TY - JOUR
T1 - Differentiation of Bolus Texture During Deglutition via High-Density Surface Electromyography
T2 - A Pilot Study
AU - Ornelas, Gladys
AU - Bueno Garcia, Hassler
AU - Bracken, David J.
AU - Linnemeyer-Risser, Kristen
AU - Coleman, Todd P.
AU - Weissbrod, Philip A.
N1 - Publisher Copyright:
© 2023 The American Laryngological, Rhinological and Otological Society, Inc.
PY - 2023/10
Y1 - 2023/10
N2 - Objective: Swallowing is a complex neuromuscular task. There is limited spatiotemporal data on normative surface electromyographic signal during swallow, particularly across standard textures. We hypothesize the pattern of electromyographic signal of the anterior neck varies cranio-caudally, that laterality can be evaluated, and categorization of bolus texture can be differentiated by high-density surface electromyography (HDsEMG) through signal analysis. Methods: An HDsEMG grid of 20 electrodes captured electromyographic activity in eight healthy adult subjects across 240 total swallows. Participants swallowed five standard textures: saliva, thin liquid, puree, mixed consistency, and dry solid. Data were bandpass filtered, underwent functional alignment of signal, and then placed into binary classifier receiver operating characteristic (ROC) curves. Muscular activity was visualized by creating two-dimensional EMG heat maps. Results: Signal analysis results demonstrated a positive correlation between signal amplitude and bolus texture. Greater differences of amplitude in the cranial most region of the array when compared to the caudal most region were noted in all subjects. Lateral comparison of the array revealed symmetric power levels across all subjects and textures. ROC curves demonstrated the ability to correctly classify textures within subjects in 6 of 10 texture comparisons. Conclusion: This pilot study suggests that utilizing HDsEMG during deglutition can noninvasively differentiate swallows of varying texture noninvasively. This may prove useful in future diagnostic and behavioral swallow applications. Level of Evidence: 4 Laryngoscope, 133:2695–2703, 2023.
AB - Objective: Swallowing is a complex neuromuscular task. There is limited spatiotemporal data on normative surface electromyographic signal during swallow, particularly across standard textures. We hypothesize the pattern of electromyographic signal of the anterior neck varies cranio-caudally, that laterality can be evaluated, and categorization of bolus texture can be differentiated by high-density surface electromyography (HDsEMG) through signal analysis. Methods: An HDsEMG grid of 20 electrodes captured electromyographic activity in eight healthy adult subjects across 240 total swallows. Participants swallowed five standard textures: saliva, thin liquid, puree, mixed consistency, and dry solid. Data were bandpass filtered, underwent functional alignment of signal, and then placed into binary classifier receiver operating characteristic (ROC) curves. Muscular activity was visualized by creating two-dimensional EMG heat maps. Results: Signal analysis results demonstrated a positive correlation between signal amplitude and bolus texture. Greater differences of amplitude in the cranial most region of the array when compared to the caudal most region were noted in all subjects. Lateral comparison of the array revealed symmetric power levels across all subjects and textures. ROC curves demonstrated the ability to correctly classify textures within subjects in 6 of 10 texture comparisons. Conclusion: This pilot study suggests that utilizing HDsEMG during deglutition can noninvasively differentiate swallows of varying texture noninvasively. This may prove useful in future diagnostic and behavioral swallow applications. Level of Evidence: 4 Laryngoscope, 133:2695–2703, 2023.
KW - EMG
KW - electrophysiology
KW - high-density surface electromyography
KW - laryngeal electromyography
KW - surface electromyography
KW - swallow
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U2 - 10.1002/lary.30589
DO - 10.1002/lary.30589
M3 - Article
C2 - 36734335
AN - SCOPUS:85147516567
SN - 0023-852X
VL - 133
SP - 2695
EP - 2703
JO - Laryngoscope
JF - Laryngoscope
IS - 10
ER -