Browse wide-ranging research at the frontiers of neuroscience supported by Wu Tsai Neurosciences Institute grants, awards, and training fellowships.
Projects
The impact of early medial temporal lobe Tau in human cognitive aging
The rehab glove: Passive tactile stimulation for stroke rehabilitation
Project's stimulation method may provide a powerful tool to reduce disability after a stroke, and the wearable form factor allows users to receive intensive therapy during their normal daily routine
Multi-modal deep learning for automated seizure localization
Developing an automated seizure detection and localization system based on deep neural networks, EEG data, and real-time video with the goal to dramatically increase neurologist diagnostic capabilities while improving quality of care.
NeuroRoots, brain/computer interface solution for paralysis
Clinical translation of protein-engineered, matrix-mimetic nerve guidance conduits for peripheral nerve injury
Developing a protein-engineered nerve implant that mimics the biochemical and mechanical cues of native tissue in order to enhance the potential for neural regeneration following injury.
A mobile game for domain adaptation and deep learning in autism healthcare (Seed Grant)
Ultrasonic neural control and neuroimaging in the awake, mobile, and behaving small rodent
We propose to design a lightweight, wearable system for integrated ultrasonic drug uncaging and fUS neuroimaging to noninvasively pharmacologically modulate a brain target and then image the resultant changes in neural activity without significant motion limitations.
Sensory processing in a pre-seizure state
Genetic tools to determine circuit-specific roles of myelination
These tools will enable us to dissect how myelin contributes to specific brain circuits and types of neurons, bringing us closer to a holistic understanding of how cells in the brain collaborate to build a functional nervous system.
Injectable photovoltaics for a wireless, gliosis-free neural stimulation interface
We believe our research has the potential of generating transformative results for both neuroscience research and neurological applications, also offering strategies to manipulate key intracellular pathways to prevent gliosis in therapeutic neural implants.
Investigating the role of a human-specific repeat element in neuropsychiatric disease risk and cerebellar function
Quantifying auditory-vocal affect in human social communication
This proposal brings together faculty with this diverse expertise to develop the first gold standard test of auditory-vocal affect. Once developed, validated, and normed, we will deploy this test in the clinical context of autism to quantify impairments and direct neurobiological investigation.
Targeting DNA repair for neuroinflammation in stroke
The wearable ENG: A dizzy attack event monitor
PTS glove passive tactile stimulation for stroke rehab - Renewal
This team is developing wearable stimulation devices to improve limb function after stroke. The technology includes a tactile stimulation method, and the wireless, lightweight, and low-cost wearable computing devices to apply this stimulation.
CPStim: Optimized non-invasive brain stimulation for chronic pain
Deep learning for automated seizure localization
The wearable ENG: a dizzy attack event monitor, Dizzy DX - Renewal
Optimization of the African killifish platform for rapid drug screening for aggregate based neurodegenerative diseases
Rapid and automated educational assessment through the web browser
Remote reliable measurements of movement using a Bluetooth enabled engineered keyboard solve an unmet need in neurological diseases
This team is developing a device that will enable accurate diagnosis of Parkinson’s disease via telemedicine. They initially introduced the technology of Quantitative DigitoGraphy (QDG) using a repetitive alternating finger tapping (RAFT) task on a musical instrument digital interface (MIDI) keyboard and will use Neuroscience: Translate funding for the next stage of device development.
Extracochlear neurostimulation - Auricle
Sensorineural hearing loss is an increasingly prevalent condition that causes disability to over a third of US adults aged over 65. We are developing a breakthrough device to restore high-frequency hearing that preserves residual hearing through a reversible and minimally invasive approach.