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How AI and neuromodulation could help with sleep disorders

'We still don鈥檛 fully comprehend what actually occurs in our brains during sleep'
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Assistant Professor Xilin Liu and his collaborators are developing electronic devices that could help patients suffering from sleep disorders (photo courtesy Xilin Liu)

A new partnership between the University of Toronto's , assistant professor in the Edward S. Rogers Sr. department of electrical and computer engineering in the Faculty of Applied Science and Engineering, and Andrew G. Richardson, research assistant professor of neurosurgery at the University of Pennsylvania, will develop a new generation of electronic devices to investigate sleep modulation.

Their research will potentially develop new interventions that help deal with a wide range of sleep disorders. 

On average, we spend a third of our life asleep. During sleep, the brain undergoes important processes that support memory consolidation, neural restoration and the clearance of toxins. Sleep disruptions can interfere with these processes. But while good "sleep hygiene" is increasingly recognized as crucial to both physical and mental health, sleep disorders remain widespread. 

鈥40 per cent of Canadians have sleep disorders, with over 3 million suffering from insomnia,鈥 says Liu, director of and affiliate scientist at the the KITE Research Institute. 

鈥淪leep deficits negatively affect brain functions such as attention and memory, and immune function, metabolism and heart health. Chronic sleep-wake disruptions are connected to neurodegenerative disorders such as Huntington鈥檚, Parkinson鈥檚 and Alzheimer鈥檚 disease, and cognitive decline with aging.鈥 

image of bed with person sleeping, "physiological signal acquisition, machine learning-assissted sleep pattern recogition and sleep intervention
This diagram describes the process of closed-loop sleep modulation via miniaturized electronics
(image courtesy of Xilin Liu)

Liu鈥檚 research focuses on developing integrated circuits and systems for advancing health care, digital communication and machine learning. In the new collaboration, he will be building fully integrated wireless systems-on-chips that can autonomously modulate sleep behavior in pre-clinical studies. 

鈥淪leep is a complex procedure involving different stages and patterns,鈥 he says. 鈥淭o address this, we are integrating machine-learning algorithms into our devices. These new algorithms can recognize sleep patterns and identify sleep disorders that may not be distinguishable using traditional algorithms.鈥 

Liu and his collaborators hope that these new approaches will enable them to gain a deeper understanding of how our brains function during sleep and how to modulate sleep circuits. 

They also plan to incorporate various neural interfacing capabilities into the system, which will enable more accurate and precise interventions. The results of this research will contribute to the advancement of neuromodulation, a technology that involves placing devices inside a patient鈥檚 brain, spinal cord or peripheral nerves. These devices are designed to regulate neural activity and help reduce symptoms related to different disorders.  

Liu is a faculty member of the  (CNMI) in the Faculty of Applied Science and Engineering, which brings together experts in engineering and neuroscience in a collaborative hub for neuromodulation research.

Liu鈥檚 project was recently awarded $2.2 million by the  (NIH) through their Research Project Grant Program (R01), and is supported by industry partners such as the  and .

The NIH R01 grant is a highly competitive award and Liu and Richardson鈥檚 proposal fell in the top 1 per cent of applications.

鈥淭his is a great sign that NIH recognizes the value and impact of this research and the caliber of the team,鈥 Liu says. 鈥淲e鈥檙e excited to receive this funding and over the next four years we hope to get to a stage where the technology can be used in clinical trials.鈥

Liu鈥檚 research team has a long-term goal of creating wearable devices for sleep modulation that people can use at home to enhance the quality of their sleep.

鈥淲hile there are medications available to treat sleep disorders, the challenge lies in the fact that we still don鈥檛 fully comprehend what actually occurs in our brains during sleep,鈥 Liu says.

鈥淚t鈥檚 possible that there are low-cost, high-efficacy treatments available for sleep disorders that we are currently unaware of.鈥

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