Grants for State governments - Income Security and Social Services

This funding opportunity provides financial support for educational programs that train new researchers in Down syndrome to improve understanding and treatment of co-occurring health conditions throughout the lifespan.

This funding opportunity supports researchers in developing innovative, safe, and noninvasive methods to assess the placenta's development and function throughout pregnancy, with the goal of improving maternal and fetal health outcomes.

This grant provides funding for researchers to develop and validate innovative, safe, and noninvasive methods for real-time assessment of placenta development and function throughout pregnancy, ultimately aiming to improve maternal and fetal health outcomes.

This FOA solicits the development of theories, computational models, and analytical tools to derive understanding of brain function from complex neuroscience data. Proposed projects could develop tools to integrate existing theories or formulate new theories; conceptual frameworks to organize or fuse data to infer general principles of brain function; multiscale/multiphysics models to generate new testable hypotheses to design/drive future experiments; new analytical methods to either support or refute a stated hypothesis about brain function. It is expected that the tools developed under this FOA will be made widely available to the neuroscience research community for their use and modification. Investigative studies should be limited to model parameter estimation and/or validity testing of the tools being developed.

The grant titled "BRAIN Initiative: Engineering and optimization of molecular technologies for functional dissection of neural circuits" aims to support the development and enhancement of molecular tools that can specifically target brain cells, enabling the observation and control of neural circuits in experimental animals.

This funding opportunity provides financial support for early-stage researchers in the U.S. to explore innovative studies on HIV-related health issues, such as comorbidities and coinfections, with the potential to transform understanding and treatment in this field.

This grant provides funding for innovative educational programs that enhance research skills and training for individuals in biomedical and behavioral sciences, particularly in areas related to human development and health.

This funding opportunity supports the development of innovative medical devices aimed at diagnosing and treating pain or opioid use disorder, targeting researchers and organizations focused on non-addictive solutions in healthcare.

This grant provides funding for researchers to investigate the genetic and environmental causes of structural birth defects, promoting collaboration between scientists and clinicians to improve prevention and treatment strategies.

This FOA will support integrated, interdisciplinary research teams that focus on examining dynamic circuit functions related to behavior, using advanced and innovative technologies. The FOA will support programs with a necessarily-synergistic, team science approach. Awards will be made for 5 years, with a possibility of one competing renewal. Applications should focus on overarching principles of circuit function in the context of specific neural systems underlying sensation, perception, emotion, motivation, cognition, decision-making, motor control, communication, or homeostasis. Applications should aim to understand these circuits of the central nervous system by systematically controlling stimuli and/or behavior while actively recording and/or manipulating relevant dynamic patterns of neural activity and by measuring the resulting behaviors and/or perceptions. Applications are expected to employ approaches and experimental design guided by specified theoretical constructs, are encouraged to employ quantitative, mechanistic and predictive models where appropriate. Model systems, including the possibility of multiple species ranging from invertebrates to humans, can be employed and should be appropriately justified. Programs should employ multi-component teams of research expertise including neurobiologists, statisticians, physicists, mathematicians, engineers, computer scientists, and data scientists, as appropriate - that seek to cross boundaries of interdisciplinary collaboration. Applications will be required to manage their data and analysis methods in a framework that will be developed and used in the proposed U19 project and exchanged with other BRAIN U19 awardees for further refinement and development.

This FOA will support integrated, interdisciplinary research teams that focus on examining dynamic circuit functions related to behavior, using advanced and innovative technologies. The FOA will support programs with a necessarily-synergistic, team science approach. Awards will be made for 5 years, with a possibility of one competing renewal. Applications should incorporate overarching principles of circuit function in the context of specific neural systems underlying sensation, perception, emotion, motivation, cognition, decision-making, motor control, communication, or homeostasis. Applications should incorporate theory-/model-driven experimental design and should offer predictive models as deliverables. Applications should seek to understand circuits of the central nervous system by systematically controlling stimuli and/or behavior while actively recording and/or manipulating relevant dynamic patterns of neural activity and by measuring the resulting behaviors and/or perceptions. Applications are expected to employ approaches guided by specified theoretical constructs, and are encouraged to employ quantitative, mechanistic models where appropriate. Applications will be required to manage their data and analysis methods in a framework that will be developed and used in the proposed U19 project and exchanged with other BRAIN U19 awardees for further refinement and development. Model systems, including the possibility of multiple species ranging from invertebrates to humans, can be employed and should be appropriately justified. Programs should employ multi-component teams of research expertise including neurobiologists, statisticians, physicists, mathematicians, engineers, computer scientists, and data scientists, as appropriate - that seek to cross boundaries of interdisciplinary collaboration. Applicants proposing to include human subjects with invasive neural recording must apply to the companion FOA, RFA-NS-XX-XXX.

This FOA will support integrated, interdisciplinary research teams from prior BRAIN technology and/or integrated approaches teams, and/or new projects from the research community that focus on examining circuit functions related to behavior, using advanced and innovative technologies. The goal will be to support programs with a team science approach that can realize meaningful outcomes within 5-plus years. Awards will be made for 5 years, with a possibility of one competing renewal. Applications should address overarching principles of circuit function in the context of specific neural systems underlying sensation, perception, emotion, motivation, cognition, decision-making, motor control, communication, or homeostasis. Applications should incorporate theory-/model-driven experimental design and should offer predictive models as deliverables. Applications should seek to understand circuits of the central nervous system by systematically controlling stimuli and/or behavior while actively recording and/or manipulating relevant dynamic patterns of neural activity and by measuring the resulting behaviors and/or perceptions. Applications are expected to employ approaches guided by specified theoretical constructs, and are encouraged to employ quantitative, mechanistic models where appropriate. Applications will be required to manage their data and analysis methods in a prototype framework that will be developed and used in the proposed U19 project and exchanged with other U19 awardees for further refinement and development. Model systems, including the possibility of multiple species ranging from invertebrates to humans, can be employed and should be appropriately justified. Budgets should be commensurate with multi-component teams of research expertise including neurobiologists, statisticians, physicists, mathematicians, engineers, computer scientists, and data scientists, as appropriate - that seek to cross boundaries of interdisciplinary collaboration.

This funding opportunity provides financial support for research projects that aim to improve the adoption and sustainability of effective health interventions, particularly in underrepresented communities, by addressing barriers and promoting equitable health outcomes.

This funding opportunity supports research projects that aim to improve the adoption and sustainability of effective health interventions, particularly in underserved communities, while also addressing the reduction of ineffective practices.

This funding opportunity provides financial support for researchers to analyze existing oral health data or develop new statistical methods to improve understanding of dental and craniofacial issues.

This funding opportunity provides financial support for research aimed at improving the spread and implementation of effective health interventions, particularly in underserved communities, with a focus on promoting health equity and addressing health disparities.

The NIH INvestigation of Co-occurring conditions across the Lifespan to Understand Down syndromE (INCLUDE) Project seeks to improve health and quality-of-life for individuals with Down syndrome. This FOA is intended to support meritorious small research projects focused on analyses of genomics other -omics, clinical and phenotypic datasets related to Down syndrome research, with an emphasis on elucidating the underlying etiologies of risk and resiliencies to co-occurring health conditions. Development of approaches, tools, or algorithms appropriate for analyzing data relevant to Down syndrome and facilitating data sharing within the research community through the INCLUDE Data Hub may also be proposed.

The NIH INvestigation of Co-occurring conditions across the Lifespan to Understand Down syndromE (INCLUDE) Project seeks to improve health and quality-of-life for individuals with Down syndrome. This Funding Opportunity Announcement (FOA) is soliciting Transformative Research Award applications to support individual scientists or groups of scientists proposing groundbreaking, exceptionally innovative, original, and/or unconventional research that has the potential to create new scientific paradigms, establish entirely new and improved clinical approaches, or develop transformative technologies related to Down syndrome. For the program to support the best possible researchers and research, applications are sought which reflect the full diversity of the nations research workforce. Individuals from diverse backgrounds, including those from underrepresented groups and from the full spectrum of eligible institutions in all geographic locations are strongly encouraged to apply to this Funding Opportunity Announcement. Applications are welcome in all topics relevant to Down syndrome-related research or its co-occurring conditions. No preliminary data are required. Projects must clearly demonstrate, based on the strength of the logic, a compelling potential to produce a major impact in research related to Down syndrome.

The NIH INvestigation of Co-occurring conditions across the Lifespan to Understand Down syndromE (INCLUDE) Project seeks to improve health and quality-of-life for individuals with Down syndrome. This Funding Opportunity Announcement (FOA) encourages Exploratory/Developmental Phased Innovation (R61/R33) grant applications to support development of clinical trials to treat critical and co-occurring health conditions in individuals with Down syndrome. The proposed research aims should be milestone-driven. The total project period for an application submitted in response to this FOA may not exceed five years. This FOA provides support for up to two years (R61 phase) for preliminary/developmental/planning studies, followed by possible transition to clinical trial support (R33) of up to three years, although the total duration of the award may not exceed five years. This FOA requires measurable R61 milestones.

The NIH INvestigation of Co-occurring conditions across the Lifespan to Understand Down syndromE (INCLUDE) Project seeks to improve health and quality-of-life for individuals with Down syndrome. This Funding Opportunity Announcement (FOA) invites researchers to submit applications for support of clinical projects that address critical needs for clinical trial readiness in Down syndrome. This initiative seeks applications that are intended to facilitate Down syndrome research by enabling efficient and effective movement of candidate therapeutics or diagnostics towards clinical trials for Down syndrome and its co-occurring conditions, and to increase their likelihood of success through development and testing of biomarkers and clinical outcome assessment measures, development and testing of novel trial methods and recruitment strategies, or by defining the presentation and course of the co-occurring conditions in individuals with Down syndrome to enable the design of future clinical trials.