Mechanical properties of the tracheal mucosal membrane in the rabbit. II. Morphometric analysis

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J Appl Physiol 88: 1022-1028, 2000;
8750-7587/00 $5.00

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Vol. 88, Issue 3, 1022-1028, March 2000

Mechanical properties of the tracheal mucosal membrane in the rabbit. II. Morphometric analysis

Lu Wang¹^,², Kenneth L. Pinder¹, Joel L. Bert¹, Mitsushi Okazawa², and Peter D. Paré²

¹ Department of Chemical and Bio-Resource Engineering, University of British Columbia, Vancouver V6T 1Z4; and ² Pulmonary Research Laboratory, St. Paul's Hospital, University of British Columbia, Vancouver, British Columbia, Canada V6Z 1Y6

Folding of the airway mucosal membrane provides a mechanical load that impedes airway smooth muscle contraction. Mechanicaltesting of rabbit tracheal mucosal membrane showed that the membraneis stiffer in the longitudinal than in the circumferential directionof the airway. To explain this difference in the mechanical properties,we studied the morphological structure of the rabbit trachealmucosal membrane in both longitudinal and circumferential directions.The collagen fibers were found to form a random meshwork, whichwould not account for differences in stiffness in the longitudinaland circumferential directions. The volume fraction of the elasticfibers was measured using a point-counting technique. The orientationof the elastic fibers in the tissue samples was measured usinga new method based on simple geometry and probability. The resultsshowed that the volume fraction of the elastic fibers in the rabbittracheal mucosal membrane was ~5% and that the elastic fiberswere mainly oriented in the longitudinal direction. Age had nostatistically significant effect on either the volume fractionor the orientation of the elastic fibers. Linear correlationswere found between the steady-state stiffness and the quantityof the elastic fibers oriented in the direction oftesting.

elastin; collagen; imaging analysis

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