通过动态放射性立体测量分析评估桡骨头关节置换术直径对肘关节运动学的影响。

IF 2 Q2 ORTHOPEDICS

Journal of Experimental Orthopaedics Pub Date : 2024-08-08 DOI:10.1002/jeo2.12092

Johanne F. Teilmann, Emil T. Petersen, Theis M. Thillemann, Chalotte K. Hemmingsen, Josephine O. Kipp, Maiken Stilling

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引用次数: 0

摘要

目的：桡骨头关节置换术（RHA）可重建复杂桡骨头骨折后的肘关节稳定性，但并发症发生率较高，这可能是由于植入物尺寸不当造成的。有关桡骨头植入物直径对肘关节运动学影响的知识十分有限，因此有必要进行研究。本研究使用动态放射性立体计量分析（dRSA）评估了RHA后不同桡骨头植入物直径对肘关节运动学的影响：方法：在前臂处于无负荷中立位、上举位和前伸位时，分别在无10N或10N内翻或外翻负荷的情况下，使用dRSA对8个人体供体手臂进行肘关节屈曲检查。在肘关节头直径为解剖学大小、-2 毫米（过小）和 +2 毫米（过大）的情况下，对 RHA 前后的肘关节运动学进行了检查。通过阶梯式肱骨截骨术保持韧带完整，以重复交换 RHA。骨骼模型由 CT 获得，并通过 AutoRSA 软件将骨骼模型与 dRSA 记录进行匹配。使用解剖坐标系描述肘关节运动学：结果：在肘关节屈曲时，与原生桡骨头相比，解剖大小的桡骨头在前臂无负荷代偿位时向尺侧移动了2.0毫米。过小的 RHA 在前臂无负荷代偿位时向后方偏移 1.5 毫米，向尺侧偏移 2.1 毫米，在前臂负荷上举位时使屈曲角度增加 2.4°。在前臂上举负重姿势时，过大的RHA在桡侧方向移动了1.6毫米：结论：应首选符合解剖学尺寸的 RHA，因为它能最好地保持原生肘关节运动学特性。RHA直径过大和过小的运动学变化都很小，这表明RHA直径的大小是可以原谅的：证据等级：三级。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

Radial head arthroplasty diameter impact on elbow kinematics evaluated by dynamic radiostereometric analysis

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Radial head arthroplasty diameter impact on elbow kinematics evaluated by dynamic radiostereometric analysis

Purpose

Radial head arthroplasty (RHA) reestablishes elbow stability after complex radial head fracture, but complication rates are high, possibly due to inappropriate implant sizing. Knowledge of impact of radial head implant diameter on elbow kinematics is limited and warranted. This study evaluated elbow kinematics of different radial head implant diameters after RHA using dynamic radiostereometric analysis (dRSA).

Methods

Eight human donor arms were examined with dRSA during elbow flexion with the forearm in unloaded neutral position, and in supinated- and pronated position without and with 10N either varus or valgus load, respectively. Elbow kinematics were examined before and after RHA with head diameters of anatomical size, −2 mm (undersized), and +2 mm (oversized). The ligaments were kept intact by use of step-cut humerus osteotomy for repeated RHA exchange. Bone models were obtained from CT, and by AutoRSA software bone models were matched with dRSA recordings. The elbow kinematics were described using anatomical coordinate systems.

Results

Compared to the native radial head during elbow flexion, the anatomical sized RHA shifted 2.0 mm in ulnar direction during unloaded pronated forearm position. The undersized RHA shifted 1.5 mm in posterior direction and 2.1 mm in ulnar direction during unloaded pronated forearm position and increased the varus angle by 2.4° during supinated loaded forearm position. The oversized RHA shifted 1.6 mm in radial direction during loaded supinated forearm position.

Conclusions

The anatomically sized RHA should be preferred as it maintained native elbow kinematics the best. The kinematic changes with oversized and undersized RHA diameters were small, suggesting forgiveness for the RHA diameter size.