在健康人群中，内翻和外翻负荷下半月板的体内动态侵入和挤压情况。

In vivo dynamic intrusion and extrusion of the menisci in varus and valgus load within a healthy population.

作者信息

Bendak Sebastian F, Georgii Joachim, Taghizadeh Elham, Heldmann Stefan, Meine Hans, Lange Thomas, Buchholtz Jonas, Fuchs Andreas, Mayr Moritz, Schmal Hagen, Izadpanah Kaywan

机构信息

Department of Orthopedic Surgery and Traumatology, Freiburg University Hospital Albert-Ludwigs-University Freiburg Freiburg Germany.

Fraunhofer Institute for Digital Medicine MEVIS Bremen Germany.

出版信息

J Exp Orthop. 2025 Aug 13;12(3):e70325. doi: 10.1002/jeo2.70325. eCollection 2025 Jul.

DOI:10.1002/jeo2.70325

PMID:40809996

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC12344511/

Abstract

PURPOSE

Axial loading, varus and valgus stress lead to meniscal motion towards the joint periphery, defined as meniscal extrusion. Direction and amount of extrusion is unknown as this is a dynamic process within a 3D environment dependent on joint loading as well as individual anatomy. We propose that there is motion in all compartments of the medial and lateral meniscus during valgus and varus stress.

METHOD

MRI scans of 31 healthy subjects in varus or valgus stress positions were acquired with the help of a pneumatic loading device. Semiautomatic segmentation of the menisci, the femur and the tibia (with corresponding cartilages) was carried out. An individual 3D model of the joint was generated. The meniscal movement was calculated within a tibia-based coordinate system and broken down into total and partial meniscal movement (anterior/posterior horn, intermediate part).

RESULTS

Under valgus load the medial meniscus (MM) showed average movement of 1.5 (±0.5) mm in lateral-posterior direction with most lateral motion of 1.4 (±0.7) mm in the intermediate part. The lateral meniscus averaged 1.6 (±1.0) mm in lateral-anterior motion, exhibiting maximal lateral motion in the anterior horn (AH) 0.7 (±0.8) mm and posterior horn 0.6 (±0.6) mm. In response to the varus load, average MM motion was 0.9 (±0.5) mm in medial-anterior direction with the largest medial movement in the AH 0.9 (±1.1) mm. The lateral meniscus moved in average 1.6 (±0.8) mm into lateral-posterior direction with the intermediate part showing the largest medial motion of 0.6 (±0.4) mm.

CONCLUSION

In a healthy population, the menisci extrude up to 1.5 mm during varus and valgus loading. The anterior and posterior horn show greater dynamic extrusion than the intermediate part. However, an in vivo dynamic intrusion mechanism of meniscus when discharged (medial 1.45 mm, lateral 1.56 mm) could be demonstrated. Quantification and reconstruction of this phenomenon might be of crucial importance during meniscal root or meniscal transplantation surgery.

LEVEL OF EVIDENCE

Level II, descriptive laboratory study.

摘要

目的

轴向负荷、内翻和外翻应力会导致半月板向关节周边移动，这被定义为半月板挤压。由于这是一个在三维环境中的动态过程，取决于关节负荷以及个体解剖结构，因此挤压的方向和程度尚不清楚。我们提出，在内翻和外翻应力作用下，内侧和外侧半月板的所有区域都会发生移动。

方法

借助气动加载装置，对31名处于内翻或外翻应力位置的健康受试者进行了MRI扫描。对半月板、股骨和胫骨（以及相应的软骨）进行了半自动分割。生成了关节的个体三维模型。在基于胫骨的坐标系中计算半月板的运动，并将其分解为半月板的整体和部分运动（前角/后角、中间部分）。

结果

在外翻负荷下，内侧半月板（MM）在外侧后方向上的平均移动为1.5（±0.5）mm，中间部分的最大外侧移动为1.4（±0.7）mm。外侧半月板在外侧前方向上的平均移动为1.6（±1.0）mm，在前角（AH）的最大外侧移动为0.7（±0.8）mm，后角为0.6（±0.6）mm。在内翻负荷作用下，MM的平均移动在内侧前方向上为0.9（±0.5）mm，AH的最大内侧移动为0.9（±1.1）mm。外侧半月板平均向外侧后方向移动1.6（±0.8）mm，中间部分显示最大内侧移动为0.6（±0.4）mm。

结论

在健康人群中，在内翻和外翻负荷期间，半月板挤压可达1.5mm。前角和后角的动态挤压比中间部分更大。然而，可以证明半月板在卸载时存在体内动态内陷机制（内侧1.45mm，外侧1.56mm）。在半月板根部或半月板移植手术中，对这种现象进行量化和重建可能至关重要。

证据水平

二级，描述性实验室研究。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/34c7/12344511/b72023210436/JEO2-12-e70325-g003.jpg

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在健康人群中，内翻和外翻负荷下半月板的体内动态侵入和挤压情况。

In vivo dynamic intrusion and extrusion of the menisci in varus and valgus load within a healthy population.

作者信息

机构信息

出版信息

PURPOSE

METHOD

RESULTS

CONCLUSION

LEVEL OF EVIDENCE

目的

方法

结果

结论

证据水平

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