勛圖惇蹋 undergraduate students explore the use of AI to treat speech disfluency
Artificial intelligence, including machine learning systems, could help mental health clinicians optimize treatments for speech disfluency, or interruptions in the regular flow of speech.
Michael Guerzhoy, an assistant professor, teaching stream, in the division of engineering science and the department of mechanical and industrial engineering in the University of Torontos Faculty of Applied Science & Engineering, and a team of undergraduate students are developing a reinforcement-learning-based system that uses machine-learning algorithms to help clinicians predict medication outcomes and adjust dosage accordingly.
By contrast, many clinicians currently adjust medications based on expensive and sparse observations, making it difficult to identify if a specific drug is working optimally. Thats because patients respond to medication differently and its effects can be subtle or only visible over a long period of time. The effects can also be difficult to distinguish from other factors affecting patient behaviours.
Guerzhoy says complex symptoms like speech disfluency characterized by chronic and repeated problems with continuous speech can be particularly challenging to treat.
Studies show that there is a correlation between mental health conditions like anxiety and depression and speech disfluency, he says. I believe that patient care can be substantially improved in situations where low-cost frequent observations are possible through making use of reinforcement learning systems to help prescribe and adjust medications.
The team presented at the Machine Learning for Cognitive and Mental Health Workshop at the Conference of the Association for the Advancement of Artificial Intelligence.
The first component of the system features a module that detects and evaluates speech disfluency on a large data set. The second is a reinforcement learning algorithm that automatically sources and recommends medication combinations. To support the two modules, the team built a plausible patient-simulation system.
Guerzhoy compared this system to the idea of a computer playing chess. We all know that computers are excellent at playing chess, he says. Our hope is that these computer-based reinforcement learning models will help clinicians become sort of chess grandmasters in their field.
By exploring the potential of automating and fine-tuning medication regimes for patients, the team hopes to provide a pathway to improve the way we treat mental health. Harnessing AI to pick up on small changes in behaviour in more frequent increments would give clinicians another tool in their toolkit, says Guerzhoy, especially since the high cost of sessions is a significant factor in a patients treatment.
Guerzhoy emphasized the crucial role played by the team of undergraduate students, which included: Michael Akzam, Micol Altomare, Lauren Altomare, Nimit Amikumar Bhanshali, Kaison Cheung, Jiacheng Chen, Andreas Constas, Pavlos Constas, Vhea He, Aditya Khan, Asad Khan, Heraa Murqi, Matthew Honorio Oliveira, Youssef Rachad, Vikram Rawal and Najma Sultani all undergraduate students at 勛圖惇蹋 and Carrie Chen from Cornell University.
Having such a large team of undergraduate students involved that are passionate about the research was essential.