与标准伽马射线照射相比，高剂量电子束照射的 BPTB 移植物的分段处理可显著改善粘弹性和结构性能。

Fractionation of high-dose electron beam irradiation of BPTB grafts provides significantly improved viscoelastic and structural properties compared to standard gamma irradiation.

机构信息

Sports Medicine and Arthroscopy Service, Hospital for Orthopaedic Surgery and Traumatology, Campus Mitte, Charité, University Medicine Berlin, Charité Platz 1, 10117 Berlin, Germany.

出版信息

Knee Surg Sports Traumatol Arthrosc. 2011 Nov;19(11):1955-61. doi: 10.1007/s00167-011-1518-9. Epub 2011 May 4.

DOI:10.1007/s00167-011-1518-9

PMID:21541710

Abstract

PURPOSE

Irradiation >30 kGy is required to achieve sterility against bacterial and viral pathogens in ACL allograft sterilization. However, doses >20 kGy substantially reduce the structural properties of soft-tissue grafts. Fractionation of irradiation doses is a standard procedure in oncology to reduce tissue damage but has not been applied in tissue graft sterilization.

METHODS

Forty-four human 10-mm wide bone-patellar-tendon-bone grafts were randomized into four groups of sterilization with (1) 34 kGy of ebeam (2) 34 kGy gamma (3) 34 kGy fractionated ebeam, and (4) non sterilized controls. Graft´s biomechanical properties were evaluated at time zero. Biomechanical properties were analyzed during cyclic and load-to-failure testing.

RESULTS

Fractionation of ebeam irradiation resulted in significantly higher failure loads (1,327 ± 305) than with one-time ebeam irradiation (1,024 ± 204; P = 0.008). Compared to gamma irradiation, significantly lower strain (2.9 ± 1.5 vs. 4.6 ± 2.0; P = 0.008) and smaller cyclic elongation response (0.3 ± 0.2 vs. 0.6 ± 0.4; P = 0.05), as well as higher failure loads (1,327 ± 305 vs. 827 ± 209; P = 0.001), were found. Compared to non-irradiated BPTB grafts, no significant differences were found for any of the biomechanical parameters. Non-irradiated controls had significantly lower cyclic elongation response and higher failure loads than ebeam and gamma irradiation.

CONCLUSIONS

In this study, it was found that fractionation of high-dose electron beam irradiation facilitated a significant improvement of viscoelastic and structural properties of BPTB grafts compared to ebeam and gamma irradiation alone, while maintaining levels of non-irradiated controls. Therefore, this technique might pose an important alternative to common methods for sterilization of soft-tissue allografts.

摘要

目的

ACL 同种异体移植物灭菌需要辐照>30 kGy 以实现对细菌和病毒病原体的无菌性。然而，剂量>20 kGy 会大大降低软组织移植物的结构特性。分次照射剂量是肿瘤学中的标准程序，可减少组织损伤，但尚未应用于组织移植物灭菌。

方法

将 44 个人 10mm 宽的骨-髌腱-骨移植物随机分为 4 组进行灭菌，分别为：（1）34 kGy 的电子束（2）34 kGy 的γ射线（3）34 kGy 的分次电子束，以及（4）未经灭菌的对照。在时间为零时评估移植物的生物力学性能。在循环和负载至失效测试期间分析生物力学性能。

结果

电子束照射的分次照射导致失效负荷显著增加（1327±305），明显高于单次电子束照射（1024±204；P=0.008）。与γ射线相比，显著更低的应变（2.9±1.5 对 4.6±2.0；P=0.008）和更小的循环伸长响应（0.3±0.2 对 0.6±0.4；P=0.05）以及更高的失效负荷（1327±305 对 827±209；P=0.001）。与未辐照的 BPTB 移植物相比，任何生物力学参数均无显著差异。未辐照的对照物与电子束和γ射线相比，循环伸长响应明显较低，失效负荷较高。

结论

在这项研究中，发现与单独使用电子束和γ射线相比，高剂量电子束照射的分次照射显著改善了 BPTB 移植物的粘弹性和结构特性，同时保持了未辐照对照物的水平。因此，该技术可能为软组织同种异体移植物的常规灭菌方法提供重要替代方案。

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与标准伽马射线照射相比，高剂量电子束照射的 BPTB 移植物的分段处理可显著改善粘弹性和结构性能。

Fractionation of high-dose electron beam irradiation of BPTB grafts provides significantly improved viscoelastic and structural properties compared to standard gamma irradiation.

机构信息

出版信息

PURPOSE

METHODS

RESULTS

CONCLUSIONS

目的

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结果

结论

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