三维距离映射以确定外侧柱延长的安全区域。

Three-Dimensional Distance Mapping to Identify Safe Zones for Lateral Column Lengthening.

作者信息

Efrima Ben, Barbero Agustin, Ramalingam Kuharajan, Indino Cristian, Maccario Camilla, Usuelli Federico Giuseppe

机构信息

Foot and Ankle Unit, Humanitas San Pio X Hospital, Milan, Italy.

出版信息

Foot Ankle Int. 2023 Oct;44(10):1061-1069. doi: 10.1177/10711007231185328. Epub 2023 Aug 5.

DOI:10.1177/10711007231185328

PMID:37542418

Abstract

BACKGROUND

Evans (E-LCL) and Hintermann LCL (H-LCL) lateral column lengthening osteotomies are standard surgical solutions for flexible, progressive collapsing feet. E-LCL is performed between the anterior and middle facets and endangers specific os calcis subtalar joint (OCST) subtypes without distinct facets. H-LCL is oriented between the posterior and middle facets and should be suitable for all OCSTs. Both osteotomies are associated with increased subtalar osteoarthritis, indicating iatrogenic damage. Distance mapping (DM) enables visualization of the relative distance between 2 articular surfaces represented by color patterns. This study aims to measure the safe zones for LCL using 3-dimensional (3D) models and DM; we hypothesize that it could be measured with high reproducibility.

METHODS

Two raters categorized 200 feet across 134 patients into OCSTs based on the Bruckner classification. Four angles were measured independently. The proximal and distal extents of the posterior safe zone (PSZ) angles were determined for H-LCL osteotomies; similarly, the proximal and distal extents of the anterior safe zone (ASZ) angles were identified for E-LCL osteotomies. Consequently, the surface available for safe osteotomies were calculated. An interclass correlation was used to assess the agreement between the 2 raters. Additionally, analysis of variance and Mann-Whitney test were used to compare the safe zones between OCSTs.

RESULTS

The mean proximal and distal extents of the PSZ angles were 68 ± 7 and 75 ± 5 degrees from a line parallel to the lateral border of the calcaneus, respectively, and the proximal and distal extent of the ASZ angles were 89 ± 6 and 95 ± 5 degrees, respectively. There were no statistically significant differences between the OCSTs. Two raters measured the angles with good to excellent interrater and intrarater agreement. In 18 cases, we were unable to plan for H-LCL or E-LCL osteotomies.

CONCLUSION

Distance mapping could be used to measure the safe zone, tailor a preoperative plan, and potentially reduce the risk for iatrogenic damage in LCL. 3D models and DM can increase the reliability of preoperative plans in bones with complex 3D structures.

LEVEL OF EVIDENCE

Level III, retrospective comparative study.

摘要

背景

埃文斯（E-LCL）和欣特曼外侧柱延长截骨术是治疗柔韧性、进行性塌陷足的标准手术方法。E-LCL手术在距骨前关节面和中关节面之间进行，会危及没有明显关节面的特定跟骨距下关节（OCST）亚型。H-LCL手术在距骨后关节面和中关节面之间进行，应该适用于所有OCST亚型。两种截骨术均与距下骨关节炎增加有关，提示存在医源性损伤。距离映射（DM）能够通过颜色模式直观显示两个关节面之间的相对距离。本研究旨在使用三维（3D）模型和DM测量外侧柱延长截骨术的安全区；我们假设其测量具有高重复性。

方法

两名评估者根据布鲁克纳分类法将134例患者的200只足分类为OCST亚型。独立测量四个角度。确定H-LCL截骨术的后安全区（PSZ）角度的近端和远端范围；同样，确定E-LCL截骨术的前安全区（ASZ）角度的近端和远端范围。因此，计算出可进行安全截骨术的表面面积。使用组内相关系数评估两名评估者之间的一致性。此外，使用方差分析和曼-惠特尼检验比较不同OCST亚型之间的安全区。

结果

PSZ角度的近端和远端平均范围分别为与跟骨外侧缘平行的线成68±7度和75±5度，ASZ角度的近端和远端范围分别为89±6度和95±5度。不同OCST亚型之间无统计学显著差异。两名评估者测量角度时，评估者间和评估者内一致性良好至优秀。在18例病例中，我们无法规划H-LCL或E-LCL截骨术。

结论

距离映射可用于测量安全区、制定术前计划，并可能降低外侧柱延长截骨术中医源性损伤的风险。3D模型和DM可提高具有复杂3D结构骨骼术前计划的可靠性。

证据水平

III级，回顾性比较研究。

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三维距离映射以确定外侧柱延长的安全区域。

Three-Dimensional Distance Mapping to Identify Safe Zones for Lateral Column Lengthening.

作者信息

机构信息

出版信息

BACKGROUND

METHODS

RESULTS

CONCLUSION

LEVEL OF EVIDENCE

背景

方法

结果

结论

证据水平

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