Compressive force and valgus torque are the predominant applied loads during the pivot shift exam: An in vitro study

IF 5 2区医学 Q1 ORTHOPEDICS Knee Surgery, Sports Traumatology, Arthroscopy Pub Date : 2024-11-07 DOI:10.1002/ksa.12504

Niv Marom, Mark J. Amirtharaj, Hamidreza Jahandar, David Z. Shamritsky, Matthew A. Tao, Hervé Ouanezar, Danyal H. Nawabi, Thomas L. Wickiewicz, Carl W. Imhauser, Andrew D. Pearle

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Abstract

Purpose

Despite the clinical utility of the pivot shift exam, the requisite applied forces and torques to elicit a pivot shift remain unclear. The purposes of this study are (1) to identify the greatest forces and torques applied to the knee during the pivot shift exam and (2) to evaluate if the applied loads differ among experienced surgeons.

Methods

Three cadaveric hemipelvis-to-toe specimens (ages 53, 36 and 31 years; two males and one female) with no history of knee or hip injury were utilized. The experimental setup consisted of securing the hemipelvis to a mounting frame via an external fixator to simulate patient positioning during the clinical exam. The hemipelvis, femur, and tibia were spatially tracked by motion capture and the applied loads were measured using a 6-axis force-torque sensor. After sectioning the anterior cruciate ligament (ACL), three board-certified sports medicine surgeons then performed the pivot shift exam on each specimen utilizing their preferred technique. Forces (compression-distraction, anterior-posterior, and medial-lateral) and torques (varus-valgus, internal-external rotation, and flexion-extension) applied to the knee joint immediately preceding the reduction of the proximal lateral tibia during each pivot shift exam were calculated.

Results

Compression was the largest applied force averaging 95 N ± 15 N for all surgeons and knees, which was at least 4.5 times greater, on average, than the applied anterior and applied medial tibial forces (p < 0.0001). Valgus was the largest of the three applied torques, averaging 8.5 ± 2.1 Nm. Internal rotation torque was 3.7 times less, on average, than the applied valgus torque (p < 0.0001). Each surgeon applied compressive force. However, anterior force was more variable among surgeons, with one of the three surgeons applying minimal anterior force (p ≤ 0.024). The magnitude of applied torques was similar among examiners (n.s.).

Conclusion

Compressive force and valgus torque were the predominant applied loads during the pivot shift exam. A lower magnitude of internal rotation torque was also applied. The anterior force was not consistently applied among examiners. These data can better inform clinical, cadaveric, and computational studies utilizing the pivot shift exam to assess knee biomechanics and can be used to educate trainees in conducting this complex manoeuvre.

Level of Evidence

N/A.

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压缩力和外翻力矩是枢轴移位检查中的主要外加载荷：体外研究。

目的：尽管膝枢轴移位检查具有临床实用性，但引起膝枢轴移位所需的作用力和扭矩仍不清楚。本研究的目的是：(1) 确定膝关节在枢轴移位检查过程中受到的最大作用力和扭矩；(2) 评估有经验的外科医生施加的负荷是否存在差异：方法：使用三具没有膝关节或髋关节损伤史的半髋到趾尸体标本（年龄分别为 53 岁、36 岁和 31 岁；两男一女）。实验装置包括通过外固定器将半髋骨固定在安装架上，以模拟临床检查时患者的定位。通过运动捕捉对半盆骨、股骨和胫骨进行空间跟踪，并使用六轴力扭矩传感器测量施加的负荷。在对前十字韧带（ACL）进行切片后，三位获得运动医学委员会认证的外科医生采用各自偏好的技术对每个样本进行了枢轴移位检查。在每次枢轴移位检查中，计算紧接胫骨近端外侧缩窄之前施加于膝关节的力（压缩-牵引、前-后和内-外侧）和扭矩（变位-外翻、内-外旋和屈-伸）：在所有外科医生和膝关节中，压迫力是最大的作用力，平均为 95 N ± 15 N，平均比胫骨前侧和内侧的作用力至少大 4.5 倍（p 结论：压迫力和外翻力矩是膝关节的主要作用力：在枢轴移位检查中，压缩力和外翻力矩是主要的外加载荷。内旋力矩也较小。检查者施加的前方力并不一致。这些数据可以更好地为临床、尸体和计算研究提供依据，利用枢轴移位检查评估膝关节生物力学，并可用于教育受训者如何完成这一复杂动作：体外生物力学研究。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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来源期刊

Knee Surgery, Sports Traumatology, Arthroscopy 医学-外科

CiteScore

8.10

自引率

18.40%

发文量

418

审稿时长

2 months

期刊介绍： Few other areas of orthopedic surgery and traumatology have undergone such a dramatic evolution in the last 10 years as knee surgery, arthroscopy and sports traumatology. Ranked among the top 33% of journals in both Orthopedics and Sports Sciences, the goal of this European journal is to publish papers about innovative knee surgery, sports trauma surgery and arthroscopy. Each issue features a series of peer-reviewed articles that deal with diagnosis and management and with basic research. Each issue also contains at least one review article about an important clinical problem. Case presentations or short notes about technical innovations are also accepted for publication. The articles cover all aspects of knee surgery and all types of sports trauma; in addition, epidemiology, diagnosis, treatment and prevention, and all types of arthroscopy (not only the knee but also the shoulder, elbow, wrist, hip, ankle, etc.) are addressed. Articles on new diagnostic techniques such as MRI and ultrasound and high-quality articles about the biomechanics of joints, muscles and tendons are included. Although this is largely a clinical journal, it is also open to basic research with clinical relevance. Because the journal is supported by a distinguished European Editorial Board, assisted by an international Advisory Board, you can be assured that the journal maintains the highest standards. Official Clinical Journal of the European Society of Sports Traumatology, Knee Surgery and Arthroscopy (ESSKA).