Grants

G. Webb

UA may submit 1 application.

The goal of this FOA is to support a Coordinating Center for the Human Immunology Project Consortium (HIPC) program. The HIPC program, supported through a separate FOA, will consist of 5-8 multi-project cooperative agreement (U19) awardees that will measure the diversity and commonalities of human immune responses under a variety of conditions and longitudinally using high-throughput systems immunology approaches coupled with detailed clinical phenotyping in well-characterized human cohorts. The HIPC Coordinating Center supported by this FOA will be responsible for: coordinating cross-HIPC data integration, analysis, and visualization; developing and maintaining a public HIPC website and knowledgebase to support cross-HIPC data analysis and visualization; and fostering collaborations amongst HIPC-funded investigators by managing the HIPC subcommittees and an Infrastructure and Opportunity Fund to support collaborative studies.

No applicants.

UA may submit 1 application.

This Funding Opportunity Announcement (FOA) for the Human Immunology Project Consortium (HIPC) solicits applications from single institutions, or consortia of institutions, to participate in a network of human immunology profiling research groups in the area of infectious diseases, including HIV. The purpose of this FOA is to characterize human immune responses/mechanisms elicited by vaccinations, vaccine adjuvants or natural infections by capitalizing on recent advances in immune profiling technologies.

No applicants.

UA may submit 1 application.

The NIH Research Education Program (R25) supports research education activities in the mission areas of the NIH. The over-arching goal of this NIBIB R25 program is to support educational activities that complement and/or enhance the training of a workforce to meet the nation's biomedical, behavioral and clinical research needs. To accomplish the stated over-arching goal, this FOA will support creative educational activities with a primary focus on Courses for Skills Development. This FOA seeks to support programs that include innovative approaches to enhance biomedical engineering design education to ensure a future workforce that can meet the nation's needs in biomedical research and healthcare technologies. Applications are encouraged from institutions that propose to establish new or to enhance existing team-based design courses or programs in undergraduate biomedical engineering departments or other degree-granting programs with biomedical engineering tracks/minors. This FOA targets the education of undergraduate biomedical engineering/bioengineering students in a team-based environment. While current best practices such as multidisciplinary/interdisciplinary education, introduction to the regulatory pathway and other issues related to the commercialization of medical devices, and clinical immersion remain encouraged components of a strong BME program, this FOA also challenges institutions to propose other novel, innovative and/or ground-breaking activities that can form the basis of the next generation of biomedical engineering design education.

No applicants.

UA may submit 1 application.

This funding opportunity announcement (FOA) is designed to support highly integrated research teams of three to six PDs/PIs to address ambitious and challenging research questions that are important for the mission of NIGMS and are beyond the scope of one or two investigators. Collaborative program teams are expected to accomplish goals that require considerable synergy and managed team interactions. Project goals should not be achievable with a collection of individual efforts or projects. Teams are encouraged to consider far-reaching objectives that will produce major advances in their fields. Applications that are mainly focused on the creation, expansion, and/or maintenance of community resources, creation of new technologies, or infrastructure development are not appropriate for this FOA.

No applicants.

D. RadojkovicE. BentleyA. GalindoA. Apple

J. Su

T. Vanderah

UA may submit more than one application.

There is no restriction on the number of applications an institution can submit to the SIG and/or High-End Instrumentation (HEI) Programs each year, provided the applications request different types of equipment. To prevent duplication of applications, this opportunity is Institutionally Coordinated. Applications will be accepted that request a single, commercially available instrument or an integrated instrumentation system. The minimum award is $50,000. There is no upper limit on the cost of the instrument, but the maximum award is $600,000. Since the cost of various instruments will vary, it is anticipated that the amount of the award will also vary. S10 awards do not allow indirect costs.

H-H., Chow
C. Miranti
C. Glembotski

UA may submit more than one application. 

There is no restriction on the number of applications an institution can submit to the SIG and/or High-End Instrumentation (HEI) Programs each year, provided the applications request different types of equipment. To prevent duplication of applications, this opportunity is Institutionally Coordinated.

The purpose of this funding opportunity is to continue the High-End Instrumentation (HEI) Grant Program administered by the Office of Research Infrastructure Programs (ORIP). The objective of the Program is to make available to institutions high-end cutting-edge research instruments that can only be justified on a shared-use basis and that are needed for NIH-supported projects in basic, translational, and clinical biomedical or biobehavioral research. The HEI program provides funds to purchase or upgrade a single item of expensive, leading-edge, specialized, commercially available instrument or an integrated instrumentation system. An integrated instrumentation system is one in which the components, when used in conjunction with one another, perform a function that no single component can provide. The components must be dedicated to the system and not used independently.Types of supported instruments include, but are not limited to: X-ray diffractometers, mass spectrometers, nuclear magnetic resonance (NMR) spectrometers, DNA and protein sequencers, biosensors, electron and light microscopes, cell sorters, high throughput robotic screening systems, and biomedical imagers. Applications for standalone computer systems (supercomputers, computer clusters and data storage systems) will only be considered if the system is solely dedicated to biomedical research.

T. Trouard