Organization of collagen and elastic fibers studied in stretch preparations of whole mounts of human visceral pleura.

Fibers of the collagenous and elastic systems are most relevant in the double mechanical action of visceral pleura (VP), i.e. volume limitation and the generation of elastic recoil pressure. In this work we studied the organization of these fibrous components of VP in two situations: normal lungs and bullous disease. We employed histochemical methods on conventional histological slides and on thin spreads of whole mounts of visceral pleura. In addition, the scanning electron microscope was also used. According to our results, pleural function is made possible by the combination of both the elastic and collagenous fiber systems, each one having as intrinsic organizational pattern. Marked alterations of pleural bullous structure are observed with changes in lung volume. Fibers of the elastic and collagenous systems are clearly interdependent elements. Collagenous fibers are interwoven in a plaited structure that closely resembles the osiers of a wicker basket, indicating that collagen fibers allow for lung volume increase up to a point of maximal stretching of the system. The pleural contribution to lung elastic recoil pressure originates from the elastic network which turns back to its resting position when inspiratory pressures are negligible. The pleural immobility in bullous disease is associated with an almost complete absence of elastic fibers and the presence of very thick collagen fibers, suggestive of a cicatricial process, devoid of any characteristic pattern of distribution.