July 1, 2003; 91(1): 73 - 80. [Full Text] [PDF]

				B. Lanini, R. Bianchi, I. Romagnoli, C. Coli, B. Binazzi, F. Gigliotti, A. Pizzi, A. Grippo, and G. Scano Chest Wall Kinematics in Patients with Hemiplegia Am. J. Respir. Crit. Care Med., July 1, 2003; 168(1): 109 - 113. [Abstract] [Full Text] [PDF]

				B. Singh, J. A. Panizza, and K. E. Finucane Breath-by-breath measurement of the volume displaced by diaphragm motion J Appl Physiol, March 1, 2003; 94(3): 1084 - 1091. [Abstract] [Full Text] [PDF]

				A. Aliverti, G. Ghidoli, R. L. Dellaca, A. Pedotti, and P. T. Macklem Chest wall kinematic determinants of diaphragm length by optoelectronic plethysmography and ultrasonography J Appl Physiol, February 1, 2003; 94(2): 621 - 630. [Abstract] [Full Text] [PDF]

				C.-L. Que, C. Kolmaga, L.-G. Durand, S. M. Kelly, and P. T. Macklem Phonospirometry for noninvasive measurement of ventilation: methodology and preliminary results J Appl Physiol, October 1, 2002; 93(4): 1515 - 1526. [Abstract] [Full Text] [PDF]

				B. Singh, P. R. Eastwood, and K. E. Finucane Volume displaced by diaphragm motion in emphysema J Appl Physiol, November 1, 2001; 91(5): 1913 - 1923. [Abstract] [Full Text] [PDF]

				R. Chen, B. Kayser, S. Yan, and P. T. Macklem Twitch transdiaphragmatic pressure depends critically on thoracoabdominal configuration J Appl Physiol, January 1, 2000; 88(1): 54 - 60. [Abstract] [Full Text] [PDF]

				A. Sanna, F. Bertoli, G. Misuri, F. Gigliotti, I. Iandelli, M. Mancini, R. Duranti, N. Ambrosino, and G. Scano Chest wall kinematics and respiratory muscle action in walking healthy humans J Appl Physiol, September 1, 1999; 87(3): 938 - 946. [Abstract] [Full Text] [PDF]

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				M. de Perrot, A. Schweizer, A. Spiliopoulos, and M. Licker Early improvement of respiratory function after surgical plication for unilateral diaphragmatic paralysis Eur. J. Cardiothorac. Surg., February 1, 1998; 13(2): 206 - 208. [Abstract] [Full Text] [PDF]

				A. De Groote, M. Wantier, G. Cheron, M. Estenne, and M. Paiva Chest wall motion during tidal breathing J Appl Physiol, November 1, 1997; 83(5): 1531 - 1537. [Abstract] [Full Text] [PDF]

				C. M. Kenyon, S. J. Cala, S. Yan, A. Aliverti, G. Scano, R. Duranti, A. Pedotti, and P. T. Macklem Rib cage mechanics during quiet breathing and exercise in humans J Appl Physiol, October 1, 1997; 83(4): 1242 - 1255. [Abstract] [Full Text] [PDF]

				A. Aliverti, S. J. Cala, R. Duranti, G. Ferrigno, C. M. Kenyon, A. Pedotti, G. Scano, P. Sliwinski, P. T. Macklem, and S. Yan Human respiratory muscle actions and control during exercise J Appl Physiol, October 1, 1997; 83(4): 1256 - 1269. [Abstract] [Full Text] [PDF]

				I. Iandelli, A. Aliverti, B. Kayser, R. Dellaca, S. J. Cala, R. Duranti, S. Kelly, G. Scano, P. Sliwinski, S. Yan, et al. Determinants of exercise performance in normal men with externally imposed expiratory flow limitation J Appl Physiol, May 1, 2002; 92(5): 1943 - 1952. [Abstract] [Full Text] [PDF]

				A. Aliverti, I. Iandelli, R. Duranti, S. J. Cala, B. Kayser, S. Kelly, G. Misuri, A. Pedotti, G. Scano, P. Sliwinski, et al. Respiratory muscle dynamics and control during exercise with externally imposed expiratory flow limitation J Appl Physiol, May 1, 2002; 92(5): 1953 - 1963. [Abstract] [Full Text] [PDF]

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Analysis of human chest wall motion using a two-compartment rib cage model