Airway narrowing and internal structural constraints

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Airway narrowing and internal structural constraints

Chun Y. Seow¹, Lu Wang¹^,², and Peter D. Paré²

¹ Department of Anatomy and Department of Pharmacology and Therapeutics, University of British Columbia, Vancouver V6T 1Z3; and ² Pulmonary Research Laboratory, St. Paul's Hospital, University of British Columbia, Vancouver, British Columbia, Canada V6Z 1Y6

A computer model has been developed to simulate the movement restriction in the lamina propria-submucosa (L-S) layer (sandwichedby the basement membrane and the muscle layer) in a cartilage-freeairway due to constriction of the smooth muscle layer. It is assumedthat the basement membrane is inextensible; therefore, in thetwo-dimensional simulation, the perimeter outlining the membraneis a constant whether the airway is constricted or dilated. Thecross-sectional area of the L-S layer is also assumed to be constantduring the simulated airway narrowing. Folding of the mucosalmembrane in constricted airways is assumed to be a consequenceof the L-S area conservation and also due to tethering betweenthe basement membrane and the muscle layer. The number of tethersdetermines the number of folds. The simulation indicates thatthe pressure in the L-S layer resulting from movement restrictioncan be a major force opposing muscle contraction and that themaximum shortening of the muscle layer is inversely proportionalto the number of tethers (or folds) and the L-S layerthickness.

basement membrane; radial tethers; mucosal folding

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				K. S. Kott, K. E. Pinkerton, J. M. Bric, C. G. Plopper, K. P. Avadhanam, and J. P. Joad Methacholine responsiveness of proximal and distal airways of monkeys and rats using videomicrometry J Appl Physiol, March 1, 2002; 92(3): 989 - 996. [Abstract] [Full Text] [PDF]

				D. J. TSCHUMPERLIN and J. M. DRAZEN Mechanical Stimuli to Airway Remodeling Am. J. Respir. Crit. Care Med., November 15, 2001; 164(10): S90 - 94. [Abstract] [Full Text] [PDF]

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