基于双平面 X 线片的三维后足对线测量：与标准 X 线测量的比较。

Three-dimensional hindfoot alignment measurements based on biplanar radiographs: comparison with standard radiographic measurements.

机构信息

Department of Radiology, University Hospital Balgrist, Forchstrasse 340, 8008, Zurich, Switzerland.

出版信息

Skeletal Radiol. 2013 Apr;42(4):493-8. doi: 10.1007/s00256-012-1543-x. Epub 2012 Nov 20.

DOI:10.1007/s00256-012-1543-x

PMID:23179737

Abstract

OBJECTIVE

To establish a hindfoot alignment measurement technique based on low-dose biplanar radiographs and compare with hindfoot alignment measurements on long axial view radiographs, which is the current reference standard.

MATERIALS AND METHODS

Long axial view radiographs and low-dose biplanar radiographs of a phantom consisting of a human foot skeleton embedded in acrylic glass (phantom A) and a plastic model of a human foot in three different hindfoot positions (phantoms B1-B3) were imaged in different foot positions (20° internal to 20° external rotation). Two independent readers measured hindfoot alignment on long axial view radiographs and performed 3D hindfoot alignment measurements based on biplanar radiographs on two different occasions. Time for three-dimensional (3D) measurements was determined. Intraclass correlation coefficients (ICC) were calculated.

RESULTS

Hindfoot alignment measurements on long axial view radiographs were characterized by a large positional variation, with a range of 14°/13° valgus to 22°/27° varus (reader 1/2 for phantom A), whereas the range of 3D hindfoot alignment measurements was 7.3°/6.0° to 9.0°/10.5° varus (reader 1/2 for phantom A), with a mean and standard deviation of 8.1° ± 0.6/8.7° ± 1.4 respectively. Interobserver agreement was high (ICC = 0.926 for phantom A, and ICC = 0.886 for phantoms B1-B3), and agreement between different readouts was high (ICC = 0.895-0.995 for reader 1, and ICC = 0.987-0.994 for reader 2) for 3D measurements. Mean duration of 3D measurements was 84 ± 15/113 ± 15 s for reader 1/2.

CONCLUSION

Three-dimensional hindfoot alignment measurements based on biplanar radiographs were independent of foot positioning during image acquisition and reader independent. In this phantom study, the 3D measurements were substantially more precise than the standard radiographic measurements.

摘要

目的

建立一种基于低剂量双平面 X 线片的足后足对线测量技术，并与目前的参考标准——长轴位 X 线片的足后足对线测量进行比较。

材料和方法

使用嵌入在亚克力玻璃中的人脚骨骼（A 型标本）和三种不同后足位置的人脚塑料模型（B1-B3 型标本）组成的标本，在不同的足部位置（内旋 20°至外旋 20°）拍摄长轴位 X 线片和低剂量双平面 X 线片。两名独立的观察者在两种不同情况下，分别在长轴位 X 线片上进行后足对线测量，并进行基于双平面 X 线片的 3D 后足对线测量。记录 3D 测量的时间。计算组内相关系数（ICC）。

结果

长轴位 X 线片上的后足对线测量具有较大的位置变化，范围为 14°/13°外翻至 22°/27°内翻（A 型标本的观察者 1/2），而 3D 后足对线测量的范围为 7.3°/6.0°至 9.0°/10.5°内翻（A 型标本的观察者 1/2），平均值和标准差分别为 8.1°±0.6/8.7°±1.4。观察者间的一致性较高（A 型标本的 ICC=0.926，B1-B3 型标本的 ICC=0.886），不同读数之间的一致性也较高（观察者 1 的 ICC=0.895-0.995，观察者 2 的 ICC=0.987-0.994）。3D 测量的平均用时为观察者 1/2 的 84±15/113±15s。

结论

基于双平面 X 线片的 3D 后足对线测量与图像采集时的足部位置无关，且不受观察者影响。在这项标本研究中，3D 测量比标准放射学测量精确得多。

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基于双平面 X 线片的三维后足对线测量：与标准 X 线测量的比较。

Three-dimensional hindfoot alignment measurements based on biplanar radiographs: comparison with standard radiographic measurements.

机构信息

出版信息

OBJECTIVE

MATERIALS AND METHODS

RESULTS

CONCLUSION

目的

材料和方法

结果

结论

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