在猪模型中，缝合锚和反向缝合锚对后内侧半月板根部撕裂的生物力学效果优于经胫骨拉出修复术。

IF 4.4 1区医学 Q1 ORTHOPEDICS

Arthroscopy-The Journal of Arthroscopic and Related Surgery Pub Date : 2025-03-12 DOI:10.1016/j.arthro.2025.03.013

Chenyang Meng, Wei Feng, Lingyue Kong, Ming Liu, Bing Leng, Fujia Kang, Yizhong Ren, Yi Qiu, Changxu Han

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引用次数: 0

摘要

目的：在体外猪膝关节PMMRTs模型中，比较反向缝合锚钉（RSA）技术与经胫骨拔出（TP）和缝合锚钉（SA）技术的生物力学效果。方法：32只新鲜冷冻猪胫骨内侧半月板完整，随机分为4组（每组8只）。在24个标本中建立了标准化的后内侧半月板根撕裂（PMMRT）。分别使用SA、TP和RSA技术修复8个标本的半月板后内侧根（PMMRs），同时在8个标本中保持原始半月板后内侧根（PMMRs）完整作为对照。进行了压敏、应力、循环载荷和失效载荷试验。为评价组变量的差异，≥3组间差异采用方差分析，两组间数据比较采用Tukey检验。显著性水平为P < 0.05。结果：与TP组相比，SA组和RSA组在半月板缝合处和附着处的接触面积更大，压力更高（P < 0.001），而SA组和RSA组在压力敏感性和应力方面差异无统计学意义（P < 0.05）。与原生PMMR相比，SA、RSA和TP组在循环加载时的位移显著增加，在加载至失效测试时的最大载荷和刚度显著降低（P < 0.05）。SA组和RSA组在100次（0.83 mm和0.92 mm vs 1.77 mm, P < 0.01）、500次（1.64 mm和1.52 mm vs 3.08 mm, P < 0.01）和1000次（2.22 mm和1.91 mm vs 4.53 mm, P < 0.01）循环后的位移显著低于TP组（114 N和119 N vs 77 N， P < 0.01），失效载荷显著高于TP组（114 N和119 N vs 77 N， P < 0.01）。SA、RSA和TP在破坏位移或刚度方面无显著差异（P < 0.05）。结论：RSA修复技术与SA修复技术具有相似的生物力学效果。它比TP技术在PMMRT修复中具有更好的生物力学效果，是一种可行而有效的手术方法。三种修复技术均未达到天然PMMR的强度。临床意义：RSA技术逆行将锚钉植入胫骨隧道，达到与传统锚钉相当的固定效果，且骨隧道缝合线更短，手术过程更具可操作性。RSA技术不仅为pmmrt的修复提供了满意的生物力学性能，而且大大降低了手术的技术难度。然而，pmmrt的修复仍然不能将修复的半月板根恢复到原半月板的强度。

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Suture Anchor and Reverse Suture Anchor show Superior Biomechanical Efficacy to Transtibial Pull-out Repair for Posterior Medial Meniscus Root Tears in Porcine Model.

Purpose: To investigate the biomechanical efficacy of the reverse suture anchor (RSA) technique compared with the transtibial pull-out (TP) and suture anchor (SA) techniques using in vitro porcine knee models of PMMRTs.

Methods: 32 fresh frozen porcine tibiae with medial meniscus intact were randomly assigned to four groups (eight specimens each). A standardized posterior medial meniscus root tear (PMMRT) was established in 24 specimens. SA, TP, and RSA techniques were used to repair PMMRTs in 8 specimens respectively, while the native posterior medial meniscus roots (PMMRs) were left intact as a control in eight specimens. Pressure sensitivity, stress, cyclic load and failure load tests were performed. To evaluate differences in group variables, ANOVA was used to compare differences among ≥ three groups and Tukey's test was used to compare data between two groups. Significance level was set at P < .05.

Results: The SA and RSA groups had a wider contact area and higher pressure at the meniscus suture site and attachment area than the TP group (P < .001) while there was no significant difference in pressure sensitivity or stress between SA and RSA (P > .05). The SA, RSA and TP groups had significantly higher displacement during cyclic loading and significantly lower maximum load and stiffness during load-to-failure testing compared with the native PMMR (P < .05). The SA and RSA groups had significantly lower displacement after 100 (0.83 mm and 0.92 mm vs 1.77 mm, P < .01), 500 (1.64 mm and 1.52 mm vs 3.08 mm, P < .01), and 1000 cycles (2.22 mm and 1.91 mm vs 4.53 mm, P < .01) and significantly higher failure load compared with TP (114 N and 119 N vs 77 N, P < .01). No significant difference between SA, RSA and TP was observed for displacement at failure or stiffness (P > .05).

Conclusion: The RSA repair technique has similar biomechanical efficacy to the SA technique. It offers better biomechanical efficacy than the TP technique for PMMRT repair, making it a feasible and effective surgical procedure. The three repair techniques did not reach the strength of the native PMMR.

Clinical relevance: The RSA technique retrogradely implants anchors into the tibial bone tunnels to achieve a fixation effect comparable to that of traditional anchors, with shorter sutures in the bone tunnels and a more operable surgical procedure. The RSA technique not only provides satisfactory biomechanical properties for the repair of PMMRTs, but also greatly reduces the technical difficulty of surgery. However, repairing of PMMRTs still does not restore the strength of the repaired meniscal root to the native meniscus.

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来源期刊

Arthroscopy-The Journal of Arthroscopic and Related Surgery 医学-外科

CiteScore

9.30

自引率

17.00%

发文量

555

审稿时长

58 days

期刊介绍： Nowhere is minimally invasive surgery explained better than in Arthroscopy, the leading peer-reviewed journal in the field. Every issue enables you to put into perspective the usefulness of the various emerging arthroscopic techniques. The advantages and disadvantages of these methods -- along with their applications in various situations -- are discussed in relation to their efficiency, efficacy and cost benefit. As a special incentive, paid subscribers also receive access to the journal expanded website.