Music-Based, Personalized Digital Therapy for People with Epilepsy
In this cross-disciplinary project, we propose to create a precision digital therapy by integrating expertise in music, mobile health, and atmospheric sciences. Neurological effects of music are recognized as a means to improve treatments for refractory epilepsy. A dozen clinical studies report how listening to Mozart’s sonatas K.448 and K.545 can significantly reduce seizures in people with epilepsy. We will apply music analysis to several Mozart compositions to create diverse playlists intended to reduce seizures. These playlists will differ in tempo/rhythm to modulate arousal, and will be delivered via web-based application and mp3 players. Because atmospheric conditions are known to precipitate seizures, music content will be adjusted to current and future weather conditions. Such a personalized digital therapy system will include an algorithm acquiring local weather data based on GPS coordinates or IP address, assessing weather-related seizure risks, and delivering playlists with arousal-adjusted antiseizure music.
The project complements four strategic goals by: 1) creating knowledge that has direct relevance to patient care; 2) allowing students to get hands-on experience with a transformative research; 3) engaging community outreach by collaborating with a local non-profit organization, the Gifted Music School, to deliver seminars about health benefits of music; 4) ensuring long-term viability by promoting efficiency in the collaborative process itself.
Current Status
2021-09-15
Abstract:
In this cross-disciplinary project, we propose to create a precision digital therapy by integrating expertise in music, mobile health, and atmospheric sciences. Neurological effects of music are recognized as a means to improve treatments for refractory epilepsy. A dozen clinical studies report how listening to Mozart’s sonatas K.448 and K.545 can significantly reduce seizures in people with epilepsy. We will apply music analysis to several Mozart compositions to create diverse playlists intended to reduce seizures. These playlists will differ in tempo/rhythm to modulate arousal, and will be delivered via web-based application and mp3 players. Because atmospheric conditions are known to precipitate seizures, music content will be adjusted to current and future weather conditions. Such a personalized digital therapy system will include an algorithm acquiring local weather data based on GPS coordinates or IP address, assessing weather-related seizure risks, and delivering playlists with arousal-adjusted antiseizure music.
The project complements four strategic goals by: 1) creating knowledge that has direct relevance to patient care; 2) allowing students to get hands-on experience with a transformative research; 3) engaging community outreach by collaborating with a local non-profit organization, the Gifted Music School, to deliver seminars about health benefits of music; 4) ensuring long-term viability by promoting efficiency in the collaborative process itself.
Collaborators
Michael Chikinda
College of Fine Arts
School of Music
Project Owner
Grzegorz Bulaj
College of Pharmacy
Medicinal Chemistry
Adam Kochanski
College of Mines and Earth Sciences
Atmospheric Sciences
Project Info
Funded Project Amount$30K
Keywords
Music, Music Theory, Mozart, Epilepsy, Seizures, Neurology, Digital Therapeutics, Mobile Health, Internet, Weather Forecast, Atmospheric Conditions, Algorithm, Precision Medicine
Project Status
Funded 2020
Poster
View poster (pdf)