Funded Awards

PROJECT SUMMARY/ABSTRACT Multiphoton microscopy of cells labeled with genetically encoded calcium indicators (GECIs) enables detection and correlation of fine neuronal structure to functional activity with cellular resolution.

PROJECT SUMMARY/ABSTRACT Effective interpretation of sensory stimuli relies on the ability to discriminate stimulus features and link them to appropriate behavioral responses depending on past experience.

Abstract Decades of research have revealed the principles of information processing that give rise to auditory spatial tuning and experience-dependent adaptive plasticity in the owl auditory system.

Abstract We have designed a novel approach to perform multi-scale recordings in the brain across regions and depths.

PROJECT SUMMARY Postnatal sensory experience has a profound effect on the maturation, composition, and connectivity of cortical cell types, but systematic analyses of these changes have not yet been feasible.

Over the past 15 years, new microscope technologies and methods for high throughput imaging have revolutionized structural biology by extending the resolution and scale of datasets in 3 dimensions.

Assessing social signals, such as vocalizations, figures prominently in the outcome of aggressive encounters, including the potential to win a fight or prevent escalation resulting in physical injury.

PROJECT SUMMARY How our brain achieves coherent perception by integrating information from parallel sensory pathways distributed across space and time remains a central question in neuroscience.

PROJECT SUMMARY Non-invasive imaging of human brain function plays an important role in advancing neuroscience research and understanding neurological diseases. This need has been met primarily by functional magnetic resonance imaging (fMRI).

PROJECT SUMMARY/ABSTRACT Does the way we hear sounds change when we become parents?

PROJECT SUMMARY Charcot-Marie-Tooth (CMT) disease is a genetically and clinically heterogeneous group of inherited peripheral neuropathies that is characterized by damage to long motor and sensory axons.

Abstract Our brains have evolved to extract relevant sensory information from rich and complex natural environments in order to drive appropriate behavior.

The neuromodulators acetylcholine (ACh) and norepinephrine (NE) are associated with an activated cortical brain state characterized by an increase in the reliability of cortical responses to external stimuli and enhanced performance on behavioral tasks.

Project Summary Learning is a fundamental function of the brain: sensory representations must be flexible to adjust to changes in environmental demands and experience, thus allowing us to adapt to the world around us.

Cell Type and Circuit Mechanisms of Non-Invasive Brain Stimulation by Sensory Entrainment Patterned sensory stimulation (PSS) is a non-invasive technique for manipulating brain activity and states, typically employing periodic light flicker or auditory tones presented at regular intervals.

The ability to listen and identify sounds in the presence of competing background noise is a critical function of the healthy auditory system.

PROJECT SUMMARY Living organisms interact with complex environments that are inherently multisensory. Within these environments, the brain must integrate information from multiple sensory modalities, including the auditory and olfactory systems, for perception and behavior.

Abstract The ability to noninvasively modulate and image the brain with spatial and temporal precision is highly desirable for understanding brain circuits in health and disease.

7. Project Summary/Abstract Human experience is shaped by our senses, which receive diverse inputs from our environment. These varied inputs, however, all contribute to a single integrated representation in our minds of the outside world.

Project Summary Interactions between the auditory and visual systems are among the most well-established cases of crossmodal interplay, yet the overwhelming bulk of the sensory physiology literature reflects studies examining processing confined to a single modality and we understand comparatively l