Funded Projects

We understand a lot about how the brain gets rewired when learning a new skill by repetitive practice, such as hitting a curveball. However, how learning and experience alter the innate behaviors that we are born with is poorly understood.

Millions of people are blind, yet we still don’t have the technology to satisfactorily restore vision. I aim to create a prosthetic device to do so. This device can be implanted in the eyes of a blind patient, resting on a tissue layer called the retina.

Brain-computer interfaces (BCIs) are systems that enable using neural activity to control and interact with external devices. For people who lose the ability to move or speak due to injury or disease, BCIs provide a potential avenue to restore this loss of function.

It is more common nowadays for people to have their own wearable devices to measure physiological signals like heart rate and respiration to keep track of physical diseases. However, monitoring decline in cognitive functions or development of neurodegenerative diseases, such as Parkinson’s (PD), is still complex and tricky.

While acute pain is an important biological signal in response to injured tissue, chronic pain occurs when the pain signaling outlasts the initial injury and has deleterious effects on health and quality of life. Chronic pain represents an enormous public health burden with few therapeutic options.

This study will introduce a vascular-like electronic system that merges seamlessly with neural organoids,
establishing an integrated vascular-electronic-neural network. This envisaged platform holds the promise of heralding a transformative phase in the evolution of human neural organoid research and elucidating the
fundamental understanding on the roles of oxygen and nutrient perfusion during neural development.

This proposal addresses three interconnected, yet independent aims focused on the neural mechanisms implicated in age-associated miscarriages. First, the proposal aims to construct a comprehensive neuro-uterine atlas delineating neuronal subtypes innervating the uterus, elucidating how innervation patterns and transcriptome profiles evolve with age. Second, the proposal aims to implement cutting-edge tissue clearing techniques on extracted uteri to discern alterations in uterine innervation patterns and signaling across the rodent estrous cycle and the first trimester of pregnancy.

The ability of an infant to distinguish caregivers from strangers is fundamental for survival early in life. Across
many taxa, newborns use olfactory cues to recognize caregivers. Caregiver odors induce proximity-seeking
behavior and alleviate stress in neonatal mammals, including humans. Since all altricial animals rely on parental
care for survival and children with developmental disorders (e.g., fragile X syndrome and autism) often have
deficits in the olfactory system, it is essential to understand the mechanisms for linking caregiver odors with
affiliative behavior.

Studying the brain circuits involved in aggression will help us tackle big social issues like hate crimes, antisocial
behavior, and violence. Imagine if we could better understand why some people act aggressively towards
others—we could use this knowledge to protect people from harm and create a world where everyone feels safe. Chemicals in our brain, such as dopamine and serotonin, affect neural activity to modulate behavior. When we experience something rewarding, like having good food or meeting friends, dopamine is released in the brain.

Brain development is a complex process where cells must self-renew and differentiate at the right place and right time. Gene regulation during development involves sequences in the genome which affect the expression of genes locally, and transcription factors, proteins that bind these sequences and activate genes throughout the genome. At active regulatory sequences and genes, DNA is accessible to these proteins, while inactive DNA is tightly compacted.

One in three people will develop Alzheimer’s disease or another dementia during their lifetime, but effective treatment still does not exist despite intense efforts. Recently, blood from young mice has been found to rejuvenate several tissues of old mice, including the brain.

Precise neural circuit assembly is critical for appropriate function of the nervous system. A functional circuit requires proper targeting and matching of axons and dendrites of pre- and post-synaptic neurons. However, our understanding of the mechanisms that establish wiring specificity of complex neural circuit is far from complete.

    More than 60 million people in the United States currently suffer from a serious mental illness, and the associated financial, productivity and human suffering costs are only projected to rise in the near future.

Cyclic adenosine monophosphate (cAMP) is an important intracellular messenger that plays a critical role in the development of the central and peripheral nervous system. However, the mechanisms of action of cAMP in the nervous system development are poorly understood and there are currently no suitable methods to visualize cAMP in the cells of living animals.

Ion channels in the membranes of neuronal cells are the key regulators of neuronal signaling. An ion channel works as a gate that can open and close to allow specific molecules to enter or leave the cell. One important type of ion channels are voltage-gated sodium channels (NaVs), which are essential for many processes in our brain.

The ability to ignore distracters is impaired for individuals with psychosis. This impairment negatively impacts treatment effectiveness and the ability of individuals with psychosis to function fully.

Understanding the brain requires understanding how the neurons that constitute it perform computations, and how those computations relate to human behavior.

Synaptic junctions linking individual neurons constitute the fundamental building blocks of our brain. Understanding their inner working is crucial to unravel the mechanisms by which our brain processes information. However, imaging structures at a relevant sub-synaptic level is challenging and has often hampered advances in neuroscience.

For decades we have known that a wide variety of animals use the earth’s magnetic field for navigation, although the means by which they sense it has remained a mystery. There is a long-standing idea that animals like migratory birds use small magnetic deposits in their beaks to act as a compass, however, this idea remains unverified and is currently questioned by many in the field.

Spinal cord injury (SCI) causes permanent damage to about 12,000 new patients in the US each year, primarily young adults. A common result of SCI is paralysis, and unfortunately, less than 1% of SCI patients have full neurological recovery by the time of hospital discharge.

Continuous blood flow to the brain is needed for neural tissues to survive. Noninvasive imaging of cerebral blood flow (CBF) in humans is challenging, but is critically useful to understand normal brain physiology and to help patients with cerebrovascular disorders such as stroke.

This research seeks to understand how our genes encode the instructions for neurons in the neocortex to properly arise during normal brain development. This knowledge will allow scientists to understand how genetic mutations perturb development leading to human disease.

Due to the critical role that dopamine producing neurons play in pathophysiology, it is important to examine the function of its co-released GABA. This research aims to study GABA biosynthesis in midbrain dopamine producing neurons and it’s effect on striatal inhibition.

The aim of this project is to improve the accuracy and reliability of dMRI fiber tracking through comparison with a gold standard that unambiguously relates the measured water diffusion patterns to the underlying tissue structure.