股骨弯曲的三维定位。它与股骨植入物的矢状弯曲吻合得如何？

Three-dimensional orientation of the femoral curvature. How well does it match with the sagittal curvature of femoral implants?

机构信息

Service de chirurgie orthopédique et traumatologique, CHRU hopitaux de Tours-Trousseau, avenue de la République, 37170 Chambray-lès-Tours, France; Faculté de médecine, université François-Rabelais, 10, boulevard Tonnellé, 37000 Tours, France.

Service de chirurgie orthopédique et traumatologique, centre hospitalier régional universitaire de Brest, 6, boulevard Tanguy-Prigent, 29200 Brest, France; LaTIM, Inserm, UMR 1101, SFR IBSAM, 2, avenue Foch, 29200 Brest, France.

出版信息

Orthop Traumatol Surg Res. 2019 Feb;105(1):11-16. doi: 10.1016/j.otsr.2018.09.018. Epub 2018 Dec 24.

DOI:10.1016/j.otsr.2018.09.018

PMID:30591419

Abstract

BACKGROUND

The curvature of the femoral shaft is generally considered as residing in the sagittal plane. While many studies have measured the femur's radius of curvature, very few have studied the orientation of the plane in which it resides. The orientation of this plane may affect the rotation of intramedullary nails or revision stems with diaphyseal locking. This led us to conduct a three-dimensional (3D) anatomical study to: 1) analyze the 3D curvature of the femoral diaphysis by specifying the orientation of the plane in which it resides, 2) look for relationships between the curvature's orientation and anatomical parameters of the femur.

HYPOTHESIS

We hypothesized that the femoral curvature resides in the anterolateral plane, not the sagittal plane.

MATERIALS AND METHODS

A computed tomography scan was performed on 45 dry femur bones provided by a cadaver laboratory. The 3D reconstructions were analyzed to characterize the curvature of the diaphyseal shaft, radius of its various portions and to determine the plane in which it resides relative to the standard coronal reference plane defined by three points: posterior side of both condyles and the greater trochanter. The following parameters were measured: length, neck-shaft angle, femoral valgus (between anatomical and mechanical axis) and neck anteversion.

RESULTS

The largest curvature was in a plane oriented on average of 78.3°±14.9° (35.2° to 106.7°) anterolateral. The correlation between femoral curvature and neck-shaft angle (R=0.172), size (R=0.095), valgus (R=0.104) and overall curvature (R=0.60) was low.

DISCUSSION

Implants with diaphyseal fixation are designed such that the femoral curvature resides in a strict sagittal plane. Long revision stems with diaphyseal fixation may have a tendency to rotate laterally (externally) during insertion. Correcting this external rotation to prevent anteversion may result in a less than satisfactory press-fit. The femoral curvature must be taken into account when designing intramedullary implants.

LEVEL OF EVIDENCE

IV, Cadaver study without control group.

摘要

背景

股骨的弯曲度通常被认为位于矢状面内。虽然许多研究已经测量了股骨的曲率半径，但很少有研究关注其所在平面的方向。这个平面的方向可能会影响髓内钉或带骨干锁定的翻修柄的旋转。这促使我们进行了一项三维（3D）解剖学研究：1）通过指定所在平面的方向来分析股骨骨干的 3D 曲率，2）寻找曲率方向与股骨解剖参数之间的关系。