跗跖关节复合体损伤：同侧完全性损伤的损伤模式研究。

Tarsometatarsal joint complex injuries: A study of injury pattern in complete homolateral lesions.

机构信息

Department of General Orthopedics and Traumatology, Azienda Ospedaliera Universitaria Careggi, Largo Brambilla 3, 50134, Florence, Italy.

出版信息

Injury. 2019 Jul;50 Suppl 2:S8-S11. doi: 10.1016/j.injury.2019.01.038. Epub 2019 Feb 2.

DOI:10.1016/j.injury.2019.01.038

PMID:30745126

Abstract

INTRODUCTION

Tarsometatarsal joint complex (TMC) is the anatomical structure of midfoot composed by metatarsals, tarsometatarsal (TMT) joints, cuneiforms, cuboid and navicular. TMC lesion are rare but critical since they cause severe disability if misdiagnosed. The knowledge of anatomic pattern of the lesion and biomechanics of the midfoot is the key for a successful diagnosis and treatment. The aim of this study was to review a consecutive series of TMC injuries analyzing preoperative radiograph and CT scan to accurately define the pattern of ligament and bone injuries.

MATERIAL AND METHODS

We reviewed a series of 24 complete TMC injuries with homolateral dorsolateral dislocation. The total TMT joints involved were 120. We observed if the lesions were pure ligamentous or fracture-dislocation detecting the extent and the location of fractures. Twenty-nine lesions (24%) were pure dislocations and they were mainly localized in the first and fifth ray. The fracture-dislocations were 91 (76%) and 25 were fractures of the proximal row (cuneiforms and cuboid), 39 of the distal row (metatarsals), 27 of both the distal and proximal row.

RESULTS

Proximal fracture had a homogeneous distribution and they were more frequently simple than comminuted. Comminuted fractures were more frequent in the cuboid. In the proximal row, majority of partial articular fractures were localized in the dorsal side. Fracture-dislocations of the distal row were more frequent in the second metatarsal base (100%) and the partial articular fractures were always placed in the plantar side. In TMC injuries fracture-dislocations are more frequent than pure dislocations. Pure dislocations occur more often in the marginal rays that are characterized by weaker ligaments and larger mobility. The second ray, where there is the more stable joint of TMC, was never dislocated with a pure ligamentous lesion.

CONCLUSIONS

We suppose that plantar avulsion from the distal row and dorsal compression fracture of the proximal row is consistent with a direct force applied to the forefoot and direct dorsolaterally. The direction of the forces may explain why some fractures occur in the distal row, some in the proximal and some in both rows. The thickness of plantar ligaments may explain the frequency of plantar bone fragment avulsion.

摘要

简介

跗跖关节复合体（TMC）是由跖骨、跗跖（TMT）关节、楔骨、骰骨和舟骨组成的中足解剖结构。TMC 损伤很少见，但很关键，因为如果误诊会导致严重的残疾。了解损伤的解剖模式和中足的生物力学是成功诊断和治疗的关键。本研究的目的是回顾一系列 TMC 损伤，分析术前 X 线和 CT 扫描，以准确确定韧带和骨损伤的模式。

材料和方法

我们回顾了 24 例同侧背外侧脱位的完全 TMC 损伤系列。总共涉及 120 个 TMT 关节。我们观察了损伤是否为单纯韧带性或骨折脱位，检测骨折的程度和位置。29 处（24%）为单纯脱位，主要位于第一和第五跖骨。骨折脱位 91 处（76%），其中 25 处为近排（楔骨和骰骨）骨折，39 处为远排（跖骨）骨折，27 处为远排和近排骨折。

结果

近排骨折分布均匀，单纯骨折比粉碎性骨折更常见。粉碎性骨折更常见于骰骨。近排的大多数部分关节骨折位于背侧。远排骨折脱位更常见于第二跖骨基底（100%），部分关节骨折始终位于跖侧。在 TMC 损伤中，骨折脱位比单纯脱位更常见。单纯脱位更常发生在边缘射线，其特点是韧带较弱，活动度较大。第二射线，即 TMC 更稳定的关节，从未因单纯韧带损伤而脱位。