06 January 2004
A comparison of suture retention strengths for three biomaterials
F. Joseph Obermiller, Jason P. Hodde, Chad S. McAlexander, Klod Kokini, Stephen F. BadylakMed Sci Monit 2004; 10(1): PI1-5 :: ID: 11558
Abstract
Background:The suture holding capacity, suture retention strength, and burst strength of three biomaterials (Marlex®, SIS, and PeriGuard®) were evaluated to compare their performance characteristics in an ex vivo setting representing the immediate postoperative period.Material/Methods: A circular defect was created in the fascial tissue of the abdominal aponeurosis collected from normal dogs. Defects were repaired with either Marlex (polypropylene mesh), Periguard (bovine pericardium) or small intestinal submucosa (SIS) using 2–0 prolene and a 1.0-cm suture bite. The force required to induce failure at the repair site was recorded as the suture-holding capacity. Suture retention strength was calculated as the load distribution over the specimen cross-section in contact with the suture at the time of rupture. Burst strength of the raw materials was also measured.Results: The suture-holding capacity was 370.9±56.2 N for Marlex; 214.3±36.1 N for Periguard, and 287.9±34.3 N for SIS. The suture retention strengths were: Marlex, 413.4±59.7 N/mm2; Periguard, 97.0±20.1 N/mm2; and SIS, 106.9±12.7 N/mm2. The burst strength of Marlex, Periguard and SIS were 476.7±50.8 N, 432.12±82.1 N, and 433.6±79.5 N respectively.Conclusions: All three materials provide adequate strength and suture-holding capacities to be of use in the repair of soft tissue defects.
Keywords: Biocompatible Materials, Biomechanics, Connective Tissue - injuries, Connective Tissue - physiology, Connective Tissue - surgery, Dogs, Intestinal Mucosa - transplantation, Materials Testing - instrumentation, Polypropylenes, Sutures, Swine, Transplantation, Heterologous, Biocompatible Materials, Biomechanical Phenomena, Connective Tissue - surgery, Dogs, Intestinal Mucosa - transplantation, Materials Testing - instrumentation, Polypropylenes, Sutures, Swine, Transplantation, Heterologous
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