A5042715530- Neuroscience and Neural Engineering
- Advanced Memory and Neural Computing
- EEG and Brain-Computer Interfaces
- Electrochemical Analysis and Applications
- Neural dynamics and brain function
University of California, San Diego
2021-2024
Electrophysiological devices are critical for mapping eloquent and diseased brain regions therapeutic neuromodulation in clinical settings extensively used research brain-machine interfaces. However, the existing experimental often limited either spatial resolution or cortical coverage. Here, we developed scalable manufacturing processes with a dense electrical connection scheme to achieve reconfigurable thin-film, multithousand-channel neurophysiological recording grids using platinum...
Functional mapping during brain surgery is applied to define areas that control critical functions and cannot be removed. Currently, these procedures rely on verbal interactions between the neurosurgeon electrophysiologist, which can time-consuming. In addition, electrode grids are used measure activity identify boundaries of pathological versus functional regions have low resolution limited conformity surface. Here, we present development an intracranial electroencephalogram...
Abstract Brain surgeries are among the most delicate clinical procedures and must be performed with technologically robust advanced tools. When such surgical in functionally critical regions of brain, functional mapping is applied as a standard practice that involves direct coordinated interactions between neurosurgeon neurology electrophysiology team. However, information flow during these commonly verbal well time consuming which turn increases duration cost surgery, possibly compromising...