对大转子放射学标志的新认识，这些标志可指示用于测量股骨偏移的正确股骨旋转。

A new understanding of radiographic landmarks of the greater trochanter that indicate correct femoral rotation for measurement of femoral offset.

作者信息

Tatka Jakub, Delagrammaticas Dimitri, Kemler Bryson R, Rosenberg Samuel I, Brady Alex W, Bryniarski Anna R, Dornan Grant J, Matta Joel M

机构信息

The Steadman Clinic, Vail, CO, USA.

Steadman Philippon Research Institute, 181 W Meadow Drive, Suite 1000, Vail, CO, 81657, USA.

出版信息

Arthroplasty. 2022 Jun 1;4(1):21. doi: 10.1186/s42836-022-00121-y.

DOI:10.1186/s42836-022-00121-y

PMID:35642019

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC9158296/

Abstract

OBJECTIVES

To establish and validate a novel method for aligning femoral rotation to accurately measure femoral offset for preoperative templating and component sizing, and to identify the physical location of two radiographic lines utilized in the described method.

MATERIALS AND METHODS

Cadaveric proximal femurs were skeletonized and mounted to a biaxial load frame. Two radiographic lines along the greater trochanter were identified fluoroscopically. The femurs were rotated, and images were taken when the lines appeared superimposed, then in 2-degree increments to 10° of internal and external rotation, and at 30°. Radiographic femoral offset was calculated at each angle, and the maximum and aligned offsets were compared. Bone was removed until the radiographic lines disappeared, then a metal wire was inserted in place of the bone to confirm that the lines reappeared.

RESULTS

The physical locations of the radiographic landmarks were on the anterior and posterior aspects of the greater trochanter. The mean true femoral offset was 38.2 mm (range, 30.5-46.3 mm). The mean aligned femoral offset was 37.3 mm (range, 29.3-46.3 mm), a 2.4% underestimation. The mean angle between aligned and true offset was 3.6° of external rotation (range, 10°ER-8°IR). Intra-rater intraclass correlation coefficient was 0.991.

CONCLUSION

Alignment of the radiographic lines created by the anterior and posterior aspects of the greater trochanter is a reliable and accurate rotational positioning method for measuring true femoral offset when using plain films or fluoroscopy, which can aid surgeons with preoperative templating and intraoperative component placement for total hip arthroplasty.

摘要

目的

建立并验证一种用于对齐股骨旋转以精确测量股骨偏心距的新方法，用于术前模板制作和假体组件尺寸确定，并确定该方法中使用的两条X射线线的物理位置。

材料与方法

将尸体近端股骨骨骼化并安装到双轴加载框架上。通过荧光透视确定沿大转子的两条X射线线。旋转股骨，当两条线看起来重叠时拍摄图像，然后以2度增量旋转至内旋和外旋10°，并在30°时拍摄。计算每个角度的X射线股骨偏心距，并比较最大偏心距和对齐后的偏心距。去除骨组织直至X射线线消失，然后插入金属丝代替骨组织以确认线重新出现。

结果

X射线标志的物理位置位于大转子的前侧和后侧。平均真实股骨偏心距为38.2毫米（范围为30.5 - 46.3毫米）。平均对齐后的股骨偏心距为37.3毫米（范围为29.3 - 46.3毫米），低估了2.4%。对齐后的偏心距与真实偏心距之间的平均角度为外旋3.6°（范围为外旋10° - 内旋8°）。评估者内组内相关系数为0.991。

结论

由大转子的前侧和后侧形成的X射线线对齐是一种可靠且准确的旋转定位方法，用于在使用平片或荧光透视时测量真实股骨偏心距，这有助于外科医生进行全髋关节置换术的术前模板制作和术中假体组件放置。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/f648/9158296/256666e7226c/42836_2022_121_Fig1_HTML.jpg

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对大转子放射学标志的新认识，这些标志可指示用于测量股骨偏移的正确股骨旋转。

A new understanding of radiographic landmarks of the greater trochanter that indicate correct femoral rotation for measurement of femoral offset.

作者信息

机构信息

出版信息

OBJECTIVES

MATERIALS AND METHODS

RESULTS

CONCLUSION

目的

材料与方法

结果

结论

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