Project Summary
Mammalian brain is composed of vast numbers of intricately interconnected neurons with various
molecular, anatomical and physiological identities.
Funded Awards
The National Institutes of Health (NIH) BRAIN Initiative funds a wide-variety of research: toolmakers, trainees, individual labs testing new hypotheses, and large, team-based efforts aiming to catalyze neuroscience inquiry forward. Explore NIH BRAIN Initiative funded awards listed below. Click on the project title to learn more about it within NIH RePORTER.
To see more NIH-funded awards and associated publications, please visit the NIH RePORTER.
Title
Investigator(s)
Institution
Fiscal Year
Funding Opportunity #
Project #
Title
Brain circuit mapping using light inducible recombinase systems
Investigator
Ali Haydar Cetin
Institute
allen institute
Fiscal Year
Funding Opportunities Number
Project Number
Title
Bringing laser focus to voltage imaging: Enhanced indicators and advanced scanning methods for two-photon recording of dense networks in vivo
Investigator
Stephane Dieudonne, Michael Z. Lin
Institute
stanford university
Fiscal Year
Funding Opportunities Number
Project Number
Recording the electrical impulses of many individual neurons in intact brain circuits in real time would enable a detailed
understanding of how the brain processes information.
Title
Calcium biosensors for deep-tissue imaging and spectral multiplexing
Investigator
Vladislav Verkhusha
Institute
albert einstein college of medicine, inc
Fiscal Year
Funding Opportunities Number
Project Number
Calcium signaling participates in almost every aspect of cell functioning, specifically in neurons.
Title
Center for Epigenomics of the Mouse Brain Atlas (CEMBA)
Investigator
Edward M Callaway, Joseph R Ecker
Institute
salk institute for biological studies
Fiscal Year
Funding Opportunities Number
Project Number
OVERVIEW: Project Summary
A comprehensive understanding of how neural circuits spanning the entire brain generate the full repertoire of
perception and behaviors requires a list of brain cell types, as well the means to target each cell type in order
to interrogate the functional interactions that g
Title
Cerebellar network mapping with a high-throughput TEM platform
Investigator
Wei-Chung Allen Lee
Institute
harvard medical school
Fiscal Year
Funding Opportunities Number
Project Number
Project Summary/Abstract
A fundamental goal in neuroscience is to understand how information is processed in neuronal circuits.
Ultimately, we would like to understand the relationship between circuit structure and network function.
However, the immense complexity of most brain networks has been a s
Title
Circuit mechanisms of evidence accumulation during decision-making
Investigator
Zhihao Luo
Institute
princeton university
Fiscal Year
Funding Opportunities Number
Project Number
Project Summary/Abstract
Circuit mechanisms underlying evidence accumulation during decision-making
Behavior across many types of decision-making is well described by the gradual accumulation of evidence
toward one of multiple alternatives.
Title
Collaboratory for atlasing cell type anatomy in the female and male mouse brain
Investigator
Pavel Osten
Institute
cold spring harbor laboratory
Fiscal Year
Funding Opportunities Number
Project Number
Even though scientists have been captivated by the diversity of brain cells for well over a century, since the
initial anatomical descriptions by Santiago Ramón y Cajal, it is only recently that the developments in new
technologies allowed us to truly appreciate the astonishing complexity of cell ty
Title
Computational and circuit mechanisms underlying motor control
Investigator
Rui M. Costa
Institute
columbia university health sciences
Fiscal Year
Funding Opportunities Number
Project Number
Understanding the mechanisms that the nervous system uses to control movement is critical for
understanding brain and behavior, and one of the fundamental questions in neuroscience.
Title
Controlled neuronal firing in vivo using two photon spatially shaped optogenetics
Investigator
Emily Gibson, Diego Restrepo
Institute
university of colorado denver
Fiscal Year
Funding Opportunities Number
Project Number
This is an application in response to RFA-NS-17-00 4 “BRAIN Initiative: Optimization of Transformative
Technologies for Large Scale Recording and Modulation in the Nervous System (U01)”.
Title
Cortex-wide volumetric imaging of neuronal activity.
Investigator
Alipasha Vaziri
Institute
rockefeller university
Fiscal Year
Funding Opportunities Number
Project Number
We propose to design, build, apply, and disseminate a device that will push the boundaries of current
technology for volumetric imaging of distributed activity of large-scale neuronal circuits at high neuronal
sampling rate and single cell resolution.
Title
Decoding the neural basis of resting-state functional connectivity mapping
Investigator
Elizabeth M. C. Hillman
Institute
columbia university health sciences
Fiscal Year
Funding Opportunities Number
Project Number
Abstract
Resting state functional magnetic resonance imaging (rs-fMRI) is an important modality for imaging the human
brain.
Title
Deep brain stimulation for depression using directional current steering an individualized network targeting
Investigator
Wayne K Goodman, Nader Pouratian, Sameer Anil Sheth
Institute
columbia university health sciences
Fiscal Year
Funding Opportunities Number
Project Number
ABSTRACT
The public health burden of Treatment Resistant Depression (TRD) has prompted clinical trials of deep brain
stimulation (DBS) that have, unfortunately, produced inconsistent outcomes.
Title
Defining Cell Type Specific Contributions to fMRI Signals
Investigator
Jin Hyung Lee
Institute
stanford university
Fiscal Year
Funding Opportunities Number
Project Number
Project Summary / Abstract: The blood oxygenation level dependent (BOLD) functional Magnetic
Resonance Imaging (fMRI) signal source has been long debated since the invention of fMRI in the early 90s.
While fMRI is one of the most successful technologies utilized in numerous studies, the debate over
Title
Develop and validate novel chemogenetic tools to modulate synaptic transmission
Investigator
Susumu Tomita
Institute
yale university
Fiscal Year
Funding Opportunities Number
Project Number
Neural circuits encode animal behaviors, and neuroplasticity induces long-lasting
changes in neural circuits and animal behaviors. Neural circuits are formed by billions of
neurons, which communicate mostly through synapses.
Title
Development of Hybrid Adaptive Optics for Multimodal Microscopy Deep in the Mouse Brain
Investigator
Steven Graham Adie
Institute
cornell university
Fiscal Year
Funding Opportunities Number
Project Number
ABSTRACT
Optical imaging holds tremendous promise in our endeavor to understand brain functions. The major
challenges for optical brain imaging are depth and speed. Due to strong tissue scattering, the penetration
depth and imaging speed of optical microscopy in the mouse brain is very limited.
Title
Development of Line-Scan Temporal Focusing for fast structural imaging of synapse assembly/disassembly in vivo
Investigator
Josiah R Boivin
Institute
massachusetts institute of technology
Fiscal Year
Funding Opportunities Number
Project Number
A disproportionately large number of mutations resulting in neurodevelopmental and neuropsychiatric
disorders target synaptic proteins. Synapse remodeling and loss precede cell death in neurodegenerative
disorders, and addictive drugs can alter circuit connectivity.
Title
Development of tools for cell-type specific labeling of human and mouse neocortical neurons
Investigator
Ed Lein, Boaz Pirie Levi, Jonathan T Ting
Institute
allen institute
Fiscal Year
Funding Opportunities Number
Project Number
PROJECT SUMMARY
How the brain performs its computational task is a great unsolved problem in biology, but this answer is vital
for us to understand and combat disorders of brain function like autism, schizophrenia, and Alzheimer’s.
One appealing strategy towards solving this problem is to deconstruc
Title
Diffuse, spectrally-resolved optical strategies for detecting activity of individual neurons from in vivo mammalian brain with GEVIs
Investigator
Nozomi Nishimura
Institute
cornell university
Fiscal Year
Funding Opportunities Number
Project Number
Measuring and understanding the activity of individual neurons is critical for understanding how neuronal circuits function and lead to behavior. Two-photon microscopy of calcium-sensitive indicators has produced insightful data on the role of individual neurons with populations.
Title
Direct MEG/EEG detection using a novel MRI approach
Investigator
Paul A Bottomley
Institute
johns hopkins university
Fiscal Year
Funding Opportunities Number
Project Number
This R21 grant responds to RFA-EY-17-001 “BRAIN Initiative: New Concepts and Early-Stage Research for
Large-Scale Recording and Modulation in the Nervous System …for unique and innovative technologies in an
even earlier stage of development … including new and untested ideas in the initial stages of
Title
Electrophysiological Biomarkers to Optimize DBS for Depression
Investigator
Helen S Mayberg
Institute
emory university
Fiscal Year
Funding Opportunities Number
Project Number
PROJECT SUMMARY
Deep brain stimulation (DBS) of the subcallosal cingulate (SCC) white matter is an emerging new treatment
strategy for treatment resistant depression (TRD) with published studies demonstrating sustained long-term
antidepressant effects in 40-60% of implanted patients.