Indirect Head of the Rectus Femoris Tendon as a Graft for Segmental Hip Labral Reconstruction: An Anatomic, Radiographical, and Biomechanical Study in Comparison With Iliotibial Labral Reconstruction

Safa Gursoy, Felipe Bessa, Navya Dandu, Zeeshan A. Khan, Hailey P. Huddleston, Brady T. Williams, Amar S. Vadhera, Ian M. Clapp, Philip Malloy, Elizabeth F. Shewman, Shane J. Nho, Jorge Chahla
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Abstract

Background:The indirect head of the rectus femoris (IHRF) tendon has been used as an autograft for segmental labral reconstruction. However, the biomechanical properties and anatomic characteristics of the IHRF, as they relate to surgical applications, have yet to be investigated.Purpose:To (1) quantitatively and qualitatively describe the anatomy of IHRF and its relationship with surrounding arthroscopically relevant landmarks; (2) detail radiographic findings pertinent to IHRF; (3) biomechanically assess segmental labral reconstruction with IHRF, including restoration of the suction seal and contact pressures in comparison with iliotibial band (ITB) reconstruction; and (4) assess potential donor-site morbidity caused by graft harvesting.Study Design:Descriptive laboratory study.Methods:A cadaveric study was performed using 8 fresh-frozen human cadaveric full pelvises and 7 hemipelvises. Three-dimensional anatomic measurements were collected using a 3-dimensional coordinate digitizer. Radiographic analysis was accomplished by securing radiopaque markers of different sizes to the evaluated anatomic structures of the assigned hip.Suction seal and contact pressure testing were performed over 3 trials on 6 pelvises under 4 different testing conditions for each specimen: intact, labral tear, segmental labral reconstruction with ITB, and segmental labral reconstruction with IHRF. After IHRF tendon harvest, each full pelvis had both the intact and contralateral hip tested under tension along its anatomic direction to assess potential site morbidity, such as tendon failure or bony avulsion.Results:The centroid and posterior apex of the indirect rectus femoris attachment are respectively located 10.3 ± 2.6 mm and 21.0 ± 6.5 mm posteriorly, 2.5 ± 7.8 mm and 0.7 ± 8.0 mm superiorly, and 5.0 ± 2.8 mm and 22.2 ± 4.4 mm laterally to the 12:30 labral position. Radiographically, the mean distance of the IHRF to the following landmarks was determined as follows: anterior inferior iliac spine (8.8 ± 2.5 mm), direct head of the rectus femoris (8.0 ± 3.9 mm), 12-o’clock labral position (14.1 ± 2.8 mm), and 3-o’clock labral position (36.5 ± 4.4 mm). During suction seal testing, both the ITB and the IHRF reconstruction groups had significantly lower peak loads and lower energy to peak loads compared with both intact and tear groups ( P = .01 to .02 for all comparisons). There were no significant differences between the reconstruction groups for peak loads, energy, and displacement at peak load. In 60° of flexion, there were no differences in normalized contact pressure and contact area between ITB or IHRF reconstruction groups ( P > .99). There were no significant differences between intact and harvested specimen groups in donor-site morbidity testing.Conclusion:The IHRF tendon is within close anatomic proximity to arthroscopic acetabular landmarks. In the cadaveric model, harvesting of the IHRF tendon as an autograft does not lead to significant donor-site morbidity in the remaining tendon. Segmental labral reconstruction performed with the IHRF tendon exhibits similar biomechanical outcomes compared with that performed with ITB.Clinical Relevance:This study demonstrates the viability of segmental labral reconstruction with an IHRF tendon and provides a detailed anatomic description of the tendon in the context of an arthroscopic labral reconstruction. Clinicians can use this information during the selection of a graft and as a guide during an arthroscopic graft harvest.
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股直肌腱间接头作为节段性髋关节瓣膜重建的移植物:与髂胫韧带重建术比较的解剖学、放射学和生物力学研究
背景:股直肌间接头(IHRF)肌腱已被用作节段性唇瓣重建的自体移植物。然而,IHRF的生物力学特性和解剖学特征与手术应用的关系还有待研究。目的:(1) 定量和定性地描述IHRF的解剖结构及其与周围关节镜相关标志物的关系;(2) 详细描述与IHRF相关的放射学检查结果;(3) 从生物力学角度评估使用IHRF进行节段性唇瓣重建的效果,包括与髂胫束(ITB)重建相比吸力密封性和接触压力的恢复情况;(4) 评估移植物采集可能造成的供体部位发病率。研究设计:描述性实验室研究。方法:使用 8 个新鲜冷冻的人体全骨盆和 7 个半骨盆进行尸体研究。使用三维坐标数字化仪收集三维解剖测量数据。在每个标本的 4 种不同测试条件下,对 6 个骨盆进行了 3 次抽吸密封和接触压力测试:完整、唇撕裂、带 ITB 的节段性唇重建和带 IHRF 的节段性唇重建。采集 IHRF 肌腱后,对每个完整骨盆的完整髋关节和对侧髋关节沿其解剖方向进行拉力测试,以评估潜在的发病部位,如肌腱断裂或骨撕脱。结果:间接股直肌附着点的中心点和后顶点分别位于后方 10.3 ± 2.6 毫米和 21.0 ± 6.5 毫米处,上方 2.5 ± 7.8 毫米和 0.7 ± 8.0 毫米处,侧面 5.0 ± 2.8 毫米和 22.2 ± 4.4 毫米处,与 12:30 股骨唇位置一致。从X光片上看,IHRF到以下地标的平均距离如下:髂前下棘(8.8 ± 2.5 mm)、股直肌直头(8.0 ± 3.9 mm)、12点钟唇位置(14.1 ± 2.8 mm)和3点钟唇位置(36.5 ± 4.4 mm)。在抽吸密封测试中,与完整组和撕裂组相比,ITB 组和 IHRF 重建组的峰值载荷和峰值载荷能量都明显较低(所有比较中的 P = 0.01 至 0.02)。在峰值负荷、能量和峰值负荷位移方面,重建组之间没有明显差异。在屈曲 60° 时,ITB 重建组和 IHRF 重建组之间的归一化接触压力和接触面积没有差异(P > .99)。结论:IHRF肌腱与关节镜下的髋臼标志在解剖学上非常接近。在尸体模型中,采集 IHRF 肌腱作为自体移植物不会导致剩余肌腱出现明显的供体部位发病率。使用IHRF肌腱进行的节段性唇瓣重建与使用ITB进行的重建相比,具有相似的生物力学结果。临床医生在选择移植物时可利用这些信息,并在关节镜下采集移植物时作为指导。
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Thank You, Reviewers! Strengthening the Evidence: Addressing Biases in Anterior Cruciate Ligament Reconstruction Studies: Response Strengthening the Evidence: Addressing Biases in Anterior Cruciate Ligament Reconstruction Studies: Letter to the Editor In Gratitude Presidential Address of the American Orthopaedic Society for Sports Medicine
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