Department of Surgery, University Hospitals Case Medical Center, Cleveland, OH 44106-5047, USA.
Surgery. 2013 Apr;153(4):481-92. doi: 10.1016/j.surg.2012.08.064. Epub 2012 Dec 4.
Despite relatively sparse data regarding their outcomes in the setting of infection, biologic grafts have gained rapid acceptance by the surgical community for complex hernia repair. These materials are heterogeneous in their procurement and processing techniques, which may ultimately have an impact in their ability to withstand infection. The objective of this study is to evaluate the impact of varying levels of contamination on biologic graft performance in a chronic ventral hernia animal model.
Four commonly applied biologic grafts were used in the repair of a chronic ventral hernia rat model (n = 218). Each material was repaired in the setting of 1 of 4 surgical wound classifications (clean, clean contaminated, contaminated, dirty infected) with Staphylococcus aureus as our inoculum agent. After a 30-day survival, repairs underwent quantitative cultures, histological, and biomechanical testing.
Marked differences were observed in biologic graft bacterial burden, biomechanical and histological responses at 30 days. Persistent bacterial burden varied among the biologic grafts and increased with increasing wound contamination (P < .05). Delays in wound healing were observed in the contaminated and dirty infected setting (P < .05). Increasing infection weakened the biomechanical strength of repairs (P < .05).
The degree of bacterial contamination at the time of repair affected the rates of bacterial clearance, wound-healing ability, and subsequent repair strength. Material source and processing techniques might alter graft durability, biocompatibility, and ability to clear bacteria in a contaminated field. Clinical trials are warranted in contaminated settings.
尽管在感染背景下有关其结果的相关数据相对较少,但生物移植物在复杂疝修补术中已被外科医生迅速接受。这些材料在其获取和处理技术方面存在差异,这可能最终会影响其抵御感染的能力。本研究的目的是评估在慢性腹疝动物模型中,不同程度的污染对生物移植物性能的影响。
使用四种常用的生物移植物修复慢性腹疝大鼠模型(n = 218)。每种材料均在 4 种手术伤口分类之一的情况下进行修复(清洁、清洁污染、污染、污染感染),金黄色葡萄球菌作为我们的接种剂。在 30 天存活后,进行定量培养、组织学和生物力学测试。
在 30 天时,生物移植物的细菌负荷、生物力学和组织学反应存在明显差异。生物移植物的细菌负荷存在差异,且随伤口污染程度的增加而增加(P <.05)。在污染和感染污染的情况下,伤口愈合延迟(P <.05)。感染的增加削弱了修复的生物力学强度(P <.05)。
修复时细菌污染的程度影响了细菌清除率、伤口愈合能力以及随后的修复强度。材料来源和处理技术可能会改变移植物的耐久性、生物相容性以及在污染环境中清除细菌的能力。在污染环境中需要进行临床试验。
