下颌角骨折新型固定装置的生物力学评估

Biomechanical evaluation of new fixation devices for mandibular angle fractures.

作者信息

Wittenberg J M, Mukherjee D P, Smith B R, Kruse R N

机构信息

Louisiana State University Medical Center, Shreveport, USA.

出版信息

Int J Oral Maxillofac Surg. 1997 Feb;26(1):68-73. doi: 10.1016/s0901-5027(97)80852-1.

DOI:10.1016/s0901-5027(97)80852-1

PMID:9081259

Abstract

This biomechanical study investigated the effectiveness of fixation devices of simulated angle fractures in sheep mandibles. The fractures were stabilized by a Leibinger 8-hole three-dimensional (3-D) plate, a Synthes eight-hole mesh plate, and a Synthes six-hole reconstruction plate with 2.0-mm and 2.4-mm mono- and bicortical screws. Each mandible was tested in bending (class III cantilever model). The bone mineral density of the mandibles was measured by computed tomography scan. The Leibinger 3-D plate showed plate deformation in bending of > 230 N. None of the plates showed failure in the bone/screw interface. The gap and displacement values for the mesh and 3-D plate were comparable to those of the reconstruction plate. These results indicate that a 3-D or mesh plate can be used for fixation of mandibular angle fractures.

摘要

这项生物力学研究调查了绵羊下颌骨模拟角部骨折固定装置的有效性。骨折通过莱宾格8孔三维（3-D）钢板、辛迪思8孔网板以及带有2.0毫米和2.4毫米单皮质和双皮质螺钉的辛迪思6孔重建钢板进行固定。每个下颌骨在弯曲测试中（III类悬臂模型）进行检测。通过计算机断层扫描测量下颌骨的骨矿物质密度。莱宾格3-D钢板在弯曲力>230 N时出现钢板变形。所有钢板在骨/螺钉界面均未出现失效。网板和3-D钢板的间隙和位移值与重建钢板相当。这些结果表明，3-D或网板可用于下颌角骨折的固定。

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下颌角骨折新型固定装置的生物力学评估

Biomechanical evaluation of new fixation devices for mandibular angle fractures.

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