Department of Orthopedic Surgery and Sports Medicine, Amsterdam UMC Location University of Amsterdam, Meibergdreef 9, 1105, AZ, Amsterdam, The Netherlands.
Amsterdam Movement Sciences, Musculoskeletal Health, Amsterdam, The Netherlands.
Arch Orthop Trauma Surg. 2024 Feb;144(2):701-721. doi: 10.1007/s00402-023-05103-6. Epub 2023 Nov 25.
In pre-operatively presumed aseptic nonunions, the definitive diagnosis of infection relies on intraoperative cultures. Our primary objective was to determine (1) the rate of surprise positive intraoperative cultures in presumed aseptic long-bone nonunion (surprise positive culture nonunion), and (2) the rate of surprise positive cultures that represent infection vs. contamination. Secondary objectives were to determine the healing and secondary surgery rates and to identify cultured micro-organisms.
We performed a systematic literature search of PubMed, Embase and Cochrane Libraries from 1980 until December 2021. We included studies reporting on ≥ 10 adult patients with a presumed aseptic long-bone nonunion, treated with a single-stage surgical protocol, of which intraoperative cultures were reported. We performed a meta-analysis for: (1) the rates of surprise positive culture nonunion, surprise infected nonunion, and contaminated culture nonunion, and (2) healing and (3) secondary surgery rates for each culture result. Risk of bias was assessed using the QUADAS-2 tool.
21 studies with 2,397 patients with a presumed aseptic nonunion were included. The rate of surprise positive culture nonunion was 16% (95%CI: 10-22%), of surprise infected nonunion 10% (95%CI: 5-16%), and of contaminated culture nonunion 3% (95%CI: 1-5%). The secondary surgery rate for surprise positive culture nonunion was 22% (95%CI: 9-38%), for surprise infected nonunion 14% (95%CI 6-22%), for contaminated culture nonunion 4% (95%CI: 0-19%), and for negative culture nonunion 6% (95CI: 1-13%). The final healing rate was 98% to 100% for all culture results. Coagulase-negative staphylococci accounted for 59% of cultured micro-organisms.
These results suggest that surprise positive cultures play a role in the clinical course of a nonunion and that culturing is important in determining the etiology of nonunion, even if the pre-operative suspicion for infection is low. High healing rates can be achieved in presumed aseptic nonunions, regardless of the definitive intraoperative culture result.
在术前疑似无菌性骨不连中,感染的明确诊断依赖于术中培养。我们的主要目的是确定 (1) 疑似无菌长骨骨不连(意外阳性培养骨不连)中意外阳性术中培养的发生率,以及 (2) 代表感染与污染的意外阳性培养的发生率。次要目标是确定愈合和二次手术的发生率,并确定培养的微生物。
我们对 PubMed、Embase 和 Cochrane Libraries 进行了系统的文献检索,检索时间从 1980 年到 2021 年 12 月。我们纳入了报告≥10 例疑似无菌长骨骨不连、接受单阶段手术方案治疗、并报告术中培养的成人患者的研究。我们对以下方面进行了荟萃分析:(1) 意外阳性培养骨不连、意外阳性感染性骨不连和污染性培养骨不连的发生率,以及 (2) 每种培养结果的愈合率和 (3) 二次手术率。使用 QUADAS-2 工具评估偏倚风险。
纳入了 21 项研究,共 2397 例疑似无菌性骨不连患者。意外阳性培养骨不连的发生率为 16%(95%CI:10-22%),意外阳性感染性骨不连的发生率为 10%(95%CI:5-16%),污染性培养骨不连的发生率为 3%(95%CI:1-5%)。意外阳性培养骨不连的二次手术率为 22%(95%CI:9-38%),意外阳性感染性骨不连的二次手术率为 14%(95%CI:6-22%),污染性培养骨不连的二次手术率为 4%(95%CI:0-19%),阴性培养骨不连的二次手术率为 6%(95%CI:1-13%)。所有培养结果的最终愈合率为 98%至 100%。凝固酶阴性葡萄球菌占培养微生物的 59%。
这些结果表明,意外阳性培养在骨不连的临床病程中发挥作用,即使术前感染的可能性较低,培养对于确定骨不连的病因也很重要。无论最终的术中培养结果如何,疑似无菌性骨不连都可以获得较高的愈合率。
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