Mechanical state of airway smooth muscle at very short lengths

doi:10.1152/japplphysiol.00388.2003

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J Appl Physiol 96: 655-667, 2004. First published October 31, 2003; doi:10.1152/japplphysiol.00388.2003
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Mechanical state of airway smooth muscle at very short lengths

Richard A. Meiss¹ and Ramana M. Pidaparti²

¹Departments of Obstetrics and Gynecology and Cellular and Integrative Physiology, Indiana University School of Medicine, and ²Department of Mechanical Engineering, Purdue School of Engineering and Technology, Indiana University-Purdue University Indianapolis, Indianapolis, Indiana 46202

Submitted 18 April 2003 ; accepted in final form 24 October 2003

Although the shortening of smooth muscle at physiological lengthsis dominated by an interaction between external forces (loads)and internal forces, at very short lengths, internal forcesappear to dominate the mechanical behavior of the active tissue.We tested the hypothesis that, under conditions of extreme shorteningand low external force, the mechanical behavior of isolatedcanine tracheal smooth muscle tissue can be understood as astructure in which the force borne and exerted by the crossbridge and myofilament array is opposed by radially disposedconnective tissue in the presence of an incompressible fluidmatrix (cellular and extracellular). Strips of electricallystimulated tracheal muscle were allowed to shorten maximallyunder very low afterload, and large longitudinal sinusoidalvibrations (34 Hz, 1 s in duration, and up to 50% of the musclelength before vibration) were applied to highly shortened (active)tissue strips to produce reversible cross-bridge detachment.During the vibration, peak muscle force fell exponentially withsuccessive forced elongations. After the episode, the muscleeither extended itself or exerted a force against the tensiontransducer, depending on external conditions. The magnitudeof this effect was proportional to the prior muscle stiffnessand the amplitude of the vibration, indicating a recoil of strainedconnective tissue elements no longer opposed by cross-bridgeforces. This behavior suggests that mechanical behavior at shortlengths is dominated by tissue forces within a tensegrity-likestructure made up of connective tissue, other extracellularmatrix components, and active contractile elements.

tensegrity; isotonic shortening; length-tension curve; muscle mechanics

Address for reprint requests and other correspondence: R. A. Meiss, Indiana Univ. School of Medicine, Dept. of Obstetrics and Gynecology, IB 356, 975 West Walnut St., Indianapolis, IN 46202 (E-mail: igeq100{at}iupui.edu).

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