A Novel Imaging Analysis Method for Capturing Pharyngeal Constriction During Swallowing.

Journal of imaging science Pub Date : 2016-01-01 Epub Date: 2016-08-25
Ryan W Schwertner, Kendrea L Garand, William G Pearson
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Abstract

Videofluoroscopic imaging of swallowing known as the Modified Barium Study (MBS) is the standard of care for assessing swallowing difficulty. While the clinical purpose of this radiographic imaging is to primarily assess aspiration risk, valuable biomechanical data is embedded in these studies. Computational analysis of swallowing mechanics (CASM) is an established research methodology for assessing multiple interactions of swallowing mechanics based on coordinates mapping muscle function including hyolaryngeal movement, pharyngeal shortening, tongue base retraction, and extension of the head and neck, however coordinates characterizing pharyngeal constriction is undeveloped. The aim of this study was to establish a method for locating the superior and middle pharyngeal constrictors using hard landmarks as guides on MBS videofluoroscopic imaging, and to test the reliability of this new method. Twenty de-identified, normal, MBS videos were randomly selected from a database. Two raters annotated landmarks for the superior and middle pharyngeal constrictors frame-by-frame using a semi-automated MATLAB tracker tool at two time points. Intraclass correlation coefficients were used to assess test-retest reliability between two raters with an ICC = 0.99 or greater for all coordinates for the retest measurement. MorphoJ integrated software was used to perform a discriminate function analysis to visualize how all 12 coordinates interact with each other in normal swallowing. The addition of the superior and middle pharyngeal constrictor coordinates to CASM allows for a robust analysis of the multiple components of swallowing mechanics interacting with a wide range of variables in both patient specific and cohort studies derived from common use imaging data.

Abstract Image

Abstract Image

Abstract Image

一种捕捉吞咽过程中咽部收缩的新型成像分析方法。
被称为改良钡研究(MBS)的吞咽视频透视成像是评估吞咽困难的护理标准。虽然这种放射成像的临床目的主要是评估误吸风险,但这些研究中包含了有价值的生物力学数据。吞咽力学计算分析(Computational analysis of吞咽力学,CASM)是一种基于绘制肌肉功能坐标的研究方法,用于评估咽部运动、咽部缩短、舌根收缩、头颈部伸展等吞咽力学的多重相互作用,但表征咽部收缩的坐标尚未开发。本研究的目的是建立一种在MBS显像上以硬标志为导向定位咽上、中缩肌的方法,并检验这种新方法的可靠性。从数据库中随机选择20个去识别的、正常的MBS视频。两名评分员使用半自动MATLAB跟踪工具在两个时间点逐帧标注上咽收缩肌和中咽收缩肌的标志。类内相关系数用于评估两个评分者之间的重测信度,对于所有重测测量坐标,ICC = 0.99或更大。使用MorphoJ集成软件进行判别函数分析,以可视化所有12个坐标在正常吞咽时如何相互作用。在CASM中加入上咽收缩器和中咽收缩器坐标,可以对吞咽力学的多个组成部分进行强有力的分析,这些组成部分与来自常用成像数据的患者特异性和队列研究中的广泛变量相互作用。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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