Three-Plane Alignment of the Second Metatarsal Improves Reliability of Weightbearing CT Measurements in Lisfranc Injury Assessment.

Foot & Ankle Orthopaedics Pub Date : 2025-09-25 eCollection Date: 2025-07-01 DOI:10.1177/24730114251372593

Wolfram Grün, Pierre-Henri Vermorel, Emily J Luo, Daniel Yang, Enrico Pozzessere, Grayson M Talaski, Francois Lintz, Cesar de Cesar Netto

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引用次数: 0

Abstract

Background: Lisfranc injuries pose diagnostic challenges, particularly in evaluating joint stability. Conventional weightbearing computed tomography (WBCT)-based distance measurements of the C1-M2 interval fail to account for the second metatarsal's triplanar orientation, potentially leading to inaccuracies. This study introduces a new 3D-corrected triplanar measurement method correcting for axial, coronal, and sagittal alignment to improve diagnostic accuracy.

Methods: In this retrospective study, 31 patients with acute Lisfranc injuries underwent bilateral WBCT. Injuries were defined based on radiographic findings in the first to third tarsometatarsal joints and the C1-M2 interval. Two fellowship-trained foot and ankle surgeons independently performed manual measurements using a previously described uniplanar method and a new triplanar technique, applied proximally and distally in the C1-M2 interval. Intra- and interrater reliability were assessed via intraclass correlation coefficients (ICCs), and side-to-side differences were compared using paired statistical tests.

Results: The triplanar method demonstrated higher ICCs (intraobserver: 0.96-0.97; interobserver: 0.94-0.97) than the uniplanar method (intraobserver: 0.86-0.91; interobserver: 0.84-0.90), with distal measurements showing the highest reliability. Notably, the uniplanar method incorrectly measured the M1-M2 interval instead of the intended C1-M2 interval in 22.6% of injured feet. No such errors occurred in contralateral feet or with the triplanar method, which demonstrated 100% intra- and interobserver agreement. All 6 performed C1-M2 measurements showed significant differences between injured and contralateral feet (P < .05). The triplanar method applied distally in the coronal plane yielded the greatest absolute side-to-side difference (1.81 mm, SD 1.60).

Conclusion: This study demonstrates excellent intra- and interobserver reliability for a novel WBCT-based method that realigns the measurement planes with the second metatarsal rather than the floor. This method improves measurement precision and prevents systematic errors observed with previous techniques, particularly the misidentification of the M1-M2 interval using uniplanar methods. Clinical validation studies correlating measurements with surgical outcomes are needed to establish diagnostic thresholds and confirm clinical utility.

Level of evidence: Level III, retrospective diagnostic study.

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第二跖骨的三平面对准提高了负重CT测量在Lisfranc损伤评估中的可靠性。

背景：Lisfranc损伤给诊断带来挑战，特别是在评估关节稳定性方面。传统的基于负重计算机断层扫描（WBCT）的C1-M2间隔距离测量不能解释第二跖骨的三面定向，可能导致不准确。本研究介绍了一种新的三维校正三面测量方法，用于轴向、冠状和矢状面校正，以提高诊断准确性。方法：回顾性研究31例急性Lisfranc损伤患者行双侧全脑ct。根据第一至第三跗跖关节和C1-M2间段的x线表现确定损伤。两名训练有素的足部和踝关节外科医生独立地使用先前描述的单平面方法和新的三平面技术进行手动测量，在C1-M2间段近端和远端应用。通过类内相关系数（ICCs）评估组内和组间信度，并使用配对统计检验比较组间差异。结果：三平面法的ICCs（观察者内：0.96-0.97；观察者间：0.94-0.97）高于单平面法（观察者内：0.86-0.91；观察者间：0.84-0.90），远端测量的可靠性最高。值得注意的是，在22.6%的受伤足部中，单平面法错误地测量了M1-M2间隔，而不是预期的C1-M2间隔。在对侧足或三面法中没有发生这种错误，这表明观察者内部和观察者之间100%一致。所有6例C1-M2测量在受伤和对侧足之间显示出显著差异(P结论：这项研究证明了一种基于wbct的新方法在观察者内部和观察者之间的出色可靠性，该方法将测量平面重新调整为第二跖骨而不是地板。该方法提高了测量精度，防止了以往技术观测到的系统误差，特别是使用单平面方法对M1-M2区间的错误识别。需要将测量与手术结果相关联的临床验证研究来建立诊断阈值并确认临床效用。证据等级：III级，回顾性诊断研究。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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来源期刊

Foot & Ankle Orthopaedics Medicine-Orthopedics and Sports Medicine

CiteScore

1.20

自引率

0.00%

发文量

1152