使用双止裂技术用脱细胞真皮移植物增强工程化肌腱-纤维软骨-骨复合材料修复犬肩袖的生物力学比较
Biomechanical Comparison of Augmentation of Engineered Tendon-Fibrocartilage-Bone Composite With Acellular Dermal Graft Using Double Rip-Stop Technique for Canine Rotator Cuff Repair.
作者信息
Wang Zhanwen, Long Zeling, Amadio Peter C, Gingery Anne, Moran Steven L, Steinmann Scott P, Zhao Chunfeng
机构信息
Department of Orthopedic Surgery, Mayo Clinic, Rochester, Minnesota, USA.
Department of Sports Medicine, Xiangya Hospital, Central South University, Changsha, PR China.
出版信息
Orthop J Sports Med. 2020 Sep 2;8(9):2325967120939001. doi: 10.1177/2325967120939001. eCollection 2020 Sep.
BACKGROUND
The retear rate after rotator cuff repair remains unacceptably high. Various biological engineered scaffolds have been proposed to reduce the retear rate. We have developed a double rip-stop repair with medial row knot (DRSK) technique to enhance suture-tendon strength and a novel engineered tendon-fibrocartilage-bone composite (TFBC) for rotator cuff repair.
HYPOTHESIS
DRSK rotator cuff repair augmented with TFBC will have better biomechanical properties than that of DRSK repair with an acellular dermal graft (DG).
STUDY DESIGN
Controlled laboratory study.
METHODS
Fresh-frozen canine shoulders (n = 30) and knees (n = 10) were used. TFBCs were harvested from the patellar tendon-tibia complex and prepared for rotator cuff repair. The infraspinatus tendon was sharply detached from its bony attachment and randomly assigned to the (1) control group: DRSK repair alone, (2) TFBC group: DRSK repair with TFBC, and (3) DG group: DRSK repair with DG. All specimens were tested to failure, and videos were recorded. The footprint area, tendon thickness, load to create 3-mm gap formation, failure load, failure modes, and stiffness were recorded and compared. Data were recorded as mean ± SD.
RESULTS
The mean load to create a 3-mm gap in both the control group (206.8 ± 55.7 N) and TFBC group (208.9 ± 39.1 N) was significantly higher than that in the DG group (157.7 ± 52.3 N) ( < .05 for all). The failure load of the control group (275.7 ± 75.0 N) and TFBC group (275.2 ± 52.5 N) was significantly higher compared with the DG group (201.5 ± 49.7 N) ( < .05 for both comparisons). The stiffness of the control group (26.4 ± 4.7 N/mm) was significantly higher than of the TFBC group (20.4 ± 4.4 N/mm) and the DG group (21.1 ± 4.8 N/mm) ( < .05 for both comparisons).
CONCLUSION
TFBC augmentation showed superior biomechanical performance to DG augmentation in rotator cuff tears repaired using the DRSK technique, while there was no difference between the TFBC and control groups.
CLINICAL RELEVANCE
TFBC may help to reduce retear or gap formation after rotator cuff repair using the DRSK technique.
背景
肩袖修复术后再撕裂率仍然高得令人难以接受。已提出各种生物工程支架以降低再撕裂率。我们开发了一种带内侧排结的双重防撕裂修复(DRSK)技术,以增强缝线与肌腱的强度,并开发了一种用于肩袖修复的新型工程化肌腱-纤维软骨-骨复合材料(TFBC)。
假设
用TFBC增强的DRSK肩袖修复术将比用脱细胞真皮移植物(DG)进行的DRSK修复术具有更好的生物力学性能。
研究设计
对照实验室研究。
方法
使用新鲜冷冻的犬肩(n = 30)和膝关节(n = 10)。从髌腱-胫骨复合体中获取TFBC,并准备用于肩袖修复。将冈下肌腱从其骨附着处锐性分离,并随机分配至(1)对照组:单纯DRSK修复,(2)TFBC组:用TFBC进行DRSK修复,以及(3)DG组:用DG进行DRSK修复。对所有标本进行破坏测试,并录制视频。记录并比较足迹面积、肌腱厚度、产生3毫米间隙形成的负荷、破坏负荷、破坏模式和刚度。数据记录为平均值±标准差。
结果
对照组(206.8±55.7 N)和TFBC组(208.9±39.1 N)产生3毫米间隙的平均负荷均显著高于DG组(157.7±52.3 N)(所有比较P <.05)。对照组(275.7±75.0 N)和TFBC组(275.2±52.5 N)的破坏负荷显著高于DG组(201.5±49.7 N)(两个比较均P <.05)。对照组(26.4±4.7 N/mm)的刚度显著高于TFBC组(20.4±4.4 N/mm)和DG组(21.1±4.8 N/mm)(两个比较均P <.05)。
结论
在使用DRSK技术修复的肩袖撕裂中,TFBC增强显示出比DG增强更好的生物力学性能,而TFBC组和对照组之间没有差异。
临床意义
TFBC可能有助于减少使用DRSK技术进行肩袖修复后再撕裂或间隙形成。
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