Department of Dental Anesthesia, Anesthesia and Critical Care Center, Kagoshima University Medical and Dental Hospital, Japan.
Arch Oral Biol. 2011 Dec;56(12):1616-23. doi: 10.1016/j.archoralbio.2011.07.004.
Occlusal contact area (OCA) is most important during the occlusal phase when food particles are being pulverized. OCA is most easily measured statically at the maximum intercuspal position (ICP). However, the assumption of coincidence between dynamic maximum closing position (MCP) and statically determined ICP has not been previously tested. The purpose of this study is to introduce a method of quantifying OCA of all teeth during dynamic mastication to determine whether the OCA at the dynamic MCP during chewing is similar to the statically determined maximum possible OCA.
Thirteen healthy females participated in this study. Morphologic tooth shape data were measured from dental models using an automatic 3D digitizer. Mandibular movement during gum chewing was recorded using an optoelectronic analysis system with 6 degrees of freedom, and ten cycles were selected for analysis. The dynamic OCA was estimated with a measurement system combining 3D tracking of mandibular movements with 3D digitization of tooth shape.
The estimated mean 3D difference between the incisor position at ICP and MCP was 0.129 mm. At the dynamic MCP, the maximum OCA was 98.5% (68.42 mm(2)) of the maximum possible contact area in the static ICP (69.46 mm(2)). Both between-subject and within-subject variation were least at the dynamic MCP.
The maximum OCA during chewing is nearly identical to statically determined maximum possible OCA.
在咀嚼食物颗粒的咬合阶段,咬合接触面积(OCA)最为重要。OCA 最容易在最大牙尖交错位(ICP)静态测量。然而,动态最大闭合位(MCP)与静态确定的 ICP 之间的重合假设尚未经过先前的测试。本研究的目的是介绍一种在动态咀嚼期间量化所有牙齿 OCA 的方法,以确定咀嚼过程中动态 MCP 处的 OCA 是否与静态确定的最大可能 OCA 相似。
13 名健康女性参与了这项研究。使用自动 3D 数字化仪从牙模上测量形态牙齿形状数据。使用具有 6 个自由度的光电分析系统记录下颌咀嚼时的运动,并选择 10 个周期进行分析。通过将下颌运动的 3D 跟踪与牙齿形状的 3D 数字化相结合的测量系统来估计动态 OCA。
ICP 和 MCP 处切牙位置的估计平均 3D 差值为 0.129mm。在动态 MCP 处,最大 OCA 为静态 ICP(69.46mm²)中最大可能接触面积的 98.5%(68.42mm²)。在动态 MCP 处,个体间和个体内的差异最小。
咀嚼过程中的最大 OCA 几乎与静态确定的最大可能 OCA 相同。
