Bryon Jx Teo, Andy Yew, Marcus Wei Ping Tan, Siaw Meng Chou, Denny Tjiauw Tjoen Lie
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Displacement (mm) was recorded every 100 cycles, while stiffness and UFL were observed.</p><p><strong>Results: </strong>Cyclic displacement was significantly lower with DLSA at 100 cycles, but not above. During the UFL test, IS was stiffer (27.68 ± 6.56 N/mm versus 14.10 ± 5.80 N/mm, <i>p</i> = .005) and had higher UFL (453.67 ± 148.55 N versus 234.22 ± 44.57 N, <i>p</i> = .001) than DLSA. All DLSA failures occurred with suture/anchor pull-out, while all IS constructs failed at the muscle/tendon.</p><p><strong>Discussion: </strong>Comparison of the novel DLSA technique with a traditional IS method found lower initial displacement. While our IS constructs could withstand higher UFL, peak load characteristics of DLSA were similar to previous ovine studies. Hence, the DLSA technique is a viable alternative to IS for biceps tenodesis with its purported non-biomechanical advantages.</p>","PeriodicalId":36705,"journal":{"name":"Shoulder and Elbow","volume":"15 6","pages":"602-609"},"PeriodicalIF":1.5000,"publicationDate":"2023-12-01","publicationTypes":"Journal Article","fieldsOfStudy":null,"isOpenAccess":false,"openAccessPdf":"https://www.ncbi.nlm.nih.gov/pmc/articles/PMC10656979/pdf/","citationCount":"0","resultStr":"{\"title\":\"The double-lasso loop technique of Biceps tenodesis has lower displacement after cyclic loading, compared to interference screw fixation: Biomechanical analysis in an ovine model.\",\"authors\":\"Bryon Jx Teo, Andy Yew, Marcus Wei Ping Tan, Siaw Meng Chou, Denny Tjiauw Tjoen Lie\",\"doi\":\"10.1177/17585732221095766\",\"DOIUrl\":null,\"url\":null,\"abstract\":\"<p><strong>Background: </strong>Biceps tenodesis is an effective treatment for symptomatic long head of biceps tendon pathology. Recently the arthroscopic \\\"double lasso-loop\\\" suture anchor (DLSA) technique was described, advantaged by reduced cost, complexity, and operative time. We aimed to compare the in vitro strength of DLSA with conventional interference screws (IS).</p><p><strong>Methods: </strong>A biomechanical analysis was conducted on 14 sheep shoulders (8 DLSA, 6 IS), consisting of a 500-cycle cyclic loading experiment of 5-70 N and ultimate failure load (UFL) test where each specimen was pulled until failure. Displacement (mm) was recorded every 100 cycles, while stiffness and UFL were observed.</p><p><strong>Results: </strong>Cyclic displacement was significantly lower with DLSA at 100 cycles, but not above. During the UFL test, IS was stiffer (27.68 ± 6.56 N/mm versus 14.10 ± 5.80 N/mm, <i>p</i> = .005) and had higher UFL (453.67 ± 148.55 N versus 234.22 ± 44.57 N, <i>p</i> = .001) than DLSA. 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引用次数: 0
摘要
背景:二头肌肌腱固定术是治疗症状性二头肌肌腱长头病变的有效方法。最近,关节镜下的“双套索-环”缝合锚钉(DLSA)技术被描述,其优点是成本低、复杂性低、手术时间短。我们的目的是比较DLSA与常规干涉螺钉(IS)的体外强度。方法:对14只羊肩(8只DLSA, 6只IS)进行生物力学分析,包括500次5-70 N的循环加载实验和极限破坏载荷(UFL)试验,每个标本都被拉至破坏。每100次循环记录位移(mm),同时观察刚度和UFL。结果:DLSA在100次循环时显著降低循环位移,但不高于100次。在UFL测试中,IS比DLSA更僵硬(27.68±6.56 N/mm比14.10±5.80 N/mm, p = 0.005), UFL(453.67±148.55 N比234.22±44.57 N, p = 0.001)。所有的DLSA失效都发生在缝线/锚钉拔出时,而所有的IS构建都在肌肉/肌腱处失效。讨论:将新型DLSA技术与传统IS方法进行比较,发现初始位移更小。虽然我们的IS结构可以承受更高的UFL,但DLSA的峰值负荷特征与之前的绵羊研究相似。因此,DLSA技术具有非生物力学的优势,是二头肌肌腱固定术的可行替代方法。
The double-lasso loop technique of Biceps tenodesis has lower displacement after cyclic loading, compared to interference screw fixation: Biomechanical analysis in an ovine model.
Background: Biceps tenodesis is an effective treatment for symptomatic long head of biceps tendon pathology. Recently the arthroscopic "double lasso-loop" suture anchor (DLSA) technique was described, advantaged by reduced cost, complexity, and operative time. We aimed to compare the in vitro strength of DLSA with conventional interference screws (IS).
Methods: A biomechanical analysis was conducted on 14 sheep shoulders (8 DLSA, 6 IS), consisting of a 500-cycle cyclic loading experiment of 5-70 N and ultimate failure load (UFL) test where each specimen was pulled until failure. Displacement (mm) was recorded every 100 cycles, while stiffness and UFL were observed.
Results: Cyclic displacement was significantly lower with DLSA at 100 cycles, but not above. During the UFL test, IS was stiffer (27.68 ± 6.56 N/mm versus 14.10 ± 5.80 N/mm, p = .005) and had higher UFL (453.67 ± 148.55 N versus 234.22 ± 44.57 N, p = .001) than DLSA. All DLSA failures occurred with suture/anchor pull-out, while all IS constructs failed at the muscle/tendon.
Discussion: Comparison of the novel DLSA technique with a traditional IS method found lower initial displacement. While our IS constructs could withstand higher UFL, peak load characteristics of DLSA were similar to previous ovine studies. Hence, the DLSA technique is a viable alternative to IS for biceps tenodesis with its purported non-biomechanical advantages.
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