Using Wearable and Non-Invasive Sensors to Measure Swallowing Function: Detection, Verification, and Clinical Application

Overview

Journal Sensors (Basel)

Publisher MDPI

Specialty Biotechnology

Date 2019 Jun 12

PMID 31181864

Citations 11

Authors

Wann-Yun Shieh

Chin-Man Wang

Hsin-Yi Kathy Cheng

Chen-Hsiang Wang

Affiliations

Soon will be listed here.

Abstract

Background: A widely used method for assessing swallowing dysfunction is the videofluoroscopic swallow study (VFSS) examination. However, this method has a risk of radiation exposure. Therefore, using wearable, non-invasive and radiation-free sensors to assess swallowing function has become a research trend. This study addresses the use of a surface electromyography sensor, a nasal airflow sensor, and a force sensing resistor sensor to monitor the coordination of respiration and larynx movement which are considered the major indicators of the swallowing function. The demand for an autodetection program that identifies the swallowing patterns from multiple sensors is raised. The main goal of this study is to show that the sensor-based measurement using the proposed detection program is able to detect early-stage swallowing disorders, which specifically, are useful for the assessment of the coordination between swallowing and respiration.

Methods: Three sensors were used to collect the signals from submental muscle, nasal cavity, and thyroid cartilage, respectively, during swallowing. An analytic swallowing model was proposed based on these sensors. A set of temporal parameters related to the swallowing events in this model were defined and measured by an autodetection algorithm. The verification of this algorithm was accomplished by comparing the results from the sensors with the results from the VFSS. A clinical application of the long-term smoking effect on the swallowing function was detected by the proposed sensors and the program.

Results: The verification results showed that the swallowing patterns obtained from the sensors strongly correlated with the laryngeal movement monitored from the VFSS. The temporal parameters measured from these two methods had insignificant delays which were all smaller than 0.03 s. In the smoking effect application, this study showed that the differences between the swallowing function of smoking and nonsmoking participants, as well as their disorders, is revealed by the sensor-based method without the VFSS examination.

Conclusions: This study showed that the sensor-based non-invasive measurement with the proposed detection algorithm is a viable method for temporal parameter measurement of the swallowing function.

Citing Articles

Developing a Swallow-State Monitoring System Using Nasal Airflow, Surface Electromyography, and Thyroid Cartilage Movement Detection.

Shieh W, Khan M, Shieh Y Bioengineering (Basel). 2024; 11(7).

PMID: 39061803 PMC: 11273551. DOI: 10.3390/bioengineering11070721.

Identification of Respiratory Pauses during Swallowing by Unconstrained Measuring Using Millimeter Wave Radar.

Kadono T, Noguchi H Sensors (Basel). 2024; 24(12).

PMID: 38931536 PMC: 11207369. DOI: 10.3390/s24123748.

Advancements and Challenges in Non-Invasive Sensor Technologies for Swallowing Assessment: A Review.

Wu Y, Guo K, Chu Y, Wang Z, Yang H, Zhang J Bioengineering (Basel). 2024; 11(5).

PMID: 38790297 PMC: 11118896. DOI: 10.3390/bioengineering11050430.

A fully integrated, standalone stretchable device platform with in-sensor adaptive machine learning for rehabilitation.

Xu H, Zheng W, Zhang Y, Zhao D, Wang L, Zhao Y Nat Commun. 2023; 14(1):7769.

PMID: 38012169 PMC: 10682047. DOI: 10.1038/s41467-023-43664-7.

Multi-Sensor Respiratory-Swallow Telecare System for Safe Feeding in Different Trunk Inclinations: System Development and Clinical Application.

Shieh W, Wang C, Ju Y, Cheng H Sensors (Basel). 2023; 23(2).

PMID: 36679437 PMC: 9865800. DOI: 10.3390/s23020642.

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