Our research aims to develop and test wearable and implantable neurotechnology for adults and children who live with weakness and paralysis from stroke or other neurological injury. In addition to device-based interventions, we also explore solutions based upon biological constructs such as living electrodes and neonerves.
Mijail D. Serruya, MD, PhD
Assistant Professor, Department of Neurology
Contact Information
Assistant Professor, Department of Neurology
Research & Clinical Interests
Publications
- Enhancing neuronal viability: The protective role of 10% human cerebrospinal fluid in primary neuronal cultures
- Virtual white matter: a novel system for cross-dish neural interaction and modulation
- Optimizing Transcutaneous Spinal Cord Stimulation: An Exploratory Study on the Role of Electrode Montages and Stimulation Intensity on Reflex Pathway Modulation
- Intranasal Oxytocin for Managing Agitation in a Patient of Mixed Dementia With Multiple Pathologies, Particularly With a History of Repetitive Head Injuries
- Neural signal analysis in chronic stroke: advancing intracortical brain-computer interface design