使用电磁关节图(EMA)确定下颌骨边界和功能运动协议。

IF 0.2 Q4 MEDICINE, RESEARCH & EXPERIMENTAL International journal of clinical and experimental medicine Pub Date : 2015-11-15 eCollection Date: 2015-01-01
Ramon Fuentes, Pablo Navarro, Aldo Curiqueo, Nicolas E Ottone
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引用次数: 0

摘要

电磁发音图仪(EMA)是一种可通过多点定位传感器收集运动数据的设备,可实时测量结构的位移,还可使用连接到测量系统的麦克风测量语音的声学和力学。本研究旨在介绍使用 EMA 在三个空间平面(正面、矢状面和水平面)上生成、测量和可视化下颌骨边界和功能运动的协议。EMA 具有发射线圈,可确定磁场,以收集来自不同结构(舌、上颚、口腔、门牙、皮肤等)上的传感器的运动信息,以及 300 毫米范围内各个方向的运动信息。使用 EMA 测量后,信息会被传输到电脑上,并通过 Visartico 软件读取,以可视化方式记录 EMA 所记录的下颌骨运动。通过观察放置在 XYZ 三轴之间空间的传感器,然后可视化根据相应方案中的下颌运动绘制的曲线图,从而解读这些数据。我们定义并开发了四种用于获取下颌开合运动图像的方案,以及额面、矢状面和水平面的边界运动图像,能够在后两个轴上准确再现波塞尔图和哥特式拱门。通过 EMA 测量,可以收集到与下颌临床生理学和形态学有关的更精确的数据,这将使诊断更加准确,并在未来应用更加精确和调整的治疗方法。
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Determination of mandibular border and functional movement protocols using an electromagnetic articulograph (EMA).

The electromagnetic articulograph (EMA) is a device that can collect movement data by positioning sensors at multiple points, measuring displacements of the structure in real time, as well as the acoustics and mechanics of speech using a microphone connected to the measurement system. The aim of this study is to describe protocols for the generation, measurement and visualization of mandibular border and functional movements in the three spatial planes (frontal, sagittal and horizontal) using the EMA. The EMA has transmitter coils that determine magnetic fields to collect information about movements from sensors located on different structures (tongue, palate, mouth, incisors, skin, etc.) and in every direction in an area of 300 mm. After measurement with the EMA, the information is transferred to a computer and read with the Visartico software to visualize the recording of the mandibular movements registered by the EMA. The sensors placed in the space between the three axes XYZ are observed, and then the plots created from the mandibular movements included in the corresponding protocol can be visualized, enabling interpretation of these data. Four protocols for the obtaining of images of the opening and closing mandibular movements were defined and developed, as well as border movements in the frontal, sagittal and horizontal planes, managing to accurately reproduce Posselt's diagram and Gothic arch on the latter two axes. Measurements with the EMA will allow more exact data to be collected in relation to the mandibular clinical physiology and morphology, which will permit more accurate diagnoses and application of more precise and adjusted treatments in the future.

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