The NIH Blueprint for Neuroscience Research is a collaborative framework through which 14 NIH Institutes, Centers and Offices jointly support neuroscience-related research, with the aim of accelerating discoveries and reducing the burden of nervous system disorders. This Funding Opportunity Announcement (FOA) will solicit research projects to facilitate the development and translation of tools and technology for non-invasive imaging and profiling of human central nervous system (CNS, including retina) small blood and lymphatic vessels; to investigate their role in CNS physiology, disease, repair processes, and responses to therapy using novel approaches. Applications can be focused on the development of new technology and tools, novel target or biomarker identification and validation studies, or a combination of mechanistic and technology development studies specific to human CNS small blood and lymphatic vessels in health and disease, across the life span.
The NIH Blueprint for Neuroscience Research is a collaborative framework through which 14 NIH Institutes, Centers and Offices jointly support neuroscience-related research, with the aim of accelerating discoveries and reducing the burden of nervous system disorders. This Funding Opportunity Announcement (FOA) will solicit research projects focused on the development of new technology and tools, or novel mechanistic studies, or a combination of mechanistic and technology development studies specific to central nervous system (CNS, which includes retina) small blood and lymphatic vessels in health and disease, across the life span. The program aims at facilitating the development of tools and technology to image, profile and map CNS small blood and lymphatic vessels. Additional goals are to elucidate the mechanisms underlying CNS small blood and lymphatic vessels structural and functional heterogeneity, differential susceptibility to injury, role in disease and repair processes, and their responses to therapies. Preclinical studies using in vitro and/or animal models specific to CNS small blood and lymphatic vessels alone or in combination with pilot human studies are appropriate for this FOA.
This funding opportunity announcement (FOA) supports efforts to disseminate resources and to integrate them into neuroscience research practice. Projects should be highly relevant to specific goals of the BRAIN Initiative, goals that are described in the planning document "BRAIN 2025: A Scientific Vision." They should engage in one or more of the following activities: distribution of tools and reagents; user training on the usage of new technologies or techniques; providing access to existing technology platforms and specialized facilities; minor improvements to increase the scale/efficiency of resource production and delivery; minor adaptations to meet the needs of a user community. Applications strictly focused on technology or software development, rather than dissemination of an existing resource, are not responsive to this FOA. Refinements to microscopes or tools necessary to customize them to the experimental needs of the end users is allowed. Projects should address compelling needs of neuroscience researchers working toward the goals of the BRAIN 2025 report that are otherwise unavailable or impractical in their current form.
This funding opportunity announcement (FOA) supports efforts to disseminate resources and to integrate them into neuroscience research practice. Projects should be highly relevant to specific goals of the BRAIN Initiative, goals that are described in the planning document "BRAIN 2025: A Scientific Vision." They should engage in one or more of the following activities: distribution of tools and reagents; user training on the usage of new technologies or techniques; providing access to existing technology platforms and specialized facilities; minor improvements to increase the scale/efficiency of resource production and delivery; minor adaptations to meet the needs of a user community. Applications strictly focused on technology or software development, rather than dissemination of an existing resource, are not responsive to this FOA. Refinements to microscopes or tools necessary to customize them to the experimental needs of the end users are allowed. Projects should address compelling needs of neuroscience researchers working toward the goals of the BRAIN 2025 report that are otherwise unavailable or impractical in their current form.
This funding opportunity announcement (FOA) invites applications for basic research to better characterize the affective, cognitive, social, and motivational parameters of impaired and intact decision making in both normal aging and Alzheimer's disease (AD). Research is sought that will characterize the extent to which basic behavioral and neural processes involved in decision-making are differentially impacted in normal aging and AD, investigate the influence of social factors on decision-making, and investigate the decision-making factors that render older adults (with or without cognitive impairment) vulnerable to financial exploitation and other forms of mistreatment and abuse.
The FOA also invites applications to apply basic research on the processes involved in decision-making to the design of decision-supportive interventions for midlife and older adults with and without AD. Specific opportunities include the development of decision-supportive interventions to leverage cognitive, emotional and motivational strengths of these populations; tools to assess decisional capacity; strategies for simplifying choices and offering better defaults; and the promotion of timely adoption of optimal delegation practices (e.g., power of attorney, living wells, etc.).
This funding opportunity announcement (FOA) invites applications for basic research to better characterize the affective, cognitive, social, and motivational parameters of impaired and intact decision making in both normal aging and Alzheimer's disease (AD). Research is sought that will characterize the extent to which basic behavioral and neural processes involved in decision-making are differentially impacted in normal aging and AD, investigate the influence of social factors on decision-making, and investigate the decision-making factors that render older adults (with or without cognitive impairment) vulnerable to financial exploitation and other forms of mistreatment and abuse.
The FOA also invites applications to apply basic research on the processes involved in decision-making to the design of decision-supportive interventions for midlife and older adults with and without AD. Specific opportunities include the development of decision-supportive interventions to leverage cognitive, emotional and motivational strengths of these populations; tools to assess decisional capacity; strategies for simplifying choices and offering better defaults; and the promotion of timely adoption of optimal delegation practices (e.g., power of attorney, living wells, etc.).
This Funding Opportunity Announcement (FOA) solicits grant applications in two related but distinct areas.The first area is in the development and testing of novel tools and methods of neuromodulation that go beyond the existing variations on magnetic or electrical stimulation, and that represent more than an incremental advance over existing electromagnetic approaches. The second distinct area that this FOA seeks to encourage is the optimization of existing electrical and magnetic stimulation methods.
The purpose of this FOA is to invite innovative research pre-applications from applicants who have an interest in submitting an application to "Stimulating Peripheral Activity to Relieve Conditions (SPARC): Technologies to Understand the Control of Organ Function by the Peripheral Nervous System (OT2)", companion announcement RFA-RM-16-003. This NIH Funding Opportunity Announcement (FOA) solicits pre-applications to develop new and/or enhance existing tools and technologies to be used to elucidate the neurobiology and neurophysiology underlying autonomic control of organs in health or disease, which will ultimately inform next generation neuromodulation therapies. These two-year projects will facilitate technology development for neural mapping activities through the NIH SPARC Common Fund program.
The purpose of this FOA is to invite innovative research pre-applications from applicants who have an interest in submitting an application to "Stimulating Peripheral Activity to Relieve Conditions (SPARC): Technologies to Understand the Control of Organ Function by the Peripheral Nervous System (OT2)", companion announcement RFA-RM-16-003. This NIH Funding Opportunity Announcement (FOA) solicits pre-applications to develop new and/or enhance existing tools and technologies to be used to elucidate the neurobiology and neurophysiology underlying autonomic control of organs in health or disease, which will ultimately inform next generation neuromodulation therapies. These two-year projects will facilitate technology development for neural mapping activities through the NIH SPARC Common Fund program.
In this Funding Opportunity Announcement (FOA) we seek applications through the Small Business Innovation Research (SBIR) program for the optimization of existing and emerging technologies and approaches including 1) technologies and novel approaches for large scale recording and manipulation of neural activity, at or near cellular resolution, at multiple spatial and/or temporal scales, in any region and throughout the entire depth of the brain, 2) tools to facilitate the detailed analysis of complex circuits and provide insights into cellular interactions that underlie brain function. This FOA is intended for the iterative refinement of emergent technologies and approaches that have already demonstrated their transformative potential through initial proof-of-concept testing, and are appropriate for accelerated development with an end-goal of broad dissemination and incorporation into regular neuroscience practice.
The purpose of this FOA is to support innovative interdisciplinary, multi-institute research that will lead to the identification and validation of molecular mechanisms relevant to human biology that contribute to tau toxicity associated with Frontotemporal Degeneration (FTD). It is anticipated that this research will also contribute to tool development that can be applied to target validation in FTD clinical trials.Applications must include an administrative core, a scientific governance structure, a minimum of three research projects with milestone plans, resource core(s) that support the basic research efforts of at least two proposed research projects, a data coordination core that will facilitate the distribution of data generated through the Center without Walls with the broad research community and a human biology validation core that will support the validation of mechanisms identified and resources developed under this FOA. Synergy must be evident among Center research projects and cores, such that successful completion of the aims could not be accomplished without the Center structure. This FOA is in response to the Alzheimer's Disease Related Dementias (ADRD) challenges outlined in the 2015 update to the National Plan to Address Alzheimer's Disease.
The purpose of this FOA is to support innovative interdisciplinary, multi-institute research that will lead to the identification and validation of molecular mechanisms relevant to human biology that contribute to tau toxicity associated with Frontotemporal Degeneration (FTD). It is anticipated that this research will also contribute to tool development that can be applied to target validation in FTD clinical trials.Applications must include an administrative core, a scientific governance structure, a minimum of three research projects with milestone plans, resource core(s) that support the basic research efforts of at least two proposed research projects, a data coordination core that will facilitate the distribution of data generated through the Center without Walls with the broad research community and a human biology validation core that will support the validation of mechanisms identified and resources developed under this FOA. Synergy must be evident among Center research projects and cores, such that successful completion of the aims could not be accomplished without the Center structure. This FOA is in response to the Alzheimer's Disease Related Dementias (ADRD) challenges outlined in the 2015 update to the National Plan to Address Alzheimer's Disease.
The purpose of this Funding Opportunity Announcement (FOA) is to support the NeuroImaging Tools and Resources Collaboratory and to enable collaborative research in neuroimaging informatics. The competition is limited to the U24 awardees and subawardees of RFA-EB-16-002.
The purpose of this Brain Research through Advancing Innovative Neurotechnologies (BRAIN) Initiative is to encourage applications that will develop and validate tools and resources to facilitate the detailed analysis of brain microconnectivity. Novel and augmented techniques are sought that will ultimately be broadly accessible to the neuroscience community for the interrogation of microconnectivity in healthy and diseased brains of model organisms and humans. Development of technologies that will significantly drive down the cost of connectomics would enable routine mapping of the microconnectivity on the same individuals that have been analyzed physiologically, or to compare normal and pathological tissues in substantial numbers of multiple individuals to assess variability. Advancements in both electron microscopy (EM) and super resolution light microscopic approaches are sought. Applications that propose to develop approaches that break through existing technical barriers to substantially improve current capabilities are highly encouraged. Proof-of-principle demonstrations and/or reference datasets enabling future development are welcome, as are improved approaches for automated segmentation and analysis strategies of neuronal structures in EM images.
These awards encourage and support scientists working on the development of novel and creative approaches to understanding brain function. The fund supports efforts to examine how a new technology may be used to monitor, manipulate, analyze, or model brain function at any level, from the molecular to the entire organism. Technology may take any form, from biochemical tools to instruments to software and mathematical approaches. Because the program seeks to advance and enlarge the range of technologies available to the neurosciences, research based primarily on existing techniques will not be considered.
These awards encourage and support scientists working on the development of novel and creative approaches to understanding brain function. The fund supports efforts to examine how a new technology may be used to monitor, manipulate, analyze, or model brain function at any level, from the molecular to the entire organism. Technology may take any form, from biochemical tools to instruments to software and mathematical approaches. Because the program seeks to advance and enlarge the range of technologies available to the neurosciences, research based primarily on existing techniques will not be considered.
The purpose of this Brain Research through Advancing Innovative Neurotechnologies (BRAIN) Initiative is to encourage applications that will develop and validate tools and resources to facilitate the detailed analysis of brain microconnectivity. Novel and augmented techniques are sought that will ultimately be broadly accessible to the neuroscience community for the interrogation of microconnectivity in healthy and diseased brains of model organisms and humans. Development of technologies that will significantly drive down the cost of connectomics would enable routine mapping of the microconnectivity on the same individuals that have been analyzed physiologically, or to compare normal and pathological tissues in substantial numbers of multiple individuals to assess variability. Advancements in both electron microscopy (EM) and super resolution light microscopic approaches are sought. Applications that propose to develop approaches that break through existing technical barriers to substantially improve current capabilities are highly encouraged. Proof-of-principle demonstrations and/or reference datasets enabling future development are welcome, as are improved approaches for automated segmentation and analysis strategies of neuronal structures in EM images.
The initiative will support a multicenter, systematic and comprehensive investigation of the neuropathology of Chronic Traumatic Encephalopathy and the delayed effects of traumatic brain injury using postmortem biospecimens, and histological and neuroimaging tools as a foundation for future studies to develop in vivo diagnostics.
The Science Undergraduate Research Grant (SURG) Program is designed for faculty researchers and their students to gain access to cutting edge life science technology and incorporate it into the classroom. The SURG program's goal is to increase inquiry-based learning by providing the tools necessary to accelerate both students' and instructors' research and improve the quality of their science curriculum.
LI-COR Biosciences is awarding a limited number of matching fund grants (value up to $18,400) to eligible academic institutions within the United States and Puerto Rico to be used toward the purchase of a LI-COR Odyssey® Fc Imaging System including the instrument, software, and reagents. LI-COR SURG grants are a 40% match from LI-COR with the institution providing 60%.
This funding opportunity announcement (FOA) supports high impact efforts to provide resources for neuroscience research. Projects should address compelling needs of broad communities of neuroscience researchers or should offer unique services that otherwise would be unavailable. Applications can propose new tools, reagents or services, innovative approaches to scaling and/or economizing existing resources, or introduction of resources to wider user groups. Projects must support the NINDS mission.
Research!America is pleased to announce an exciting new program to introduce and engage early-career scientists in research advocacy and science policy. The 2013 Research!America Advocacy Academy is a unique opportunity for postdoctoral fellows in the health and biomedical sciences to learn about how to best incorporate advocacy and effective communications into their role as a scientist.
The 2013 class of up to 12 Research!America advocates will participate in a two-day Washington, DC, program from September 11-12, 2013. Participants will learn about the federal budget and appropriations process, tools for effective science communication and outreach as well as how to engage with elected representatives on scientific and research issues. The program includes visiting Capitol Hill to meet with policy makers and congressional staff members, providing participants with a first-hand experience advocating for health research. Rounding out this unique Washington experience, participants will attend Research!America's National Health Research Forum where top leaders in government, industry, academia and patient organizations engage in moderated conversations on issues of importance to the research ecosystem.
Upon completion of the program, participants will become Science Advocates for Research!America. Advocates will remain engaged with Research!America staff, receive ongoing action alerts and learn about ways to involve their home institution's research community in effective science advocacy.
All travel expenses (transportation, lodging and meals) will be provided and arranged by Research!America through an educational grant provided by Pfizer. This year's program is limited to 12 exceptional postdoctoral researchers with a dedicated interest in becoming active advocates for science.
This Funding Opportunity Announcement (FOA) intends to assemble a group of Comprehensive Centers that will adopt scalable technology platforms and streamlined workflows to generate a comprehensive 3D brain cell reference atlas encompassing molecular, anatomical, and physiological annotations of brain cell types in mouse, and incorporate additional genetic and other advanced cell-specific targeting approaches and tools to facilitate this goal. A central goal of this and the three companion FOAs is to build a brain cell census resource that can be widely used throughout the research community.
The purpose of the BRAIN Initiative Fellows (F32) program is to enhance the research training of promising postdoctorates, early in their postdoctoral training period, who have the potential to become productive investigators in research areas that will advance the goals of the BRAIN Initiative. Applications are encouraged in any research area that is aligned with the BRAIN Initiative, including neuroethics. Applicants are expected to propose research training in an area that complements their predoctoral research. Formal training in quantitative perspectives and analytical tools is expected to be an integral part of the proposed research training plan. In order to maximize the training potential of the F32 award, this program encourages applications from individuals who have not yet completed their terminal doctoral degree and who expect to do so within 12 months of the application due date. On the application due date, candidates may not have completed more than 6 months of postdoctoral training.
This Request for Proposal (RFP) seeks to support the development and validation of novel and existing biomarkers that will enhance the design and performance of clinical trials for Alzheimer's disease, related dementias, and cognitive aging. More accurate and comprehensive biomarkers will improve patient selection and pharmacodynamic measurements, and provide additional tools for early detection and accurate diagnosis.
