The Application of Ultrasound Evaluation of Swallowing to the Analysis of Hyoid Kinematics in Healthy Swallows.

IF 2.2 2区医学 Q1 AUDIOLOGY & SPEECH-LANGUAGE PATHOLOGY

Journal of Speech Language and Hearing Research Pub Date : 2025-05-08 Epub Date: 2025-04-07 DOI:10.1044/2025_JSLHR-24-00663

Joan K-Y Ma, Alan A Wrench

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引用次数: 0

Abstract

Purpose: Using ultrasound as an adjunct tool for swallowing assessment has gained significant momentum in recent years, with research gaps in areas such as speech and language therapist-driven protocol and measurement methods. This study outlines the recording protocol of Ultrasound Evaluation of Swallowing (USES). Additionally, a set of multidimensional measurements capturing the hyoid kinematics in typical swallows was compared with previous studies to evaluate the current protocol and to develop an ultrasound database of healthy swallows to further the clinical implementation of USES.

Method: Swallowing data were acquired from 41 healthy participants. Both discrete swallows (5- and 10-ml) and continuous swallows (100-ml) were analyzed. Automatic tracking of the hyoid and mandible positions using a deep neural net was applied. Six swallowing events of interest were identified for each swallow (beginning hyoid position, maximal hyoid position, hyoid advancement, hyoid retraction, peak forward velocity, and peak backward velocity), and a series of hyoid parameters characterizing the amplitude, velocity, and timing of the movement were calculated and compared across different types of swallows.

Results: Results showed significant differences between continuous and discrete swallows. Continuous swallows were characterized by shorter maximal hyoid displacement, a shorter duration between the start of the swallow and the maximal displacement, a shorter total swallow duration, and lower peak velocity in both forward and backward hyoid movement. No significant difference was observed between the 5- and 10-ml swallows in hyoid movement amplitude, velocity, or duration.

Conclusions: The quantification of hyoid kinematics in swallowing through the current USES recording protocol, combined with the semi-automatic extraction of hyoid function by applying a deep neural net and feature-finding algorithms, provides initial evidence to support its clinical utility in swallowing assessment. Further studies, including those of different clinical populations, to evaluate the sensitivity of the hyoid metrics in detecting changes to swallowing would support the clinical translation.

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吞咽超声评价在健康燕子舌骨运动学分析中的应用。

目的：近年来，使用超声波作为吞咽评估的辅助工具已获得了显著的发展势头，但在言语和语言治疗师主导的方案和测量方法等方面还存在研究空白。本研究概述了吞咽超声评估（USES）的记录方案。此外，还将一组捕捉典型吞咽时舌骨运动学的多维测量数据与之前的研究进行了比较，以评估当前的方案，并建立一个健康吞咽的超声数据库，以进一步促进 USES 的临床应用：方法：采集了 41 名健康参与者的吞咽数据。对离散吞咽（5 毫升和 10 毫升）和连续吞咽（100 毫升）进行了分析。使用深度神经网络自动跟踪舌骨和下颌骨的位置。对每次吞咽确定了六个感兴趣的吞咽事件（舌骨起始位置、舌骨最大位置、舌骨前倾、舌骨后缩、前倾速度峰值和后倾速度峰值），计算了一系列描述运动幅度、速度和时间的舌骨参数，并对不同类型的吞咽进行了比较：结果显示，连续吞咽和不连续吞咽之间存在明显差异。连续吞咽的特点是最大舌骨位移较短、从开始吞咽到最大位移之间的持续时间较短、总吞咽持续时间较短、舌骨向前和向后运动的峰值速度较低。5毫升和10毫升的吞咽在舌骨运动幅度、速度或持续时间上没有明显差异：通过目前的 USES 记录方案对吞咽过程中的舌骨运动学进行量化，结合应用深度神经网络和特征查找算法对舌骨功能进行半自动提取，为支持其在吞咽评估中的临床实用性提供了初步证据。进一步的研究，包括对不同临床人群的研究，以评估舌骨指标在检测吞咽变化方面的灵敏度，将为临床转化提供支持。

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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来源期刊

Journal of Speech Language and Hearing Research AUDIOLOGY & SPEECH-LANGUAGE PATHOLOGY-REHABILITATION

CiteScore

4.10

自引率

19.20%

发文量

538

审稿时长

4-8 weeks

期刊介绍： Mission: JSLHR publishes peer-reviewed research and other scholarly articles on the normal and disordered processes in speech, language, hearing, and related areas such as cognition, oral-motor function, and swallowing. The journal is an international outlet for both basic research on communication processes and clinical research pertaining to screening, diagnosis, and management of communication disorders as well as the etiologies and characteristics of these disorders. JSLHR seeks to advance evidence-based practice by disseminating the results of new studies as well as providing a forum for critical reviews and meta-analyses of previously published work. Scope: The broad field of communication sciences and disorders, including speech production and perception; anatomy and physiology of speech and voice; genetics, biomechanics, and other basic sciences pertaining to human communication; mastication and swallowing; speech disorders; voice disorders; development of speech, language, or hearing in children; normal language processes; language disorders; disorders of hearing and balance; psychoacoustics; and anatomy and physiology of hearing.