Notices of Funding Opportunities

The goal of this effort is to support the development and validation of next generation platforms and analytic approaches to precisely quantify behaviors in humans and link them with simultaneously recorded brain activity. Tools used for analyzing behavior should be multi-modal and should be able to be linked to brain activity and thus have the accuracy, specificity, temporal resolution, and flexibility commensurate with tools used to measure and modulate the brain circuits that give rise to those behaviors. This phased award will support novel tool development (i.e., hardware/software) in the R61 phase and synchronization of novel tools for measuring behavior and human brain activity in the R33 phase.

This Brain-Behavior Quantification and Synchronization notice of funding opportunity (NOFO) seeks applications proposing research aiming to 1) develop, validate, and apply cutting-edge tools and methods for minimally invasive, multi-dimensional, high-resolution measurement of behavior at the organismal level, with synchronous capture of changes in the organisms social or physical environment; and 2) develop computational methods that allow for integration of multidimensional behavioral and environmental data representing multiple timescales into a conceptual and/or computational model of behavior as a complex dynamic system. Proposed projects are also expected to be designed with the capacity to integrate synchronously recorded neural data and/or inform existing models of neurobehavioral function, such as those developed with the support of the NIH BRAIN Initiative. Research that falls under the definition of an NIH Clinical Trial is not allowed under this NOFO. Applicants interested in proposing mechanistic research in humans relevant to the above purpose should submit under the companion U01 NOFO, RFA-DA-24-040. This NOFO requires a Plan for Enhancing Diverse Perspectives (PEDP), which will be assessed as part of the scientific and technical peer review evaluation. Applications that fail to include a PEDP will be considered incomplete and will be withdrawn. Applicants are strongly encouraged to read the NOFO instructions carefully and view the available PEDP guidance material.

This Brain-Behavior Quantification and Synchronization notice of funding opportunity (NOFO) seeks applications that bring together transdisciplinary teams and aim to 1) develop, validate, and apply cutting-edge tools and methods for minimally invasive, multi-dimensional, high-resolution objective measurement of behavior at the organismal level, with synchronous capture of dynamic environmental data; 2) develop advanced analytic approaches to integrate multidimensional behavioral, neural and environmental data; and 3) develop and test new theoretical and computational models aiming to advance understanding of behavior as a complex dynamic system. Proposed projects are expected to be designed with the capacity to integrate synchronously recorded neural data and/or inform existing models of neurobehavioral function, such as those developed with the support of the NIH BRAIN Initiative. This BRAIN Initiative NOFO is specifically soliciting applications proposing basic research involving human subjects aiming to reveal and understand fundamental principles underlying behavioral function, including research limited to observational studies or analysis of human data. Applications proposing research using exclusively non-human animal models should apply under the companion NOFO, RFA-DA-24-041. This NOFO requires a Plan for Enhancing Diverse Perspectives (PEDP).

This BRAIN Initiative Notice of Funding Opportunity (NOFO) is to scale up efforts for viral, non-viral, transgenic, and gene regulatory element screening technologies and create reagent resources to access brain cell types. This NOFO is part of the BRAIN Initiative Armamentarium for Brain Cell Access transformative project. Reagent development efforts will apply gene transfer, gene regulation, genome engineering, activity sensor/effector, and atlasing technologies for use in both genetically tractable and less tractable systems, including primates and human tissue, which are relevant for future translational efforts. Reagent validation studies will provide feedback to improve scaled resources, informed by deeper understanding of neural gene transfer and regulation mechanisms. Precise targeting could ultimately aid in human disorders, for example, by providing access for gene editors to specific cell types to repair mutations.

Guided by the goals established in BRAIN 2025: A Scientific Vision and reinforced by the Advisory Council to the Director Working Group on BRAIN 2.0 Neuroethics Subgroup, this Notice of Funding Opportunity (NOFO) from the NIH Brain Research through Advancing Innovative Neurotechnologies (BRAIN) Initiative is intended to support efforts addressing core ethical issues associated with research focused on the human brain and resulting from emerging technologies and advancements supported by the BRAIN Initiative. This NOFO encourages research project grant applications from multi-disciplinary teams focused on key ethical issues associated with BRAIN Initiative supported research areas. Efforts supported under this NOFO are intended to be both complementary and integrative with the transformative, breakthrough neuroscience discoveries supported through the BRAIN Initiative.

Guided by the goals established in BRAIN 2025: A Scientific Vision and reinforced by the Advisory Council to the Director Working Group on BRAIN 2.0 Neuroethics Subgroup, this Notice of Funding Opportunity (NOFO) from the NIH Brain Research through Advancing Innovative Neurotechnologies (BRAIN) Initiative is intended to support efforts addressing core ethical issues associated with research focused on the human brain and resulting from emerging technologies and advancements supported by the BRAIN Initiative. This NOFO encourages research project grant applications from multi-disciplinary teams focused on key ethical issues associated with BRAIN Initiative supported research areas. Efforts supported under this NOFO are intended to be both complementary and integrative with the transformative, breakthrough neuroscience discoveries supported through the BRAIN Initiative.

This notice of funding opportunity (NOFO) seeks applications proposing a set of planning activities that will lay the groundwork for a scientific project aimed at integrating complementary theories and methods to 1) develop, validate, and apply cutting-edge tools and methods for minimally invasive, multi-dimensional, high-resolution measurement of behavior at the level of the organism, with synchronous capture of changes in the organisms social or physical environment; and 2) develop data science and computational methods that allow for integration of multidimensional behavioral and environmental datarepresenting multiple timescales, and that will establish of a conceptual and/or computational model of behavior as a complex dynamic system. Prospective projects are expected to be designed with the potential to integrate synchronously recorded neural data and/or inform existing models of neurobehavioral function, such as those developed with the support of the NIH BRAIN Initiative. The purpose of this R34 planning grant opportunity is to support planning and development of the research framework, design, and approach, including activities that will establish feasibility, validity, and/or other technically qualifying results that, if successful, would support a competitive application for a U01, or equivalent, NIH research award. This NOFO requires a Plan for Enhancing Diverse Perspectives (PEDP), which will be assessed as part of the scientific and technical peer review evaluation. Applications that fail to include a PEDP will be considered incomplete and will be withdrawn. Applicants are strongly encouraged to read the NOFO instructions carefully and view the available PEDP guidance material.

This Notice of Funding Opportunity (NOFO) solicits applications to create a Marmoset Coordination Center. The awardee will be responsible for two separate but related activities. The first activity will be to become the repository for genomic, pedigree, and event records (date of birth, medical, reproductive history) for captive marmosets. The awardee is expected to use that information to help make breeding recommendations to maximize the health and genetic diversity of the marmosets in primate colonies. Applicants are encouraged to adopt the model used by the Association of Zoos and Aquariums.

The common marmoset (Callithrix jacchus) has emerged as a promising nonhuman primate model system to understand the primate brain. This has come about both from the realization that the behavior of the common marmoset is similar in some ways to human behavior and from recent demonstration of germline transmission of exogenous genetic information. This Notice of Funding Opportunity (NOFO) solicits applications to expand existing colonies of the common marmoset for neuroscience research in the United States, and to support the care, breeding and distribution of genetically modified marmosets, and cryopreserved embryos and gametes created by NIH-funded research programs such as the NIH BRAIN Initiative Tools for Germline Gene Editing in Marmosets research consortium. Recipients s under this NOFO are expected to expand their current marmoset colonies to provide healthy, well-characterized animals that will be made available to the neuroscience research community, and to include a plan to accept genetically modified marmosets, and cryopreserved embryos and gametes for distribution to the research community. Recipients are also expected to participate in and provide health and genetic information to an NIH-Funded Marmoset Coordination Center to help the community understand the pedigree of individuals in the captive marmoset population and improve the genetic diversity of that population across multiple colonies.

This Notice of Funding Opportunity (NOFO) solicits applications for one or more Data Coordinating Centers (DCCs) to support BRAIN CONNECTS, a networked consortium of Comprehensive Centers and Specialized Projects funded under RFA-NS-22-047, RFA-NS-22-048, and RFA-NS-22-049. The goals of these awards are to develop the research capacity and technical capabilities for comprehensive brain-wide connectivity mapping in mouse, human, and non-human primate (NHP). BRAIN CONNECTS projects will collect and process unprecedented volumes of anatomical data by scaling up cutting-edge acquisition modalities and analysis methods, to demonstrate the feasibility of collecting, reconstructing, analyzing, integrating, disseminating, and interpreting connectivity maps from entire brains. The resulting feasibility data from these awards are expected to inform NIH decisions on program continuation in a potential subsequent five-year funding period for production of brain-wide wiring diagrams. NIH expects to fund one or more BRAIN CONNECTS DCCs, which will collaborate with CONNECTS data generating projects to (1) coordinate activities of the BRAIN CONNECTS Network, (2) develop and harmonize common data processing pipelines, (3) integrate and disseminate data analytic tools and capabilities, (4) establish a unified knowledge base for connectivity data of diverse modalities, and (5) organize and implement outreach and engagement to the wider research community and the general public. Awards will be integrated into the BRAIN CONNECTS Network as a coordinated effort aimed at developing the ability to generate wiring diagrams spanning entire brains across multiple scales and species.