Grants for Independent School Districts

Through this Funding Opportunity Announcement (FOA), the National Cancer Institute (NCI) invites applications for support of investigator-initiated studies addressing mechanisms by which bariatric surgery impacts cancer risk, and seeks to draw in talented scientists who study bariatric surgery to investigate its effects on cancer, rather than shorter term outcomes such as weight loss and diabetes. The goal of this FOA is to support proof of concept studies for feasibility and exploratory development. Feasibility must not have already been developed in the literature or with preliminary data. While unpublished data are not permitted, references and data from widely available preprints that have a Digital Object Identifier (DOI) are acceptable. Investigators who have generated unpublished preliminary data should submit a proposal to companion R01.

This Funding Opportunity Announcement (FOA) encourages grant applications from investigators interested in conducting basic, mechanistic research into the biological/genetic causes of cancer health disparities. These research project grants will support innovative studies designed to investigate biological/genetic bases of cancer disparities, such as (1) mechanistic studies of biological factors associated with cancer disparities, including those related to basic research in cancer biology or cancer prevention strategies, (2) the development and testing of new methodologies and models, and (3) secondary data analyses. This FOA is also designed to aid and facilitate the growth of a nationwide cohort of scientists with a high level of basic research expertise in cancer health disparities research who can expand available resources and tools, such as biospecimens, patient derived models, and methods that are necessary to conduct basic research in cancer health disparities.

The purpose of the NINDS Alzheimers Disease and Alzheimers Disease-Related Dementias (AD/ADRD) Advanced Postdoctoral Career Transition Award to Promote Diversity (K99/R00) program is to support of a cohort of new and talented, independent investigators from diverse backgrounds conducting AD/ADRD research. The program is designed to facilitate a timely transition of promising postdoctoral researchers from diverse backgrounds (e.g., see NIHs Interest in Diversity) from their mentored, postdoctoral research positions to independent, tenure-track or equivalent faculty positions. The program will provide independent NIH research support during this transition in order to help awardees establish independent research programs in the AD/ADRD field. This FOA is designed specifically for applicants proposing research that does not involve leading an independent clinical trial, a clinical trial feasibility study, or an ancillary study to a clinical trial. Applicants to this FOA are permitted to propose research experience in a clinical trial led by a mentor or co-mentor.

This Funding Opportunity Announcement (FOA) encourages grant applications from investigators interested in conducting basic, mechanistic research into the biological/genetic causes of cancer health disparities. These research project grants will support innovative studies designed to investigate biological/genetic bases of cancer health disparities, such as (1) mechanistic studies of biological factors associated with cancer disparities, including those related to basic research in cancer biology or cancer prevention strategies, (2) the development and testing of new methodologies and models, and (3) secondary data analyses. This FOA is also designed to aid and facilitate the growth of a nationwide cohort of scientists with a high level of basic research expertise in cancer health disparities research who can expand available resources and tools, such as biospecimens, patient derived models, and methods that are necessary to conduct basic research in cancer health disparities.

This Funding Opportunity Announcement (FOA) encourages grant applications from investigators interested in conducting basic, mechanistic research into the biological/genetic causes of cancer health disparities. These research project grants will support innovative studies designed to investigate biological/genetic bases of cancer health disparities, such as (1) mechanistic studies of biological factors associated with cancer health disparities, including those related to basic research in cancer biology or cancer prevention strategies, (2) the development and testing of new methodologies and models, and (3) secondary data analyses. This FOA is also designed to aid and facilitate the growth of a nationwide cohort of scientists with a high level of basic research expertise in cancer health disparities research who can expand available resources and tools, such as biospecimens, patient derived models, and methods that are necessary to conduct basic research in cancer health disparities.

This funding opportunity provides financial support for early-career researchers from underrepresented backgrounds to lead independent clinical trials and develop their research skills under the mentorship of experienced scientists.

This funding opportunity provides financial support for early-career researchers from diverse backgrounds to develop their skills in cancer research under the mentorship of experienced scientists, without leading independent clinical trials.

The "Blueprint Medtech: Small Business Translator" grant aims to support small businesses in developing and testing therapeutic and diagnostic devices for nervous or neuromuscular disorders, with funding and expert assistance provided for activities such as clinical studies, safety testing, and design validation, ultimately leading to FDA or IRB approval.

This funding opportunity provides financial support for new researchers from diverse backgrounds to conduct small-scale health-related studies, helping them advance towards independent research careers.

The "Blueprint MedTech Translator" grant aims to fund researchers to develop and test therapeutic and diagnostic devices for nervous or neuromuscular system disorders, with support for clinical trials, safety testing, design verification, and regulatory approvals, while also providing access to expert consultants and specialized research organizations.

This funding opportunity provides financial support for researchers to quickly evaluate new policies or programs aimed at influencing behaviors related to obesity, such as diet and physical activity, to help prevent or reduce obesity rates.

This funding opportunity supports researchers in exploring brain imaging techniques related to substance use and addiction, providing resources for small studies that can lead to larger research projects.

This funding opportunity supports small-scale brain imaging research related to substance use and addiction, aimed at helping both new and established researchers develop innovative studies that enhance our understanding of neurobiological mechanisms in these areas.

This funding opportunity announcement (FOA) invites applications for the Clinical and Translational Science Award (CTSA) Program hubs that will be part of a national, collaborative consortium focused on bringing more treatments to more patients more quickly through advancing clinical and translational science (CTS) by (1) developing, demonstrating, and disseminating scientific and operational innovations that improve the efficiency and effectiveness of clinical translation from identification to first-in-human studies to medical practice implementation to community health dissemination; (2) promoting partnerships and collaborations to facilitate and accelerate translational research projects locally, regionally, and nationally; (3) creating, providing, and disseminating innovative research programs and partnerships across institutions and communities to address health disparities and deliver the benefits of translational science to all; (4) creating and implementing scientific and operational innovations that increase the quality, safety, efficiency, effectiveness, and informativeness of clinical research; (5) providing a national resource for the rapid response to urgent public health needs; and (6) creating, providing, and disseminating CTS training for clinical research professionals of all disciplines on the research team. Along with this solicitation for the UM1 CTSA hub application, NCATS has published a separate, companion FOA that solicits applications for a required K12 Clinical Scientist Institutional Career Development Program Award (PAR-TR-22-career); both a UM1 hub application and the required K12 application must be submitted. If there is no companion K12 application submitted, the UM1 hub application will not be reviewed. However, if the UM1 application is funded and the companion K12 application is not funded, a resubmitted K12 application will be accepted. Additional companion FOAs solicit applications for optional training, career, and research ed

This funding opportunity supports innovative research projects in computational genomics and data science, encouraging the development of tools and methods that enhance genomic research and its applications across various diseases to improve human health.

This funding opportunity supports researchers developing innovative computational tools and methods to advance genomics, particularly those new to the field or from underrepresented groups.

This funding opportunity invites researchers to develop and apply advanced imaging techniques to better understand the role of inflammation in cancer, fostering collaboration between cancer scientists and imaging experts.

The "Effectiveness of School-Based Health Centers to Advance Health Equity" grant aims to fund research into how school-based health centers can effectively address the health needs of underserved school-aged children, particularly in managing and preventing chronic illnesses and understanding how these centers can improve health outcomes for at-risk groups such as immigrant youth and those in rural areas.

The purpose of this Funding Opportunity Announcement (FOA) is to correlate immune system development patterns between two or more age groups - neonates, infants, and children and adolescents and further understand the impact of infectious diseases, microbiome and environmental factors on the ontogeny and development of the pediatric immune system, from birth, transitioning into adolescence and adulthood with the focus of impact during pregnancy and post-natal period.Purpose The purpose of this Funding Opportunity Announcement (FOA) is to correlate immune system in general and development patterns in particular, between two or more age groups - neonates, infants, and children and adolescents and further understand the impact of infectious diseases, microbiome and environmental factors on the ontogeny and development of the pediatric immune system, from birth, transitioning into adolescence and adulthood with the focus of impact during pregnancy and post-natal period. Background Worldwide, mortality in children under the age of 5 is predominantly due to infectious diseases and immune modulations associated with these infections. Pediatric immune system is remarkably different from adult immune system and also forms the basis for overall wellbeing and providing an adequate disease encountering status to adulthood. A protected and systematically trained pediatric immune system results in a robust and efficient adult immune system. Moreover, immune system in children responds strongly, rapidly and robustly in comparison to adult immune system to immunization, diet and environmental factors. Knowledge of development of the pediatric immune system in response to exposure to childhood infections and vaccinations, microbiome and the environmental factors can help chart pathways that provide strategies to prevent and treat infectious diseases more efficiently. These variations between pediatric and adult immune systems offer insight into better understanding strategies for developing immune-therapeutics and vaccines against infections. The research focus in the current announcement is multi-disciplinary. The focus however is in the areas of immune ontogeny and development, the mechanisms of infant and neonatal immunity or relationship between ontogeny of immunosuppression, susceptibility to infection during infancy or studies on effect of early infections or vaccinations that train the immune system. It is expected to diversify areas in existing research and draw comparisons between age groups or specific organ system development (for example, projects of interest might investigate immune cell ontogeny in lung alveoli from infancy to adult hood or immune alterations due to exposure to a specific immunogen (like measles or BCG vaccine) at infancy vs adolescence and the chronic effect of air pollution). More specifically, the aim here is to elucidate immune system development patterns in infants, children and adolescents focusing on both the innate immunity and the development of diverse antibodies or T cell maturation, with relevance to chronic infections (not limited to HIV, CMV, TB and the current SARS-CoV2 pandemic as well). Further, the intention is to expand the science to include additional internal factors like microbial metabolites and/or external factors like the environment that modulate the developing immune system so that a research program that is multi-disciplinary can be developed to address the interaction between host and pathogen. Research Scope The over-arching scope of this FOA is: to correlate immune system in general and development patterns in particular, between two or more age groups - neonates, infants, and children and adolescents to understand the evolution or immune ontogeny in human immune system development focusing on either or both, innate and adaptive immune systems with additional focus on internal factors like the microbiome and/or external factors like the environment. Further, the scope can be covered under these following topics and is not limited to: Study in young children vs adolescents vs adults, development of immunity and variations in immune system in physiology and in response to infectious diseases focusing on MTCT diseases (HIV, CMV, TB, Syphilis, SARS-CoV2 etc.), not limited to, broadly neutralizing antibodies (bNAbs), development of mucosal antibodies, germinal center formation and maturation; correlate with T cell development and identification of immunogens that activate T cells without enhancing infection. Characterize the impact of age, environmental factors, microbial metabolites and microbiome composition in relation to the immune responses against acute or chronic infectious diseases not limited to HIV, TB, CMV, SARS-CoV2 etc., and their contribution towards the development of a robust immune system development using novel technologies (RNA seq, imaging of immunogens and cellular interactions, single cell imaging). Understand cellular and soluble immune system components and the developmental pathways, including the microbiome, that regulate these components in specific age-groups. For example, developing immune profiles of HIV exposed un-infected (HEU) infants in comparison with the immune profile of an adolescent living with HIV and how these immune alterations prepare the immune system to encounter future infections. Study the contribution of increased exposure to environmental factors, pathogens, extensive or scheduled immunization early in life on enhanced cross-talk between innate and adaptive immune systems; specific inflammatory responses generated by innate immune factors and their downstream effect on cellular immune development. Delineate the role of human microbiome in health and disease and the environmental factors to observe correlation of immune responses against acute and chronic infections and focus on transfer of microbes and immune factors from human milk to infants. For example, assess alterations in immune profiles of known oral microbial clusters in CMV infected child vs immune profiles in an adolescent. Understand the impact of variations of microbiome in specific organ systems (gut vs oral vs vaginal microbiomes) in age defined profiles and their effect on immune ontogeny with emphasis on Virome . Influence of maternal microbiome on the effect of microbial composition and development of immunity in the offspring; detailed studies exploring placental microbiome and correlation with maternal oral microbial microbiome are encouraged. Projects that will be considered non-responsive for this FOA include, but are not limited to: Applications proposing vaccine advocacy. Applications proposing to focus exclusively on effects of microbiome and not studying the relevance of these effects on immune system development. Applications proposing to focus exclusively on epigenomic approaches. Applications focusing on immunization strategies in infants for altering early immune responses.

This grant provides funding for researchers to develop and evaluate strategies to prevent and reduce healthcare-associated infections in various healthcare settings, with a focus on improving patient safety and health equity.