TY - JOUR
T1 - Epidermal electronics for electromyography
T2 - An application to swallowing therapy
AU - Constantinescu, Gabriela
AU - Jeong, Jae Woong
AU - Li, Xinda
AU - Scott, Dylan K.
AU - Jang, Kyung In
AU - Chung, Hyun Joong
AU - Rogers, John A.
AU - Rieger, Jana
N1 - Publisher Copyright:
© 2016 IPEM
PY - 2016
Y1 - 2016
N2 - Head and neck cancer treatment alters the anatomy and physiology of patients. Resulting swallowing difficulties can lead to serious health concerns. Surface electromyography (sEMG) is used as an adjuvant to swallowing therapy exercises. sEMG signal collected from the area under the chin provides visual biofeedback from muscle contractions and is used to help patients perform exercises correctly. However, conventional sEMG adhesive pads are relatively thick and difficult to effectively adhere to a patient's altered chin anatomy, potentially leading to poor signal acquisition in this population. Here, the emerging technology of epidermal electronics is introduced, where ultra-thin geometry allows for close contouring of the chin. The two objectives of this study were to (1) assess the potential of epidermal electronics technology for use with swallowing therapy and (2) assess the significance of the reference electrode placement. This study showed comparative signals between the new epidermal sEMG patch and the conventional adhesive patches used by clinicians. Furthermore, an integrated reference yielded optimal signal for clinical use; this configuration was more robust to head movements than when an external reference was used. Improvements for future iterations of epidermal sEMG patches specific to day-to-day clinical use are suggested.
AB - Head and neck cancer treatment alters the anatomy and physiology of patients. Resulting swallowing difficulties can lead to serious health concerns. Surface electromyography (sEMG) is used as an adjuvant to swallowing therapy exercises. sEMG signal collected from the area under the chin provides visual biofeedback from muscle contractions and is used to help patients perform exercises correctly. However, conventional sEMG adhesive pads are relatively thick and difficult to effectively adhere to a patient's altered chin anatomy, potentially leading to poor signal acquisition in this population. Here, the emerging technology of epidermal electronics is introduced, where ultra-thin geometry allows for close contouring of the chin. The two objectives of this study were to (1) assess the potential of epidermal electronics technology for use with swallowing therapy and (2) assess the significance of the reference electrode placement. This study showed comparative signals between the new epidermal sEMG patch and the conventional adhesive patches used by clinicians. Furthermore, an integrated reference yielded optimal signal for clinical use; this configuration was more robust to head movements than when an external reference was used. Improvements for future iterations of epidermal sEMG patches specific to day-to-day clinical use are suggested.
KW - Epidermal electronics
KW - Head and neck cancer
KW - Surface electromyography
KW - Swallowing therapy
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U2 - 10.1016/j.medengphy.2016.04.023
DO - 10.1016/j.medengphy.2016.04.023
M3 - Article
C2 - 27255865
AN - SCOPUS:84973546864
SN - 1350-4533
VL - 38
SP - 807
EP - 812
JO - Medical Engineering and Physics
JF - Medical Engineering and Physics
IS - 8
ER -