[Biomechanical study on the mechanism of the mandibular condylar fracture. 1].

Nihon Ago Kansetsu Gakkai Zasshi Pub Date : 1989-01-01
M Inada, T Konuma, J Shimada, Y Kato, Y Hiranuma, E Sakamoto, Y Yamamoto
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Abstract

The condylar process is one of the sites predisposed to fracture clinical and experimental studies on the fracture mechanism have so far been undertaken by a number of our predecessor. However, the difference in the fracture mechanisms of intracapsular and extracapsular fracture has not completely been determined yet. In a Japanese Journal of Oral and Maxillofacial Surgery: Vol.32, 1362-1381, 1986: Shimada have previously reported the strong possibility that the direction and extend of fracture lines in the fracture of condylar process were influenced by the morphological characteristics of the condylar head. In order to verify this postulation, stress distribution patterns by the cross-sectional morphology of various types of condylar heads were investigated by two-dimensional finite element method, using 15 Indian edentulous mandibles. In this analysis, loading was applied to three directions in the model of the mandibular body, and two directions in the model of the mandibular head. The results indicated the following something. 1) With the loading in the direction of condylar head from mandibular angle, compressed stress arose on the condylar head with the surface. And with the loading in the direction of condylar head from chin and mandibular body, tugged stress arose on the condylar neck. 2) With the loading in the direction of vertical, these were conjectured that comminuted fracture arose on convex type, sagittal fracture arose on concave type and a style midway fracture arose on straight type. 3) With the loading in the direction of lateral, these were conjectured that fracture of condylar neck arose on the three types, especially the tendency was remarkable on straight type.

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下颌髁突骨折发生机制的生物力学研究。1]。
髁突是易发生骨折的部位之一,迄今为止,我们的一些前辈已经进行了关于骨折机制的临床和实验研究。然而,囊内骨折和囊外骨折在骨折机制上的差异尚未完全确定。在日本口腔颌面外科杂志:Vol.32, 1362-1381, 1986: Shimada先前报道了髁突骨折中骨折线的方向和延伸很可能受到髁突头形态特征的影响。为了验证这一假设,采用二维有限元法研究了15例印度无牙下颌骨不同类型髁突头的横截面应力分布规律。在本分析中,在下颌骨体模型中施加三个方向的载荷,在下颌头模型中施加两个方向的载荷。结果表明了以下几点。1)从下颌角向髁突头方向加载时,髁突头与表面产生压应力。随着载荷从下颌和下颌骨向髁头方向移动,在髁颈上产生了拉力。2)竖向加载时,推测凸型为粉碎性骨折,凹型为矢状骨折,直型为花式中途骨折。3)随着载荷向外侧方向移动,推测三种类型均发生髁突颈骨折,其中直型骨折趋势显著。
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