Discover Funding Opportunities

This Notice of Funding Opportunity (NOFO) seeks applications to optimize instrumentation and device technologies for recording and modulation of neural cells and circuits, to address major challenges and to enable transformative understanding of dynamic signaling in the central nervous system. It is expected that the proposed technologies and approaches have previously demonstrated their transformative potential through initial proof-of-concept testing, and are ready for accelerated refinement through iterative engineering and end-user feedback, appropriate for a path towards sustainable dissemination and user-friendly incorporation into routine neuroscience research. Applications may propose development of instrumentation hardware and/or devices and associated software. Approaches may utilize any modality such as optical, electrical, magnetic, or acoustic recording/manipulation, to target neuronal electrical signals or other forms of neural activity, including intracellular signaling and engagement of non-neuronal cells in circuit function. The aim of the proposed technologies should be to reduce major barriers to conducting neurobiological experiments, including considerations of cost and ease of access, and to enable new discoveries for understanding neural circuit function. Technologies should address major challenges associated with recording and modulating CNS activity, at cellular or circuit resolution, and should contribute to an overall ecosystem of technologies spanning multiple spatial and temporal scales in any region throughout the CNS. The approaches should be compatible with experiments in behaving animals, with an expectation that they will be validated with in vivo experiments during the course of the project.

This Notice of Funding Opportunity (NOFO) seeks applications for proof-of-concept testing and development of new technologies and novel approaches for recording and modulation of neural cells and circuits, to address major challenges and enable transformative understanding of dynamic signaling in the central nervous system. Preliminary feasibility data are not required, and it is expected that the proposed research may be high-risk, but if successful could profoundly change the course of neuroscience research. Applications may propose development of instrumentation hardware and/or devices and associated software, and/or molecular constructs for sensing and manipulating neural activity. Approaches may utilize any modality such as optical, electrical, magnetic, or acoustic recording/manipulation, to target neuronal electrical signals or other forms of neural activity, including intracellular signaling and engagement of non-neuronal cells in circuit function. The aim of the proposed technologies should be to reduce major barriers to conducting neurobiological experiments, including considerations of cost and ease of access, and to enable new discoveries for understanding neural circuit function. Technologies should address major challenges associated with recording and modulating CNS activity, at cellular or circuit resolution, and should contribute to an overall ecosystem of technologies spanning multiple spatial and temporal scales in any region throughout the CNS. The approaches should be compatible with experiments in behaving animals, with an expectation that they will be validated with in vivo experiments during the course of the project. Proposed validation experiments must focus on demonstrating the capabilities and potential impact of the technology, rather than advancing the state of biological knowledge as the primary project goal. Applications are encouraged to integrate multiple approaches, and where appropriate, to leverage a variety of domains of expertise from biological, chemical, and physical sciences, engineering, computational modeling, and statistical analysis.

This Notice of Funding Opportunity Announcement (NOFO) from the NIH Brain Research through Advancing Innovative Neurotechnologies (BRAIN) Initiative is intended to support establishment of facilities at minority-serving institutions (MSIs) and Institutional Development Award (IDeA)-eligible institutions for scaled production and distribution of brain cell type-specific access and manipulation reagents. Reagents will be initially developed in pilot resource projects for brain cell type-specific access and manipulation across vertebrate species from the BRAIN Initiative Armamentarium project. Awardees under this NOFO will work with the other Armamentarium awardees to manufacture and distribute the resources for use throughout the neuroscience community. It is envisioned that the awardees will work both with the Armamentarium community as well as with the neuroscience research community to optimize the use of new reagents. The types of reagents to be produced and distributed could include but are not limited to viral vectors, nucleic acid constructs, and nanoparticles designed for selective access to and manipulation of brain cell types. Such reagents will enable neuroscientists to probe circuit function with high precision in experimental animals and ex vivo human tissue and cells. Facilities are needed to contribute to the production and distribution of BRAIN Initiative Armamentarium project reagents broadly to neuroscience users.

This Notice of Funding Opportunity (NOFO) aims to accelerate the pace of translation of NCI-supported methods, assays, and technologies to the clinic. The focus is on the adaption and clinical validation of molecular, cellular, and imaging biomarkers for cancer detection, diagnosis, prognosis, monitoring, and prediction of response in treatment, as well as markers for cancer control and prevention. Research applications may support the acquisition of well-annotated specimens from NCI-supported or other clinical trials or observational cohorts/consortia for the purpose of clinical validation of the assay. Research projects encourage multi-disciplinary interaction among scientific investigators, assay developers, clinicians, statisticians, and clinical laboratory staff. Clinical laboratory scientists and statistical experts are highly encouraged to comprise integral parts of the application. This NOFO is not intended to support early-stage development of technology or the conduct of clinical trials, but rather the adaption and validation of assays to the point where they could be integrated into clinical trials as investigational assays, tools, or devices.

This Notice of Funding Opportunity (NOFO) solicits applications for next generation sensor and bioelectronic device development that will synchronize with brain recordings. The sensor and neural recording data will be used to generate new computational models of behavior in human and animal models. There has been a lack of quantitative approaches and models to understand the complexity of human and animal behavior in naturalistic settings. This NOFO focuses on the development of next generation sensors to acquire data and synchronize it with simultaneous brain recordings to build computational models. The program aims to advance neuroscience research through innovative sensor technologies that can better capture and analyze behavioral data in coordination with brain activity measurements.

Rapid advances in genotyping and next generation sequencing technologies have led to the identification of genetic variants that are associated with a wide variety of congenital defects including human congenital anomalies (HCAs), intellectual developmental disabilities (IDDs) and inborn errors of metabolism (IEMs). Large quantities of genomic data collected from pediatric congenital anomalies cohorts are available to the research community through several databases such as the Database of Genotypes and Phenotypes (dbGaP), the Gabriella Miller Kids First Data Resource Portal, the European Genome-Phenome Archive and Clinical Genome Resource (ClinGen). The purpose of this initiative is to promote the screening, functional validation and characterization of congenital anomaly-associated genetic variants identified through public facing databases and individual efforts using in-silico tools, appropriate animal models, in vitro systems or multi-pronged approaches. This initiative addresses a challenging gap between identifying sequence variations of potential interest and recognizing which of those variations have functional effects on the phenotype of interest.

This Notice of Funding Opportunity (NOFO) invites research grant applications that propose the development and evaluation of novel radioligands for positron emission tomography (PET) or single photon emission computed tomography (SPECT) imaging in human brain and the incorporation of, pilot or clinical feasibility evaluation from previously collected data in pre-clinical studies. These studies are expected to provide the requisite data needed to advance promising PET ligands for use in clinical research. The program supports the development of innovative imaging biomarkers that can be used for drug discovery and for understanding the pathophysiology of central nervous system (CNS) disorders. Funded projects will contribute to advancing neuroimaging technologies that enable better diagnosis, treatment monitoring, and understanding of brain disorders.

This Funding Opportunity Announcement (FOA) solicits applications from research partnerships formed by academic and industrial investigators to accelerate the development and adoption of promising bioengineering tools and technologies that can address important biomedical problems. The objectives are to establish these tools and technologies as robust, well-characterized solutions that fulfill an unmet need and are capable of enhancing our understanding of life science processes or the practice of medicine. Awards will focus on supporting multidisciplinary teams that apply an integrative, quantitative bioengineering approach to developing technologies. The goal of the program is to support technological innovations that deliver new capabilities which can realize meaningful solutions within 5 to 10 years.

Through this Notice of Funding Opportunity (NOFO), the National Cancer Institute (NCI) intends to stimulate translation of scientific discoveries and engineering developments in imaging, data science and/or spectroscopic technologies into methods or tools that address contemporary problems in understanding the fundamental biology, potential risk of development, diagnosis, treatment, and/or disease status for cancer or other disease. This R01 grant opportunity supports academic-industrial partnerships focused on translating imaging systems into clinical or research applications. The program aims to bridge the gap between technological innovation and practical implementation in cancer research and diagnosis.

The purpose of this Notice of Funding Announcement (NOFO) is to support development of biomarkers or clinical outcomes derived from digital health technology (DHT) for use in clinical trials for remote monitoring as primary or secondary endpoints. To improve clinical impact, increase statistical feasibility, and promote standardization, applicants will be expected to develop and test the digitally derived assessments in populations from at least three different diseases or conditions. Partnerships with non-profit patient advocacy organizations will be required. This cooperative agreement supports research in digital health technologies for biomarker development and clinical outcome assessment, with applications across multiple disease areas including aging, neurosciences, and cancer control.

This Notice of Funding Opportunity (NOFO) supports projects relevant to the NIGMS mission that focus solely on the development of technologies with potential to enable acquisition of biomedical knowledge. Projects should be justified in terms of technical innovation and utility of such technical innovation for impacting future biomedical research. Outcomes or products of the proposed project should significantly advance the current state of the art and be sufficiently characterized for application in addressing a broad range of biomedical research questions. This R01 grant mechanism is specifically designated as clinical trial not allowed, focusing on fundamental technology development rather than clinical applications.

This Notice of Funding Opportunity (NOFO) supports exploratory research leading to proof of concept for the development of new technologies relevant to the NIGMS mission. Projects should entail a high degree of risk and/or novelty, and have a high future potential impact in biomedical research. The R21 mechanism is designed for early-stage technology development research that establishes the feasibility and proof of concept for innovative biomedical technologies. This funding opportunity encourages high-risk, high-reward projects that have the potential to transform biomedical research capabilities.

The purpose of this Brain Research through Advancing Innovative Neurotechnologies (BRAIN) Initiative is to encourage applications that will develop and validate novel tools to facilitate the detailed analysis of complex circuits and provide insights into cellular interactions that underlie brain function. The new tools and technologies should inform and/or exploit cell-type and/or circuit-level specificity. Plans for validating the utility of the tool/technology will be an essential feature of a successful application. The development of new genetic and non-genetic tools for delivering genes, proteins and chemicals to cells of interest or approaches that are expected to target specific cell types and/or circuits in the nervous system with greater precision and sensitivity than currently established methods are encouraged. Tools that can be used in a number of species/model organisms rather than those restricted to a single species are highly desired. Applications that provide approaches that break through existing technical barriers to substantially improve current capabilities are highly encouraged.

This notice of funding opportunity (NOFO) encourages innovative research to develop, improve, characterize, and preserve animal models as well as animal model related biological materials, technologies, and new approach methodologies (NAMs) for studies relevant to human health and disease. This NOFO also seeks projects aimed at improving the diagnosis and control of diseases that could confound or interfere with animal use in biomedical research. The proposed project must have broad applicability to multiple NIH Institutes or Centers (ICs) to align with the NIH-wide mission of the Office of Research Infrastructure Programs (ORIP). The proposed studies must include animal models and explore multiple body systems or multiple categories of diseases. Applications that develop models focused on a specific disease or area of research, or only propose studies primarily relevant to a single NIH IC, will be considered not acceptable to this NOFO and will be withdrawn.

This National Institutes of Health funding opportunity supports translational and clinical research to advance precision medicine in pregnant women, lactating women, and children through the development of novel tools, models, and other technologies that could have a direct clinical or health impact. The program aims to enhance the understanding of the underlying mechanisms of drug action, including the role of pediatric ontogeny and the dynamic physiological changes that occur during pregnancy and lactation. It also seeks to discover and develop novel therapeutics or enhance the usage of existing drugs or drug repurposing for safer and more effective medications in pregnant and lactating women, neonates, and children. The overall goal is to improve safe and effective precision therapeutics for pregnant and lactating women, fetuses, neonates, and children, including those with disabilities.

The purpose of this notice of funding opportunity (NOFO) is to support translational and clinical research to advance precision medicine in pregnant women, lactating women, and children through the development of novel tools, models, and other technologies that could have a direct clinical or health impact. The program aims to enhance the understanding of the underlying mechanisms of drug action, including the role of pediatric ontogeny and the dynamic physiological changes that occur during pregnancy and lactation. Additionally, it seeks to discover and develop novel therapeutics or enhance the usage of existing drugs or drug repurposing for safer and more effective medications in pregnant and lactating women, neonates, and children. The overall goal is to improve safe and effective precision therapeutics for pregnant and lactating women, fetuses, neonates, and children, including those with disabilities.

The Aperture Innovation Accelerator provides seed funding for early-stage startups working on technologies that Cave Johnson himself would have approved of. We're looking for moonshot ideas that conventional funders would consider "too dangerous" or "scientifically impossible." Past cohort projects include: combustible lemon batteries, portal-powered logistics, and sentient turret therapy systems. If your idea makes safety officers nervous, you might be a perfect fit.

Building on decades of gel-based propulsion research, this grant funds applied science projects exploring novel uses for conversion gel, propulsion gel, and repulsion gel technologies. Applications in construction, athletics, transportation, and space exploration are all welcome. Note: All proposals must include a safety assessment. Previous incidents involving unsupervised gel testing in office environments have led to updated protocols. Moon rock exposure monitoring is provided at no additional cost.