Browse wide-ranging research at the frontiers of neuroscience supported by Wu Tsai Neurosciences Institute grants, awards, and training fellowships.
Projects
At-home Stroke Rehabilitation System based on Augmented Reality and Brain Computer Interface Paradigm
This team aims to revolutionize future stroke treatment both in clinics and at home by combining a brain-computer interface and augmented reality (AR) into a single rehabilitation platform.
Silent Speech Decoding Using Flexible Electronics and Artificial Intelligence
This team aims to advance augmentative and alternative communication technology for people with communication disorders and enable new forms of human-computer interaction by combining novel materials science with modern machine learning.
The Synaptic Organization of Dendrites
Tracking Parkinson’s Disease with Transformer Models of Everyday Looking Behaviors
In vivo selection for gene mutations that counteract photoreceptor degeneration
Massively parallel microwire arrays for deep brain stimulation
Brain mechanisms of spatial reasoning in mathematics
Creating an advanced transgenic animal model of autism
Autism is a highly genetic developmental brain disorder which is characterized by social impairments. Autism affects 1 in 68 US children, with an annual cost in the US of $250 billion dollars. Unfortunately, the basic biology of autism remains poorly understood.
A novel PET radioligand to identify microglial inflammation in Alzheimer's disease
Identification of sex hormone interacting proteins
Enabling faster and more responsive voltage imaging through computational biophysics
TrkA-ing the chronic pain
Remote and localized neural activation using sonomagnetic stimulation
A novel sigma-1 receptor PET radioligand as a probe of ketamine’s rapid therapeutic action in disorders of human brain and behavior: Pilot study
The impact of early medial temporal lobe Tau in human cognitive aging
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.
Rapid brain-wide optogenetic screening with a noninvasive, dynamically programmable in vivo light source
Elucidating the biophysical mechanisms of latrophilin activation in excitatory synapse formation
Mapping the Mitophagy Network in Parkinson’s Disease
We will comprehensively define the gene network associated with mitochondrial dysfunction in Parkinson's disease using a cutting-edge technology, CRISPR, to understand how these nerve cells die in PD and how we can reverse the cell death to treat the disease.