Automatic Clinical Assessment of Swallowing Behavior and Diagnosis of Silent Aspiration Using Wireless Multimodal Wearable Electronics
Abstract: Dysphagia is more common in conditions such as stroke, Parkinson's disease, and head and neck cancer. This can lead to pneumonia, choking, malnutrition, and dehydration. Currently, the diagnostic gold standard uses radiologic imaging, the videofluoroscopic swallow study (VFSS); however, it is expensive and necessitates specialized facilities and trained personnel. Although several devices attempt to address the limitations, none offer the clinical‐grade quality and accuracy of the VFSS. Here, this study reports a wireless multimodal wearable system with machine learning for automatic, accurate clinical assessment of swallowing behavior and diagnosis of silent aspirations from dysphagia patients. The device includes a kirigami‐structured electrode that suppresses changes in skin contact impedance caused by movements and a microphone with a gel layer that effectively blocks external noise for measuring high‐quality electromyograms and swallowing sounds. The deep learning algorithm offers the classification of swallowing patterns while diagnosing silent aspirations, with an accuracy of 89.47%. The demonstration with post‐stroke patients captures the system's significance in measuring multiple physiological signals in real‐time for detecting swallowing disorders, validated by comparing them with the VFSS. The multimodal electronics can ensure a promising future for dysphagia healthcare and rehabilitation therapy, providing an accurate, non‐invasive alternative for monitoring swallowing and aspiration events.
- Location
-
Deutsche Nationalbibliothek Frankfurt am Main
- Extent
-
Online-Ressource
- Language
-
Englisch
- Bibliographic citation
-
Automatic Clinical Assessment of Swallowing Behavior and Diagnosis of Silent Aspiration Using Wireless Multimodal Wearable Electronics ; day:09 ; month:07 ; year:2024 ; extent:14
Advanced science ; (09.07.2024) (gesamt 14)
- Creator
-
Shin, Beomjune
Lee, Sung Hoon
Kwon, Kangkyu
Lee, Yoon Jae
Crispe, Nikita
Ahn, So‐Young
Shelly, Sandeep
Sundholm, Nathaniel
Tkaczuk, Andrew
Yeo, Min‐Kyung
Choo, Hyojung J.
Yeo, Woon‐Hong
- DOI
-
10.1002/advs.202404211
- URN
-
urn:nbn:de:101:1-2407101423137.934450004040
- Rights
-
Open Access; Der Zugriff auf das Objekt ist unbeschränkt möglich.
- Last update
-
14.08.2025, 10:57 AM CEST
Data provider
Deutsche Nationalbibliothek. If you have any questions about the object, please contact the data provider.
Associated
- Shin, Beomjune
- Lee, Sung Hoon
- Kwon, Kangkyu
- Lee, Yoon Jae
- Crispe, Nikita
- Ahn, So‐Young
- Shelly, Sandeep
- Sundholm, Nathaniel
- Tkaczuk, Andrew
- Yeo, Min‐Kyung
- Choo, Hyojung J.
- Yeo, Woon‐Hong
Other Objects (12)
Wearable, epidermal devices for assessment of swallowing function
Accessorizing Quadrupedal Robots with Wearable Electronics
Advanced Fiber Materials for Wearable Electronics
Aspiration Pneumonia in Children with Cerebral Palsy after Videofluoroscopic Swallowing Study
Flexible and wearable electronics for smart clothing
Piezoelectric fibers for flexible and wearable electronics
Fiber Surface/Interfacial Engineering on Wearable Electronics
Wearable Magnetic Field Sensors for Flexible Electronics
Wireless Technologies for Wearable Electronics: A Review
Whole Fabric‐Assisted Thermoelectric Devices for Wearable Electronics
Nanofiber Composite Reinforced Organohydrogels for Multifunctional and Wearable Electronics
Multifunctional Flexible Humidity Sensor Systems Towards Noncontact Wearable Electronics
Wearable, epidermal devices for assessment of swallowing function
Accessorizing Quadrupedal Robots with Wearable Electronics
Advanced Fiber Materials for Wearable Electronics
Aspiration Pneumonia in Children with Cerebral Palsy after Videofluoroscopic Swallowing Study
Flexible and wearable electronics for smart clothing
Piezoelectric fibers for flexible and wearable electronics
Fiber Surface/Interfacial Engineering on Wearable Electronics
Wearable Magnetic Field Sensors for Flexible Electronics
Wireless Technologies for Wearable Electronics: A Review
Whole Fabric‐Assisted Thermoelectric Devices for Wearable Electronics
Nanofiber Composite Reinforced Organohydrogels for Multifunctional and Wearable Electronics
Multifunctional Flexible Humidity Sensor Systems Towards Noncontact Wearable Electronics
Wearable, epidermal devices for assessment of swallowing function
Accessorizing Quadrupedal Robots with Wearable Electronics
Advanced Fiber Materials for Wearable Electronics
Aspiration Pneumonia in Children with Cerebral Palsy after Videofluoroscopic Swallowing Study
Flexible and wearable electronics for smart clothing
Piezoelectric fibers for flexible and wearable electronics
Fiber Surface/Interfacial Engineering on Wearable Electronics
Wearable Magnetic Field Sensors for Flexible Electronics
Wireless Technologies for Wearable Electronics: A Review
Whole Fabric‐Assisted Thermoelectric Devices for Wearable Electronics
Nanofiber Composite Reinforced Organohydrogels for Multifunctional and Wearable Electronics