Funded Awards

Project Summary / Abstract Although BRAIN 2.0 called for the BRAIN Initiative to “prioritize diversity and inclusion as a fundamental pillar,” research with the human neuroimaging technologies being developed by BRAIN Initiative continues to rely on non-representative convenience samples.

Project Summary Uncertainty is an often pervasive, stressful experience that arises when making judgments about others' beliefs, intentions, or emotions (i.e., ambiguous social situations). Excessive uncertainty can have pernicious effects upon memory, mood, and physical and mental outcomes.

Hypothalamic tanycytes have limited postnatal neurogenic competence, but the extrinsic and intrinsic factors that promote this are not well understood. My predoctoral research identified a defined developmental window during which neurogenic competence is lost from hypothalamic tanycytes.

Project Summary Intracortical microstimulation (ICMS) of the sensory cortices is an emerging approach to restore sensation to people who have lost it due to neurological injury or disease.

PROJECT SUMMARY The choroid plexus (ChP) comprises a network of cells that form a critical brain barrier that can mediate secondary damage in certain brain disorders and trauma. The Lehtinen lab has developed a suite of tools to study the ChP across development ex vivo and in vivo.

Project Summary: The majority of lived experience depends on neural activity conveying sensory information about the world.

The goal of this project is to create two prototypes of a novel live spike sorting system which can be used by investigators to spike sort streams of neural data recorded by multi-channel, high channel and ultra-high channel probes.

Project Summary Sub-Cerebral Projection Neurons (SCPNs) are a clinically relevant neuron class that controls voluntary movement and whose loss in Amyotrophic Lateral Sclerosis and Fronto-temporal dementia or injury (e.g., damaged by spinal cord injury) leads to paralysis.

Project Summary Many social behaviors, such as defense and aggression, are innate- requiring no prior experience to be expressed and presumably ‘hardwired’ into neural circuits.

Project Summary/Abstract: Overall The overarching goal of this U19 program is to determine how neural computations across brain regions produce two core cognitive processes, working memory and decision-making, and thus to derive fundamental principles of brain function.

Decision making is a fundamental cognitive process, and many decisions are based on gradually accumulated evidence. Thus, it is critical to understand the mechanistic basis underlying this accumulation process.

Project Summary Plasticity is a fundamental aspect of neuronal circuits across all species. It is at the base of learning and memory, sensory adaption, and many disease-related processes such as addiction, chronic pain or regeneration.

Project Summary In vertebrate animals, the vestibular system (primarily known as the “balance system” of the brain) interprets head-movement and orientation signals to provide organisms with a sense of self-motion.

Abstract Microelectrode arrays (MEAs) have great potential for therapeutic use in direct brain-computer interface (BCI) control of robotic prostheses to improve the lives of patients suffering from debilitating conditions related to loss of limbs or limb function.

Project Summary Social interactions are critical to the physical and emotional health of a wide variety of species.

Electrocortical stimulation (ECS) has been used for functional mapping for many decades to identify brain areas that are “critical” for speech and language (i.e., that impair function when stimulated) prior to epilepsy or tumor surgery.

PROJECT SUMMARY Within every brain region, neurons can be classified into dozens or hundreds of different cell types, each with unique functional roles and unique impacts on disease states.

SUMMARY The "NexGen" 7 Tesla MRI scanner at UC Berkeley is a unique resource that we wish to make available for neuroscience collaborations across the globe.

This Phase II project describes the commercial development of HyperAxon™, highly innovative software for performing automated segmentation, tracing, reconstruction and quantitative analysis of all axonal fibers (with and without signs of acute axonal injury) visible in two- and three-dimensional

Project Summary/Abstract: The field of optogenetics — utilizing light to engage biological systems — is widely used for the dissection of neural circuits, cellular signaling and manipulating neurophysiological systems in awake, behaving animals.