用于前交叉韧带重建的跟腱同种异体移植物的可变性有多大?一项生物力学研究。
How Variable Are Achilles Allografts Used for Anterior Cruciate Ligament Reconstruction? A Biomechanical Study.
机构信息
Section of Sports Medicine, Department of Orthopaedic Surgery, University of Southern California, Los Angeles, California, USA.
Section of Sports Medicine, Medsport, Department of Orthopaedic Surgery, University of Michigan, Ann Arbor, Michigan, USA.
出版信息
Am J Sports Med. 2018 Jul;46(8):1870-1876. doi: 10.1177/0363546518768780. Epub 2018 May 9.
BACKGROUND
Allograft tendon used in anterior cruciate ligament reconstruction (ACLR) requires sterilization before implantation. Low-dose gamma irradiation is a means of sterilization that may minimize tissue damage.
PURPOSE
To quantify the variability in mechanical properties between low-dose irradiated Achilles tendon allografts used for ACLR.
STUDY DESIGN
Descriptive laboratory study.
METHODS
A total of 15 intact outer-third Achilles tendon allograft specimens were collected from the remains of full Achilles allografts used for intraoperative ACLR at a single hospital. All grafts were obtained from a single tissue bank and underwent proprietary disinfection and low-dose gamma irradiation (1.5-2.5 Mrad). Biomechanical testing was carried out to measure tendon elongation, failure location during tensile testing, maximum stress, maximum strain, and modulus of elasticity. The mean and standard deviation were calculated for each outcome measure, and the variability between specimens was calculated by the coefficient of variation (CV). The effect of donor age on graft material properties was examined by use of linear regression. One-way analysis of variance was performed to compare differences in the mechanical properties across failure locations.
RESULTS
During cyclic testing, tendon elongation averaged 1.4% ± 1.6% with a CV of 118%. During failure testing, the maximum stress averaged 12.2 ± 4.1 MPa, maximum strain averaged 21.0% ± 6.3%, and modulus of elasticity averaged 95.5 ± 30.8 MPa. The CVs for maximum stress, maximum strain, and modulus of elasticity were 34%, 30%, and 32%, respectively. Ten tendons failed in the midsubstance and 5 failed at the tendon-bone enthesis. No differences were noted in mechanical properties between grafts that failed in the midsubstance versus those that failed at the enthesis. Donor age did not correlate with allograft elongation during cyclic load or any of the material property measures during failure testing.
CONCLUSION
The variabilities in the material properties and graft elongation during cyclic loading of Achilles tendon allografts used in ACLR fall within the range of properties reported in the literature for other ACLR allografts. Material properties do not differ by donor age or graft failure location observed during failure testing.
CLINICAL RELEVANCE
Surgeons should be aware that there exists considerable variation in the mechanical properties of Achilles allograft tendons used for ACLR. This variability is difficult to detect by tissue bank screening or the treating surgeon's inspection and may contribute to the heterogeneity in outcomes of allograft ACLR.
背景
用于前交叉韧带重建(ACLR)的同种异体肌腱在植入前需要进行灭菌。低剂量伽马辐照是一种灭菌方法,可最大程度地减少组织损伤。
目的
定量评估用于 ACLR 的低剂量辐照跟腱同种异体移植物之间力学性能的变异性。
研究设计
描述性实验室研究。
方法
从一家医院术中 ACLR 中使用的完整跟腱同种异体移植物的残留物中收集了 15 个完整的外三分之一跟腱同种异体移植物标本。所有移植物均来自单个组织库,并经过专有消毒和低剂量伽马辐照(1.5-2.5 Mrad)处理。进行生物力学测试以测量肌腱伸长,拉伸测试过程中的失效位置,最大应力,最大应变和弹性模量。为每个结果测量值计算平均值和标准差,并通过变异系数(CV)计算标本之间的变异性。使用线性回归检查供体年龄对移植物材料特性的影响。使用单因素方差分析比较失效位置处的机械性能差异。
结果
在循环测试中,肌腱伸长率平均为 1.4%±1.6%,CV 为 118%。在失效测试中,最大应力平均为 12.2±4.1 MPa,最大应变平均为 21.0%±6.3%,弹性模量平均为 95.5±30.8 MPa。最大应力,最大应变和弹性模量的 CV 分别为 34%,30%和 32%。10 根肌腱在中间部位失效,5 根在肌腱-骨结合处失效。在中间部位失效的移植物与在结合处失效的移植物之间,机械性能没有差异。供体年龄与循环加载过程中同种异体肌腱的伸长率或失效测试过程中的任何材料性能测量值均无相关性。
结论
用于 ACLR 的跟腱同种异体移植物在循环加载过程中的材料性能和移植物伸长率的变异性在文献中报道的其他 ACLR 同种异体移植物的性能范围内。材料性能不因供体年龄或失效测试过程中观察到的移植物失效位置而异。
临床相关性
外科医生应该意识到,用于 ACLR 的跟腱同种异体移植物的机械性能存在相当大的差异。这种变异性很难通过组织库筛选或治疗医生的检查来发现,并且可能导致同种异体 ACLR 结果的异质性。
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