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冠状骨折线在基于三维CT的双髁胫骨近端骨折新分类中的关键作用。

The pivotal role of the coronal fracture line for a new three-dimensional CT-based fracture classification of bicondylar proximal tibial fractures.

作者信息

Pätzold Robert, Friederichs Jan, von Rüden Christian, Panzer Stephanie, Bühren Volker, Augat Peter

机构信息

Department of Trauma Surgery, Trauma Center Murnau, Germany; Institute of Biomechanics, Paracelsus Medical University, Salzburg, Austria; Institute of Biomechanics, Trauma Center Murnau, Germany.

Department of Trauma Surgery, Trauma Center Murnau, Germany.

出版信息

Injury. 2017 Oct;48(10):2214-2220. doi: 10.1016/j.injury.2017.06.019. Epub 2017 Jun 27.

DOI:10.1016/j.injury.2017.06.019

PMID:28711171

Abstract

INTRODUCTION

Classical fracture classifications (AO/OTA, Schatzker) are commonly used to characterize bicondylar proximal tibial fractures. However, none of these classifications allows for a treatment algorithm. The aim of our study was to use 3D appearance of these fractures in CT imaging to improve the clinical value of the classification.

MATERIALS AND METHODS

3D appearance of 81 CT scans of bicondylar proximal tibial fractures were systematically analyzed and were classified in 3 subtypes, based on the fracture lines orientation. The novel classification was compared for reliability and for clinical relevance with AO and Schatzker classification.

RESULTS

A total of 159 fracture lines were identified which were most frequently oriented in sagittal (89/159), and in coronal (41/159) direction. Based on the orientation of the major fracture lines three fracture types were defined. A special emphasis was drawn to the coronal fracture line of the medial plateau leading to a surgical treatment algorithm. Interobserver reliability was analyzed for all 81 patients resulting in an excellent reliability of К=0.936 for the 3D classification scheme compared to К=0.720 for the AO/OTA, К=0.785 for the Schatzker classification. Correlations with clinical parameters were only observed for the 3D classification.

DISCUSSION

The presented classification scheme based on the 3D geometry of bicondylar proximal tibial fractures demonstrates a good reliability of clinical relevance.

摘要

引言

经典的骨折分类（AO/OTA、Schatzker）常用于描述胫骨近端双髁骨折。然而，这些分类均未提供治疗方案。我们研究的目的是利用这些骨折在CT成像中的三维表现来提高分类的临床价值。

材料与方法

系统分析了81例胫骨近端双髁骨折的CT扫描三维表现，并根据骨折线方向分为3个亚型。将这种新的分类与AO和Schatzker分类在可靠性和临床相关性方面进行比较。

结果

共识别出159条骨折线，其中最常见的方向是矢状面（89/159）和冠状面（41/159）。根据主要骨折线的方向定义了三种骨折类型。特别强调了导致手术治疗方案的内侧平台冠状骨折线。对所有81例患者进行了观察者间可靠性分析，结果显示三维分类方案的可靠性极佳，К=0.936，而AO/OTA分类的К=0.720，Schatzker分类的К=0.785。仅在三维分类中观察到与临床参数的相关性。

讨论

基于胫骨近端双髁骨折三维几何形状提出的分类方案显示出良好的临床相关性可靠性。

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冠状骨折线在基于三维CT的双髁胫骨近端骨折新分类中的关键作用。

The pivotal role of the coronal fracture line for a new three-dimensional CT-based fracture classification of bicondylar proximal tibial fractures.

作者信息

机构信息

出版信息

INTRODUCTION

MATERIALS AND METHODS

RESULTS

DISCUSSION

引言

材料与方法

结果

讨论

相似文献

引用本文的文献

文献AI研究员

用中文搜PubMed

文档翻译