Analysis of Variation in Sagittal Curvature of the Femoral Condyles.

IF 1.7 4区 医学 Q4 BIOPHYSICS Journal of Biomechanical Engineering-Transactions of the Asme Pub Date : 2024-11-01 DOI:10.1115/1.4065813
Eden Winslow, Xuanbei Pan, Maury L Hull
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Abstract

In designing femoral components, which restore native (i.e., healthy) knee kinematics, the flexion-extension (F-E) axis of the tibiofemoral joint should match that of the native knee. Because the F-E axis is governed by the curvature of the femoral condyles in the sagittal plane, the primary objective was to determine the variation in radii of curvature. Eleven high accuracy three-dimensional (3D) femur models were generated from ultrahigh resolution CT scans. The sagittal profile of each condyle was created. The radii of curvature at 15 deg increments of arc length were determined based on segment circles best-fit to ±15 deg of arc at each increment. Results were standardized to the radius of the best-fit overall circle to 15 deg-105 deg for the femoral condyle having a radius closest to the mean radius. Medial and lateral femoral condyles exhibited multiradius of curvature sagittal profiles where the radius decreased at 30 deg flexion by 10 mm and at 15 deg flexion by 8 mm, respectively. On either side of the decrease, radii of segment circles were relatively constant. Beyond the transition angles where the radii decreased, the anterior-posterior (A-P) positions of the centers of curvature varied 4.8 mm and 2.3 mm for the medial and lateral condyles, respectively. A two-radius of curvature profile approximates the radii of curvature of both native femoral condyles, but the transition angles differ with the transition angle of the medial femoral condyle occurring about 15 deg later in flexion. Owing to variation in A-P positions of centers of curvature, the F-E axis is not strictly fixed in the femur.

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股骨髁矢状曲率变化分析
背景:在设计恢复原生(即健康)膝关节运动学的股骨组件时,屈伸(F-E)轴应与原生膝关节相匹配。由于 F-E 轴是由股骨髁关节面在矢状面上的曲率决定的,因此首要目标是确定曲率半径的变化:方法:通过高分辨率 CT 扫描生成 11 个高精度三维股骨模型。创建了每个髁的矢状面轮廓。根据最佳拟合节段圆确定弧长增量为 15 度的曲率半径。结果标准化为最佳拟合整体圆的半径,拟合范围为 15 - 105 度:结果:股骨内侧和外侧髁呈现多曲率半径矢状曲线,屈曲 30 度时半径分别减少 10 毫米和 15 度时减少 8 毫米。在下降的两侧,最佳拟合节段圆的半径相对恒定。在过渡角之外,内侧和外侧髁的曲率中心前后(A-P)位置分别相差 4.8 毫米和 2.3 毫米:结论:双曲率半径轮廓近似于两个原生股骨髁的曲率半径,但过渡角不同,股骨内侧髁的过渡角在屈曲时约晚15度。由于曲率中心 A-P 位置的变化,F-E 轴在股骨中并非严格固定。
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来源期刊
CiteScore
3.40
自引率
5.90%
发文量
169
审稿时长
4-8 weeks
期刊介绍: Artificial Organs and Prostheses; Bioinstrumentation and Measurements; Bioheat Transfer; Biomaterials; Biomechanics; Bioprocess Engineering; Cellular Mechanics; Design and Control of Biological Systems; Physiological Systems.
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