Affiliations: [a] Biomechanics Laboratory, Department of Basic Science, Beijing Polytechnic University, Beijing, P.R. China | [b] Beijing Medical University, Beijing, P.R. China
Note: [*] Reprint requests to: Professor Ya jun Zeng, Biomechanics Laboratory, Computing Center, Beijing Polytechnic University, Beijing lO0022, P.R. China; E-mail: yjzeng@bjpu.edu.cn
Abstract: The aim of this study was to investigate the effects of a surgical tissue expansion procedure on the biomechanical features of the expanded soft tissues. In this procedure a silicone balloon “expander” is surgically inserted into a tissue and inflated. The tissue mass increases under the stretch of the expander. The increased tissue can then be used as an autologous source for the surgical reconstruction of organs. In this article, dog saphenous neurovascular bundle was used. Expanded saphenous nerves, arteries and veins were harvested and their biomechanical features and ultrastructural, histological changes were studied. The stress relaxation features, the continuous spectrum of relaxation time, and the stress-strain relationship of expanded and control specimens were measured. Results show that within two or three weeks after placement of the expanders, the biomechanical properties of expanded saphenous nerves, arteries and veins began to deviate from those of their controls, and the differences between them were proportional to the volume of inflation; but when the expanding period was 15 weeks or longer, the properties of expanded specimens and their controls became close again. Histological study showed that the content of collagenous fibers in blood vessel walls decreased after expansion. The content of elastic fibers in blood vessel walls FITst increased, then returned to normal, and finally decreased. Ultrastructural studies showed that when elongated by 25–40%, the expanded nerves had well preserved axons and showed fewer smooth myelin sheaths only in the middle and distal part of the expansion.
