用于下颌骨髁突颈部骨折切开坚固内固定的“A”形钢板

"A" shape plate for open rigid internal fixation of mandible condyle neck fracture.

作者信息

Kozakiewicz Marcin, Swiniarski Jacek

机构信息

Department of Maxillofacial Surgery (Head: Marcin Kozakiewicz), Medical University of Lodz, Zeromskiego 113, 90-549 Lodz, Poland.

Department of Strength of Materials and Structures (Head: Zbigniew Kolakowski), Technical University of Lodz, Stefanowskiego 1/15, 90-924 Lodz, Poland.

出版信息

J Craniomaxillofac Surg. 2014 Sep;42(6):730-7. doi: 10.1016/j.jcms.2013.11.003. Epub 2013 Nov 21.

DOI:10.1016/j.jcms.2013.11.003

PMID:24359864

Abstract

INTRODUCTION

Reduction of the fracture is crucial for proper outcome of the treatment. The stability of reduction is closed connected to the method of its fixation. The topic of condylar fracture osteosynthesis still remains highly controversial and challenging. That is why authors decided to propose novel design of the fixating plate and the example of its application. The aim of this study was to present A-shape plate dedicated to rigid fixation of mandible condyle neck fracture.

MATERIAL AND METHODS

A-shape condylar plate (ACP) design is prepared of 1.0 mm thick titanium alloy (grade 5) sheet: posterior and anterior bars are reinforced by widening to 2.5 mm and anatomically curved along the compression and traction lines in ramus and condylar neck. Superior three-hole-group has triangular organization and located on the level of condylar head. The inferior extensions of the bars are equipped in three holes located at each of lower tails. Connecting bar (2.0 mm wide) connects the first hole of each lower tails closing upper part of ACP in triangular shape. The connecting bar runs along compression line of condylar neck. Holes in ACP has 2.0 mm diameter for locking or normal screws. Height of ACP is 31 mm. The proposed new type of plate was compared by finite element analysis (FEA) to nowadays manufactured 9-hole trapezoid plate as the most similar device. ACP design was evaluated by finite element analysis (FEA) and later applied in patient affected with high condylar neck fracture complicated by fracture of coronoid process.

RESULTS

FEA revealed high strength of ACP and more stabile fixation than trapezoid plate. The result was caused by multipoint fixation at three regions of the plate and reinforced bars supported by semi-horizontal connecting bar. Clinical application of ACP was as versatile as makes possible to simultaneous fixation of high condylar neck and coronoid process fracture.

CONCLUSION

Application of proposed A-shape condylar plate would be possible in all levels of neck fractures and can be use for stabilization additionally existed coronoid process fracture.

摘要

引言

骨折复位对于治疗的良好效果至关重要。复位的稳定性与固定方法密切相关。髁突骨折的接骨术这一话题仍然极具争议且具有挑战性。这就是为什么作者决定提出一种新型固定板设计及其应用实例。本研究的目的是介绍一种用于下颌骨髁突颈部骨折坚强内固定的A形钢板。

材料与方法

A形髁突钢板（ACP）由1.0毫米厚的钛合金（5级）板材制成：前后杆通过加宽至2.5毫米进行加固，并沿升支和髁突颈部的压力线和张力线进行解剖学弯曲。上方的三孔组呈三角形结构，位于髁突头部水平。杆的下方延伸部分在每个下尾部各设有三个孔。连接杆（宽2.0毫米）连接每个下尾部的第一个孔，使ACP的上部呈三角形闭合。连接杆沿着髁突颈部的压力线走行。ACP上的孔直径为2.0毫米，用于锁定螺钉或普通螺钉。ACP的高度为31毫米。通过有限元分析（FEA）将所提出的新型钢板与目前制造的9孔梯形钢板（最相似的器械）进行比较。通过有限元分析（FEA）对ACP设计进行评估，随后应用于患有高位髁突颈部骨折并伴有冠状突骨折的患者。

结果

有限元分析显示ACP具有高强度，且固定比梯形钢板更稳定。这一结果是由钢板三个区域的多点固定以及由半水平连接杆支撑的加固杆所致。ACP的临床应用具有多功能性，能够同时固定高位髁突颈部骨折和冠状突骨折。

结论

所提出的A形髁突钢板可应用于所有颈部骨折水平，并且可用于稳定额外存在的冠状突骨折。

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用于下颌骨髁突颈部骨折切开坚固内固定的“A”形钢板

"A" shape plate for open rigid internal fixation of mandible condyle neck fracture.

作者信息

机构信息

出版信息

INTRODUCTION

MATERIAL AND METHODS

RESULTS

CONCLUSION

引言

材料与方法

结果

结论

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