EXPIRED
National Institutes of Health (NIH)
T32 Institutional National Research Service Award (NRSA)
See Section III. 3. Additional Information on Eligibility.
The purpose of this FOA is to provide support for institutional research training programs in Alzheimer’s Disease/Alzheimer’s Disease-Related Dementias (AD/ADRD). These institutional research training programs should produce well-trained neuroscientists who leave the program with the research skills and scientific knowledge to make a significant contribution to research on AD/ADRD cognitive impairment and dementia. Programs should be designed to enhance the breadth and depth of training across the spectrum AD/ADRD research areas (e.g. AD, Vascular Contributions to Cognitive Impairment and Dementia (VCID), Lewy Body Dementia (LBD), Fronto-temporal Dementia (FTD) and mixed dementias) by incorporating didactic, research and career development components within this theme into a program that fosters exceptional research skills and knowledge. Programs may support basic, clinical and/or translational research. Programs supported by this FOA must include formal components to ensure a thorough understanding of experimental design, statistical principles and methodological approaches, analytical skills, and skills for communicating science, both orally and in writing, to a wide variety of audiences. All programs are expected to design and/or provide opportunities and activities that will foster the development of quantitative literacy and the application of quantitative approaches to the trainees' research. These training programs are intended to be 2 years in duration and support training of one or more of the following groups: dissertation stage predoctoral students in their 3rd and/or 4th year of graduate school, postdoctoral fellows and fellowship-stage clinicians. (This FOA cannot be used to support 1st or 2nd year graduate students).
This Funding Opportunity Announcement (FOA) does not allow appointed Trainees to lead an independent clinical trial, but does allow them to obtain research experience in a clinical trial led by a mentor or co-mentor.
Not Applicable
Application Due Dates | Review and Award Cycles | ||||
---|---|---|---|---|---|
New | Renewal / Resubmission / Revision (as allowed) | AIDS | Scientific Merit Review | Advisory Council Review | Earliest Start Date |
May 25, 2022 * | May 25, 2022 * | Not Applicable | October 2022 | January 2023 | April 2023 |
May 25, 2023 * | May 25, 2023 * | Not Applicable | October 2023 | January 2024 | April 2024 |
May 25, 2024 * | May 25, 2024 * | Not Applicable | October 2024 | January 2025 | April 2025 |
Not Applicable
It is critical that applicants follow the Training (T) Instructions in the SF424 (R&R) Application Guide, except where instructed to do otherwise (in this FOA or in a Notice from the NIH Guide for Grants and Contracts). Conformance to all requirements (both in the Application Guide and the FOA) is required and strictly enforced. Applicants must read and follow all application instructions in the Application Guide as well as any program-specific instructions noted inSection IV. When the program-specific instructions deviate from those in the Application Guide, follow the program-specific instructions. Applications that do not comply with these instructions may be delayed or not accepted for review.
The overall goal of the NIH Ruth L. Kirschstein National Research Service Award (NRSA) program is to help ensure that a diverse pool of highly trained scientists is available in appropriate scientific disciplines to address the Nation's biomedical, behavioral, and clinical research needs. In order to accomplish this goal, NRSA training programs are designed to train individuals to conduct research and to prepare for research careers. More information about NRSA programs may be found at the Ruth L. Kirschstein National Research Service Award (NRSA) website.
Purpose and Background Information
The NRSA program has been the primary means of supporting predoctoral and postdoctoral research training programs since enactment of the NRSA legislation in 1974. Research training activities can be in basic biomedical or clinical sciences, in behavioral or social sciences, in health services research, or in any other discipline relevant to the NIH mission.
Institutional NRSA programs allow the Training Program Director/Principal Investigator (Training PD/PI) to select the trainees and develop a program of coursework, research experiences, and technical and/or professional skills development appropriate for the selected trainees. Each program should provide high-quality research training and offer opportunities in addition to conducting mentored research. The grant offsets the cost of stipends, tuition and fees, and training related expenses, including health insurance, for the appointed trainees in accordance with agency-approved support levels.
Program Objectives
The objective of this NINDS Institutional Research Training Program is to support outstanding training to advanced predoctoral and postdoctoral scientists, which will specifically prepare them to become successful scientists who study the mechanisms that underlie AD/ADRD. The training should provide both breadth and depth of understanding in disciplines needed to make important advances in the rapidly evolving research enterprise that is increasingly complex and multidisciplinary. These programs should prepare investigators to draw on knowledge and approaches from multiple disciplines and levels of analysis, with an emphasis to applying this broad knowledge in novel ways to yield new discoveries about nervous system mechanisms that underlie AD/ADRD. Moreover, these programs must provide investigators with strong foundational skills in experimental design, statistical methodology and quantitative reasoning.
Summary of key points. It is expected that the programs supported under this funding opportunity announcement (FOA), whether inclusive of basic, translational or clinical research training, will provide:
Support from this T32 may only be provided to trainees whose mentors 1) agree to actively participate in programmatic activities, 2) are committed to fostering a positive, inclusive environment both within their labs and within the program environment, 3) are committed to fostering, both within the constructs of the T32 program and in their labs, strong expertise in experimental design, statistical methodology and an understanding of the experimental practices by which bias unintentionally infiltrates data collection and analysis, 4) proactively ensure that their trainees have the opportunity to lead and be first author on a significant project and 5) proactively introduce trainees to leaders in the field outside of the T32 institution.
The proposed institutional research training program may complement other ongoing research training and career development programs at the applicant institution, but the proposed program must be clearly distinct from related programs currently receiving Federal support.
Program Considerations
Training programs responsive to this FOA should be designed to increase the depth and breadth of trainee expertise with respect to AD/ADRD. Programs should consist of an integrated set of activities that will both unify a cohort of trainees and expand their expertise beyond what would occur in the absence of the program. For T32 training grants, a well-developed program 1) has a programmatic purpose and a scientific theme, 2) provides activities created to address that purpose that go beyond the standard activities (e.g., journal club, departmental seminars) associated with research career development, 3) has programmatic activities that bring together faculty and trainees with a broad spectrum of expertise, the integration of which has the potential to stimulate innovative ideas and solutions to scientific problems, 4) provides a sophisticated understanding of rigorous experimental design and the proper use of statistical methodology, 5) provides frequent, well-conceived opportunities designed to hone communication skills and 6) promotes an inclusive environment that encourages a wide variety of viewpoints and perspectives to be brought to bear in a scientific inquiry.
The fundamental benefit of an institutional, T32-funded training program is to create a rich environment that stimulates innovation, drives trainee focus on the highest standards in scientific rigor, and provides multiple opportunities for practice in scientific communication to a variety of audiences. Because of this focus on environment, the creation of a T32-funded training program should, in most cases, benefit trainees who are not directly supported financially by the grant as well as those who are.
Programs should create novel and/or expanded research training experiences and activities; they are not intended to simply support trainees to conduct research. Education in career skills (e.g. grant-writing, oral presentation) is a critical component of all programs but is not sufficient to constitute a T32-funded training program. Moreover, the activities that constitute the program should be specifically designed to achieve the stated thematic purpose of the training program, and not be simply cobbled together from existing activities that the institution or department offers.
PDs/PIs are encouraged to develop institutional training programs that will expose trainees to a diversity of scientific approaches, systems for study and tools and technologies. The training provided should enhance the trainees ability to conceptualize and think through research problems with increasing independence. Moreover, programs should foster a culture in which trainees draw from a broad knowledge obtained from both neuroscience and other disciplines to address their research questions.
Institutional research training grants must be used to support a program of full-time research training. Within the full-time training period, research trainees who are also training as clinicians must devote all of their time to the proposed research training and must confine clinical duties to those that are an integral part of the research training goals. The program may not be used to support medical training leading to the MD, DDS, or other clinical, health-professional training. Similarly, trainees may not accept NRSA support for clinical training that is part of residency training leading to clinical certification in a medical or dental specialty or subspecialty. It is permissible and encouraged, however, for clinicians to engage in NRSA-supported, full-time postdoctoral research training even when that experience is creditable toward certification by a clinical specialty or subspecialty board.
Short-term training is not allowed under this FOA.
Types of Programs
This FOA is intended to support training programs that will equip trainees to investigate and/or discover biological mechanisms that underly AD/ADRD. Consequently, programs must include basic research components targeted towards an understanding of the biological mechanisms of AD/ADRD. However, potential applicants are encouraged to consider designing programs that would support a mixture of basic, clinical and/or translational research to meet the goals of this FOA. It is expected that programs supported by this FOA will provide trainees with a broad spectrum of expertise about AD/ADRD, ranging from basic biological mechanisms to clinical sequelae and diagnosis.
Successful applications in response to this FOA will be those that immerse trainees in a broad spectrum of the most up-to-date information about AD/ADRD, propose activities that will foster new ideas and new conceptual frameworks with which to think about solving the problem of AD/ADRD, and will have an active training faculty from different backgrounds and experiences that will provide a multitude of ideas to broaden expertise within the field. Training should incorporate quantitatively sophisticated, multidisciplinary approaches, supported by faculty with a broad range of expertise, designed to promote significant future breakthroughs in understanding and/or treatment of AD/ADRD. Programs are also encouraged to select trainees who are utilizing a variety of technological approaches and/or who are from different scientific and/or educational backgrounds. Programs should involve both clinicians and basic scientists as training faculty, as future progress in understanding AD/ADRD will require research by individuals who are well-versed in neurological mechanisms, pathologies and clinical manifestations of AD/ADRD. Critically, all programs should provide a breadth and depth of training to enable trainees to make novel discoveries and apply knowledge from other disciplines to their research.
Programs may support advanced (year 3-4) predoctoral students, PhD postdoctoral fellows, fellowship-stage clinicians, or any combination of trainees from these three groups. For institutions that also have MSTP programs and intend to support MD/PhD students with this funding opportunity, the PD/PI should ensure that no more than 1/4 of trainees supported by the program are those seeking an MD/PhD.
Training grants that will support both predoctoral students and postdoctoral fellows should have a single program in which both groups of trainees participate and interact. The program may include shared and different activities, but they must occur in the context of an integrated program in which both predocs and postdocs benefit from the interaction, programmatic activities and collaborative possibilities that the program creates.
Programs that Exclusively Support Clinician-Scientist Training: Programs designed to support exclusively clinician-scientists will provide the research training, professional skills development and mentoring that are needed to prepare a cohort of fellowship-stage clinicians for success as clinician-scientists. Support for clinicians is intended to provide protected time for research and training needed to progress as a scientific researcher. However, as for all programs supported under this FOA, there must be a coherent set of programmatic activities designed to provide supported clinicians with the expertise and professional skills to thrive as clinician-researchers. Programs that support clinician-scientists should be designed to achieve the specific outcome of producing independent clinician-scientist researchers (i.e. individuals who transition to individual research funding). Thus, an important outcome metric by which these T32 programs will be judged is whether the supported clinicians obtain NIH K award or other individual research funding.
Experimental Design and Statistical Methodology
Experimental Design: Programs are expected to provide formal educational activities that reinforce the principles of rigorous experimental design to ensure that trainees understand the practices required for robust hypothesis testing and avoidance of experimental bias.
Statistical Methodology: Programs should ensure that each trainee is equipped with a solid understanding of statistical methodology relevant to neuroscience research. Ideally, trainees will develop a depth and breadth of statistical understanding that will enable them to adapt and appropriately apply statistical approaches as their experimental repertoire changes. Programs must ensure that all trainees have a solid understanding of the value and proper use of statistics, including an understanding of the many types of scientific failures that can occur due to inappropriate application of statistical tests. An introductory course in statistics is not sufficient to achieve these goals.
Statistical Training and Support
It is critical that trainees understand that statistical considerations are vital not only for analysis of data but for designing experiments and experimental approaches. To help trainees develop an understanding of the many contexts in which statistical considerations come into play, programs are strongly encouraged to incorporate the expertise of a statistician or other expert in statistics into the training program. Funds may be requested for up to 1.2 person months effort to support a faculty-level statistician or equivalent, to play an integral role in the training program. Ideally this support will provide the opportunity for all trainees participating in the program to consult with the statistician when considering experimental approaches, designing experiments, determining appropriate sample size for their studies, analyzing collected data, etc. It is envisioned that the supported statistician will contribute to educating the trainees on statistical issues in scientific inquiry, such as, for example, a rigorous understanding of p values, Bayesian vs frequentist methods, the problems encountered with multiplicities, "p-hacking", the differences in acceptable statistical treatment of exploratory and hypothesis-testing studies, etc. Finally, it is expected that the supported statistician will actively participate in programmatic activities, as well as "Program-wide Meetings: Experimental Design, Statistics and Quantitative Literacy" (see below) to lend strong statistical expertise to the discussions.
Whereas the statistician may contribute to courses and/or create workshops required for the program, funding will not be provided simply to support a statistician to develop and/or teach a course or workshop. The intent of supporting dedicated effort by a statistician is to have the statistician be integrated into the training program, whereby, in addition to consulting on trainee research projects, they will participate in and contribute expertise to programmatic activities such as journal clubs, research presentations, seminars, etc.
Quantitative Literacy and Use of Quantitative Approaches
Quantitative Literacy: NINDS training programs should provide an appreciation of the benefits of quantitative approaches to experimentation (and the potential pitfalls associated with a lack of quantitative consideration of their scientific system). An important specific goal of these programs is to foster the incorporation of quantitative thinking into the trainees' research throughout their careers. The training activities provided by the program should equip trainees with the tools and knowledge required to examine their experimental systems quantitatively. The educational approach to quantitative literacy should be designed to produce a cohort of quantitatively astute neuroscientists prepared to be leaders in their area of research interest.
Quantitative Tools and Approaches: Programs should provide experience in the use of practical tools for quantitative exploration, interpretation and evaluation of biological data relevant to the thematic area of the program. Approaches may include, for example, the use of programming tools to model biological systems or events, problem-solving exercises that develop skills in quantitative exploration of biological data, and/or other didactic or hands-on activities that will enhance a trainee's ability to use quantitative approaches to answer scientific questions and guide the next steps in their research.
Funds may be requested to enhance and broaden the development of training in quantitative literacy and analytical skills. Funds may be used to bring in outside experts to conduct workshops to enhance quantitative skills, analytical skills, literacy and fluency in the application of quantitative approaches to neuroscience research. To obtain additional funds for this purpose, programs must describe specific, well-conceived plans for enhancing training in these areas and the value that the additional funds will provide. For information on requesting funds, see "Training Budget" in Section IV. For information on submission requirements, see "Training in Quantitative Skills and Literacy" in Section IV.
Program-wide Meetings: Experimental Design, Statistics and Quantitative Literacy
As part of all NINDS training programs, it is expected that the trainees and program faculty will meet regularly as a group to discuss and evaluate the experimental and statistical approaches used in their own work and in literature relevant to the thematic area of the program. These regular meetings are anticipated to include, as relevant, discussions of the variety of quantitative tools and approaches used to examine different types of data, and potential approaches to modeling experimental systems.
Scientific Rigor
Trainees should have a thorough understanding of the principles and practices of rigorous scientific research. Programs are also strongly encouraged to provide education in human decision-making tendencies and cognitive biases, and how they can lead to erroneous interpretation of data (c.f. Kahneman, D. 2011 Thinking, Fast and Slow. New York. Farrar, Straus and Giroux).
Professional Skills
Programs should provide students with training in professional skills such as written and oral presentation for a wide variety of audiences. Programs are strongly encouraged to include group activities such as elevator pitches, data blitzes and/or shark tank presentations, etc. Not only are these helpful for honing organizational and presentation skills, but they help trainees to articulate the significance of their work to both lay (i.e., investors, advocacy groups and the general public) and scientifically literate audiences. Further, programs should provide training in the skills necessary for grant applications, such as grant writing, understanding the grant submission and review process and understanding and responding to critiques.
Understanding Career Opportunities
The career outcomes of individuals supported by NRSA training programs will likely include both research-intensive careers in academia and industry, and research-related careers in various sectors, e.g., academic institutions, government agencies, for-profit businesses, and private foundations. Trainees should have access to career development advising and exposure to a range of career opportunities. Through these activities, trainees should become familiar with various potential career directions that make strong use of the knowledge and skills gained during research training and the steps required to transition successfully to the next stage of their chosen career.
Oversight of Trainee Mentoring and Progression
In addition to outstanding scientific training, strong mentorship and career guidance are critical for advancement and success in science. Consequently, NINDS T32 programs are expected to have a formal oversight plan to ensure that trainees receive outstanding mentorship and progress through their training in a timely manner. The oversight process should ensure that trainees receive 1) appropriate professional guidance and projects with the potential to generate a publication record that will allow them to progress to subsequent research opportunities, 2) written and oral presentation skills that will facilitate their ability to publish their results as first author, submit competitive grant applications, speak at national meetings and interview for future positions, 3) an understanding of the research enterprise that will enable them to successfully navigate a research career and 4) an understanding of the many career opportunities available to them as scientists and what is required to compete for these different opportunities.
Enhancing Workforce Diversity
The research enterprise will be strongest when it involves individuals from a wide variety of backgrounds, who have a wide variety of perspectives. Within the framework of the NRSA program’s longstanding commitment to excellence and the focus of programs in particular areas of research, T32-funded programs play a critical role in training individuals from groups that are underrepresented in biomedical sciences. Training programs are expected to implement robust plans to enhance diversity and to promote inclusive research environments (i.e. institutional and departmental environments in which trainees from all backgrounds feel integrated into and supported by the biomedical community). Whereas institutional efforts are critical to creation of inclusive environments, individual training programs must also strive to create environments that effectively promote diversity and inclusion.
Exposure to a Diversity of Role Models
To enhance diversity, and promote inclusivity, it is essential that trainees have exposure and access to appropriate role models. This includes women, individuals from different backgrounds and with different perspectives, senior faculty who have the benefit of long experience, and junior faculty who have more recent experience in transitioning from training to independent positions. Programs should actively strive to achieve diverse representation in program leadership, participating faculty and mentors, and invited speakers.
Annual NINDS T32 Program Workshop
NINDS will host an annual T32 Program Workshop (The NINDS T32 Workshop) that each trainee will be expected to attend at least once during their tenure on the training grant. At this workshop trainees will present their research in either an oral presentation or poster format, and engage in in-depth discussions of scientific topics, experimental design and quantitative literacy, issues related to translational research, and professional development topics (e.g., negotiation skills, writing a winning cover letter, conflict resolution). Training grant T32 PDs/PIs will be expected to attend and participate as faculty annually.
Training Program Evaluation
It is expected that NINDS T32 programs will arrange for regular internal and external evaluation to promote innovation and evolution, as well as to bring attention to deficiencies that those close to the program may not perceive.
Expectations for Training Program Outcomes
Trainees should leave the T32 training program with the appropriate accomplishment and skills to move on to the next step on an independent research pathway. Outcomes expected of training programs include strong trainee publications (including first author publications), and other accomplishments appropriate to their training.
Although a major goal of these training programs is to develop highly skilled and creative researchers, NINDS understands that students and postdocs have many career choices. In any program, it would be expected that there will be some trainees who go on to do research, and there will likely be many who will go into research-related and non-research positions that make use of their training. However, outstanding scientific and professional training provided by NINDS T32 training programs will be invaluable to both the trainee and the community, regardless of a trainee's career choice.
This Funding Opportunity Announcement (FOA) does not allow appointed Trainees to lead an independent clinical trial, but does allow them to obtain research experience in a clinical trial led by a mentor or co-mentor. NIH strongly supports training towards a career in clinically relevant research and so gaining experience in clinical trials under the guidance of a mentor or co-mentor is encouraged.
See Section VIII. Other Information for award authorities and regulations.
Grant: A support mechanism providing money, property, or both to an eligible entity to carry out an approved project or activity.
The OER Glossary and the SF424 (R&R) Application Guide provide details on these application types. Only those application types listed here are allowed for this FOA.
Not Allowed: Only accepting applications that do not propose clinical trials.
Note: Appointed Trainees are permitted to obtain research experience in a clinical trial led by a mentor or co-mentor.
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The number of awards is contingent upon NIH appropriations and the submission of a sufficient number of meritorious applications.
Application budgets are not limited, but need to reflect the actual needs of the proposed project.
Recipients are expected to be familiar with and comply with applicable cost policies and the NRSA Guidelines (NIH Grants Policy Statement - Institutional Research Training Grants). Funds may be used only for those expenses that are directly related to and necessary for the research training and must be expended in conformance with OMB Cost Principles, the NIH Grants Policy Statement, and the NRSA regulations, policies, guidelines, and conditions set forth in this document.
Up to 5 years.
Kirschstein-NRSA awards provide stipends as a subsistence allowance to help defray living expenses during the research training experience.
NIH will contribute to the combined cost of tuition and fees at the rate in place at the time of award.
Stipend levels, as well as funding amounts for tuition and fees and the institutional allowance are announced annually in the NIH Guide for Grants and Contracts, and are also posted on the Ruth L. Kirschstein National Research Service Award (NRSA) webpage.
Trainee travel to attend scientific meetings and workshops that the institution determines to be necessary for the individual’s research training experience is an allowable trainee expense for predoctoral and postdoctoral trainees.
$1,000 per year will be provided for each trainee to support travel to 1) scientific meetings and workshops that enhance the individual's research training experience ($500), and 2) the annual NINDS workshop (The NINDS T32 Workshop) specifically designed for this training grant ($500)
NIH will provide funds to help defray other research training expenses, such as health insurance, staff salaries, consultant costs, equipment, research supplies, and faculty/staff travel directly related to the research training program. The most recent levels of training related expenses are announced annually in the NIH Guide for Grants and Contracts, and are also posted on the Ruth L. Kirschstein National Research Service Award (NRSA) webpage.
In addition to the standard NIH allocation for training related expenses, applicants may request up to $8,000 per year to invite outside experts to conduct workshops to enhance quantitative skills and fluency in the application of quantitative approaches to neuroscience research.
Because attendance by the PD/PI, as well as trainees at the NINDS T32 Workshop is critical to student and postdoctoral training, dissemination of training practices and program evolution, PD/PIs may request up to $700 per year to support their travel to this NINDS workshop.
Applicants may request funds to support up to 1.2 person months effort per year for a faculty-level statistician to be incorporated into the training program to provide training and support to the trainees.
Indirect Costs (also known as Facilities & Administrative [F&A] Costs) are reimbursed at 8% of modified total direct costs (exclusive of tuition and fees, consortium costs in excess of $25,000, and expenditures for equipment), rather than on the basis of a negotiated rate agreement.
Higher Education Institutions
The following types of Higher Education Institutions are always encouraged to apply for NIH support as Public or Private Institutions of Higher Education:
Governments
Other
The sponsoring institution must assure support for the proposed program. Appropriate institutional commitment to the program includes the provision of adequate staff, facilities, and educational resources that can contribute to the planned program.
Non-domestic (non-U.S.) Entities (Foreign Institutions) are
Non-domestic (non-U.S.) components of U.S. Organizations are eligible to apply.
Applicant Organizations
Applicant organizations must complete and maintain the following registrations as described in the SF 424 (R&R) Application Guide to be eligible to apply for or receive an award. All registrations must be completed prior to the application being submitted. Registration can take 6 weeks or more, so applicants should begin the registration process as soon as possible. The NIH Policy on Late Submission of Grant Applications states that failure to complete registrations in advance of a due date is not a valid reason for a late submission.
Program Directors/Principal Investigators (PD(s)/PI(s))
All PD(s)/PI(s) must have an eRA Commons account. PD(s)/PI(s) should work with their organizational officials to either create a new account or to affiliate their existing account with the applicant organization in eRA Commons. If the PD/PI is also the organizational Signing Official, they must have two distinct eRA Commons accounts, one for each role. Obtaining an eRA Commons account can take up to 2 weeks.
Any individual(s) with the skills, knowledge, and resources necessary to carry out the proposed research training program as the Training Program Director/Principal Investigator (Training PD/PI) is invited to work with his/her organization to develop an application for support. Individuals from underrepresented racial and ethnic groups as well as individuals with disabilities are always encouraged to apply for NIH support.
For institutions/organizations proposing multiple PDs/PIs, visit the Multiple Program Director/Principal Investigator Policy and submission details in the Senior/Key Person Profile (Expanded) Component of the SF 424 (R&R) Application Guide.
The PD/PI should be an established investigator in the scientific area in which the application is targeted and capable of providing both administrative and scientific leadership to the development and implementation of the proposed program. The PD/PI will be responsible for the selection and appointment of trainees to the approved research training program, and for the overall direction, management, administration, and evaluation of the program. The PD/PI will be expected to monitor and assess the program and submit all documents and reports as required. The PD/PI has responsibility for the day to day administration of the program and is responsible for appointing members of the Advisory Committee (when applicable), using their recommendations to determine the appropriate allotment of funds.
For programs that propose to have multiple PDs/PIs, at least one should be an established investigator in the scientific area in which the application is targeted and capable of providing both administrative and scientific leadership to the development and implementation of the proposed program. Additional PDs/PIs may be included to achieve the training goals. Any of the PDs/PIs may serve as the contact PD/PI. Applicants are encouraged to clearly delineate the roles of the different PD/PIs.
In keeping with the effort to enhance the involvement of individuals from diverse backgrounds and perspectives in training, and in providing role models that bring diversity to a training environment, it is strongly encouraged that institutions include women and/or individuals from diverse backgrounds when forming the leadership team of the program.
Applicant organizations may submit more than one application, provided that each application is programmatically distinct.
The NIH will not accept duplicate or highly overlapping applications under review at the same time, per 2.3.7.4 Submission of Resubmission Application. This means that the NIH will not accept:
The selected program faculty should be active researchers as demonstrated by recent publications and research support. Primary mentors should be conducting research in one or more areas within the scope of AD/ADRD (AD, LBD, FTD, VCID, mixed dementias). However, as innovation in AD/ADRD research may be spawned by the collaboration among scientists in different, interrelated fields, secondary mentorship by faculty who conduct research in other areas that may play a critical role in, or inform, the understanding of AD/ADRD is strongly encouraged, Program faculty should also have a record of research training, including successful, former trainees who have established productive careers relevant to the NINDS mission.
When building a training team, programs should recruit faculty who are committed to training, mentoring, and providing supportive and inclusive research environments. Additionally, consideration should be given to recruiting program faculty from diverse backgrounds (NOT-OD-20-031), including those from underrepresented backgrounds, women, and individuals at different career stages (i.e. junior as well as senior faculty). It is the PD/PI's responsibility to ensure that every faculty member participating in the training program provides outstanding mentorship and guidance and agrees to fully participate in programmatic activities, as appropriate.
Inclusion of outstanding junior faculty with limited training records as primary mentors is strongly encouraged. However, programs should ensure that there is a strong oversight mechanism, and potentially regular mentorship of junior faculty, so that each trainee, regardless of chosen mentor, receives outstanding mentorship and guidance. Indeed, programs are encouraged to organize discussions of mentorship issues among all training faculty in order to strengthen mentorship across the entire program.
When choosing faculty to participate in NINDS T32-funded training programs, PD/PIs should ensure that each faculty member included in a mentorship role is committed to following the strictest principles of experimental design, appropriate statistical analysis, and scientific rigor in their research, and is willing to participate in programmatic activities with trainees targeted towards ensuring an understanding of rigorous scientific methodology.
The individual to be trained must be a citizen or a noncitizen national of the United States or have been lawfully admitted for permanent residence at the time of appointment. Additional details on citizenship, training period, and aggregate duration of support are available in the NIH Grants Policy Statement.
All trainees are required to pursue their research training full time, normally defined as 40 hours per week, or as specified by the sponsoring institution in accordance with its own policies. Appointments are normally made in 12-month increments, and no trainee may be appointed for less than 9 months during the initial period of appointment, except with prior approval of the awarding unit, or when trainees are appointed to approved, short-term training positions.
Predoctoral trainees must be enrolled in a program leading to a PhD or in an equivalent research doctoral degree program. Health-professional students who wish to interrupt their studies for a year or more to engage in full-time research training before completing their formal training programs, are also eligible.
Postdoctoral trainees must have received, as of the beginning date of the NRSA appointment, a Ph.D., M.D., D.D.S., or comparable doctoral degree from an accredited domestic or foreign institution. Comparable doctoral degrees include, but are not limited to, the following: D.M.D., DC, DO, DVM., OD, DPM, ScD, EngD, DrPH, DNSc, DPT, PharmD, ND (Doctor of Naturopathy), DSW, PsyD, as well as a doctoral degree in nursing research. Documentation by an authorized official of the degree-granting institution certifying all degree requirements have been met prior to the beginning date of the training appointment is acceptable. Individuals in postgraduate clinical training, who wish to interrupt their studies for a year or more to engage in full-time research training before completing their formal training programs, are also eligible.
The application forms package specific to this opportunity must be accessed through ASSIST, Grants.gov Workspace or an institutional system-to-system solution. Links to apply using ASSIST or Grants.gov Workspace are available in Part 1 of this FOA. See your administrative office for instructions if you plan to use an institutional system-to-system solution.
It is critical that applicants follow the Training (T) Instructions in the SF424 (R&R) Application Guide except where instructed in this funding opportunity announcement to do otherwise. Conformance to the requirements in the Application Guide is required and strictly enforced. Applications that are out of compliance with these instructions may be delayed or not accepted for review.
Although a letter of intent is not required, is not binding, and does not enter into the review of a subsequent application, the information that it contains allows IC staff to estimate the potential review workload and plan the review.
By the date listed in Part 1. Overview Information, prospective applicants are asked to submit a letter of intent that includes the following information:
The letter of intent should be sent to:
Stephen Korn, Ph.D.
National Institute of Neurological Disorders and Stroke (NINDS)
Email:korns@ninds.nih.gov
All page limitations described in the SF424 Application Guide and the Table of Page Limits must be followed.
The following section supplements the instructions found in the SF424 (R&R) Application Guide and should be used for preparing an application to this FOA.
All instructions in the SF424 (R&R) Application Guide must be followed.
All instructions in the SF424 (R&R) Application Guide must be followed.
All instructions in the SF424 (R&R) Application Guide must be followed.
Project Summary/Abstract. Provide an abstract of the entire application. Include the objectives, rationale and design of the research training program, as well as key activities in the training plan. Indicate the planned duration of appointments, the projected number of traineess including their levels (i.e., predoctoral, postdoctoral), and intended trainee outcomes.
Advisory Committee: An External advisory Committee is strongly encouraged. If an Advisory Committee is intended, the composition, roles, responsibilities, and desired expertise of committee members, frequency of committee meetings, and other relevant information should be included. Describe how the Advisory Committee will evaluate the overall effectiveness of the program. If utilized, Advisory Committee members should be named in the application. If an Advisory Committee is intended, applications should include a letter from each member confirming his/her participation. Please name your file Advisory_Committee.pdf .
The filename provided for each Other Attachment will be the name used for the bookmark in the electronic application in eRA Commons.
Follow all instructions provided in the SF424 (R&R) Application.
Follow all instructions provided in the SF424 (R&R) Application.
Follow all instructions provided in the SF424 (R&R) Application Guide.
Training Budget
Follow all instructions provided in the SF424 (R&R) Application Guide with the following additional modifications:
The PHS 398 Research Training Program Plan Form is comprised of the following sections:
Follow all instructions provided in the SF424 (R&R) Application Guide.
The following modifications apply:
Particular attention must be given to the required Training Data Tables. Applicants should summarize, in the body of the application, key data from the tables that highlight the characteristics of the applicant pool, faculty mentors, the educational and career outcomes of participants, and other factors that contribute to the overall environment of the program.
Training Program
Program Plan
Program Administration
Program Director and Administrative Information
The application should describe the planned strategy and administrative structure to be used to oversee and monitor the program, to provide oversight that will ensure outstanding mentorship and guidance for each trainee, and to ensure appropriate and timely trainee progress for the duration of the training program.
The application should describe how the Training Program Director(s)/Principal Investigator(s) (PDs/PIs) will promote the success of the trainees and training program. If there are multiple PDs/PIs, the plan for Program Administration is expected to synergize with the "Multiple PD/PI Leadership Plan" section of the application. Applicants should provide a clear leadership plan, including designated roles and responsibilities for each of the PDs/PIs and describe how their respective expertise and experience will benefit the trainees and enhance the ability of the program to achieve its training goals. The application should expand on the information in the biosketch(es) to address how the PD/PI or PD/PI team has:
The application should also describe the plans by program leadership, and if relevant, other program-affiliated faculty, to affirmatively build and/or expand on an inclusive environment that values a wide variety of perspectives and welcomes input from and, participation of, individuals from different backgrounds and different perspectives. The application should describe measures by which leadership will ensure that trainees will be introduced to, and have access to, a variety of role models and individuals with different perspectives.
Program Faculty
The application must include information about the program faculty who will serve as preceptors/mentors and, if relevant, distinguish between faculty members who will serve as primary mentors and those who have other roles in the training program. It should expand on the information in the biosketches (see "Participating Faculty Biosketches") to address the following:
Fostering excellence in mentorship
One key to scientific and career success of trainees is exposure to outstanding mentorship. Programs are encouraged to create activities that are designed to foster outstanding mentorship among faculty. Examples of such activities might include those designed to mentor mentors or meetings among faculty designed to engage all training faculty in peer-peer discussions of the many issues that come up both routinely and sporadically in a lab or research environment.
Participating Faculty Biosketches
Program faculty must provide a personal statement that describes the appropriateness of their research background for the proposed training program, and their approach to and/or record of the following:
Proposed Training
The application should describe how the program will develop a diverse pool of outstanding neuroscientists who have the technical, operational and professional skills required to conduct research in an ethically responsible and rigorous manner, and to enter careers in the biomedical research workforce as delineated in the Program Objectives. The application should describe how this program specifically will enhance the breadth and depth of training obtained by trainees, and more broadly, enhance the training environment.
Rationale
The application should explain the rationale and need for the specifically proposed research training program, the relevant background history and the research training activities of the participating department(s) or unit(s). The application should demonstrate the presence of a sufficient number of potential trainees in appropriate disciplines and program faculty with the appropriate scientific expertise, as well as the resources to achieve the training objectives. When other neuroscience-related T32s exist at the institution, describe the ways in which the training plan is distinct from these other funded T32 programs.
Program Purpose and Goals
Provide an overview of the proposed program. Describe the programmatic theme and scientific area(s) to be included. Outline the objectives of the program and the programmatic activities that will be used to meet these objectives. Include information about planned courses, mentored research experiences and any structured activities designed to develop specific technical skills or other skills essential for the proposed research training. Describe specifically how the program will ensure that all trainees will be exposed to a broad range of scientific approaches, systems for study and tools and technologies relevant to neuroscience research.
Describe how the programmatic activities will unify a cohort of trainees and expand their expertise beyond what would occur in the absence of this program. For programs proposing to train a combination of predoctoral and postdoctoral trainees, describe the activities in which each group of trainees will participate, and how they will interact and benefit from the interaction, programmatic activities and collaborative possibilities that the program creates. For multi-disciplinary and/or multi-departmental programs, indicate how the individual disciplinary and/or departmental components of the program are integrated and coordinated and how they will relate to an individual trainee's experience.
Experimental Design and Statistical Methodology
Experimental Design: Describe the formal programmatic activities designed to reinforce the principles of experimental design to ensure that trainees understand the practices required for robust hypothesis testing. Describe the principles that will be covered and the format and timeframe for instruction. Topics should include, but are not limited to, education in the design of well-controlled experiments; the difference between hypothesis-generating and hypothesis-testing experimentation, and the differences in design and statistical/analytical approach required for each; scientifically appropriate determination of sample size; the appropriate use of statistics in experimental design and data analysis; and criteria for inclusion and exclusion of data for analysis. Describe plans to expose trainees to the analytical approaches used in common experimental systems (e.g. electrophysiology, imaging, behavior, genetics etc.) such that they will be able to evaluate scientific data presented in the literature, seminars and other contexts. Describe the program’s approach to ensuring that each trainee will develop a practical appreciation of these principles and their application to their individual research.
Statistical Methodology: Applications must include a detailed description of the plan for ensuring that each trainee is equipped with a thorough understanding of statistical methodology relevant to neuroscience research. Describe how trainees will be educated in the different types of statistical tests appropriate for different experimental paradigms, the appropriate application of statistics in analyzing data, interpreting results and forming conclusions, and the practical application of statistics to data in their own experimental systems. Describe the program's approach to instilling trainees with the depth and breadth of statistical understanding to enable them to adapt and appropriately apply statistical approaches as their experimental repertoire changes. While trainees may take, or have taken, an introductory statistics course, this is not sufficient to achieve the goals of this FOA.
Statistical Training and Support
Applications should describe how statistical support will be provided to the trainees, and if funds are requested for incorporation of a faculty-level statistician into the program, a detailed description of the role, contribution and responsibilities of that individual with respect to the program. As stated above, the intent of providing salary for a statistician to be integrated into the program is for the statistician to participate in regular meetings with trainees and training program faculty. Whereas individual consultation between the statistician and trainees is highly desirable, that activity alone, or simply the teaching of a course, is insufficient justification for obtaining salary funds for a statistician.
Quantitative Literacy and the Use of Quantitative Approaches
Describe the formal programmatic activities designed to provide trainees with an understanding of the use and value of quantitative reasoning skills and approaches for application to neuroscience research. Provide a specific plan designed to enhance trainees' quantitative literacy and to encourage them to adopt a quantitative mindset. Describe the concepts that will be covered, and the practical tools and approaches that will be used to ensure that each trainee gains knowledge of, and experience in, quantitative exploration, interpretation and evaluation of data relevant to the thematic area of the program and to their own research. This plan might include programming skills for evaluating biological phenomena, systems and data, quantitative problem-solving exercises for understanding biological data and/or other didactic or hands-on activities designed to develop such skills. Programs should describe how quantitative approaches will be integrated across the program's training activities.
Programs may wish to enhance and expand upon their current offerings for developing quantitative skills and literacy. Funds may be requested to bring in experts to conduct workshops or other activities to enhance training in this area. To be eligible for these funds, applications must include a detailed plan for the proposed activities.
Program-Wide Meetings: Experimental Design, Statistics and Quantitative Literacy
Describe plans for ensuring that trainees and program faculty meet regularly as a group to discuss and evaluate the experimental and statistical approaches used in their own work and in literature relevant to the thematic area of the program, and as relevant, discussions of the variety of quantitative tools and approaches used to examine different types of data, and potential approaches to modeling experimental systems. Plans should include a description of the format and timeframe for these meetings. If funds are requested for support of a statistician, describe the plans for participation and the role of the statistician in these meetings.
Scientific Rigor
Describe the programmatic activities designed to ensure that trainees gain a thorough understanding of the principles of scientific rigor. Describe the principles that will be covered and the format and timeframe for instruction. Topics should include, but are not limited to, the potential for infiltration of bias into experimental approaches, interpretation and publication, approaches to minimize bias in experimental design, analyses, and data interpretation; transparent reporting of results; and acceptable and unacceptable approaches to image manipulation and figure preparation. Education in the role of human decision-making tendencies and cognitive biases in data interpretation (c.f. Kahneman, D. 2011 Thinking, Fast and Slow. New York. Farrar, Straus and Giroux) is strongly encouraged. Additional topics may include proper data storage, data labelling, data organization and archiving, and when applicable, preparation of computer code for public sharing so that it can be interpreted by others in the scientific community.
Ethics
Programs should describe the plan to incorporate regular discussion of ethical issues and questions associated with the program’s research and training goals into programmatic activities. This is distinct from RCR requirements it is expected that programs will build in discussions of ethical issues, challenges and considerations into seminars, journal clubs, research presentations, and other programmatic activities.
Professional Skills
Describe the activities intended to provide trainees with outstanding oral and written presentation skills for both lay and scientifically literate audiences, and the typical frequency of public oral presentations by trainees. The NINDS T32 Workshop will be held annually and is expected to include opportunities for 5- to 10-minute talks and/or poster presentations by the trainees. Describe any anticipated activities that will prepare trainees for effective presentations at this meeting in either format. Describe policies and expectations related to trainee submission of individual funding applications (e.g. fellowships, foundation awards, etc.). Describe required and optional programmatic activities intended to develop skills needed to apply successfully for individual fellowships or other types of grant support.
Understanding Career Opportunities
Describe the opportunities for trainees to learn about the many potential career paths available to them so that they may pursue a career of their choice that draws upon their Ph.D. training. Such opportunities may include, for example, access to formal career advising, internship/externships, or exposure to individuals with different kinds of jobs in the workforce. Describe the oversight mechanism that will ensure that all trainees, in the context of meeting the program's expectations for research excellence and productivity, can pursue their desired career.
Training Program Evaluation
The application should describe an evaluation process to determine the effectiveness of the program, and whether the scientific research climate is inclusive and supportive of trainee development. The overall evaluation plan should include the metrics to be evaluated (e.g. program activities completed, degree completion (if applicable), publications, fellowships/honors, subsequent positions, access of all trainees to varied and appropriate role models, etc.) as well as plans to obtain feedback from current and former trainees to provide suggestions for program improvement. The evaluation should address not only the cumulative record of the program, but the individual training records of each participating mentor. Describe plans to have the program evaluated by internal and external faculty.
Trainee Candidates
Through the narrative, summaries of the information presented in the Training Tables and the attachments, the following areas relevant to trainees should be addressed:
Institutional Environment and Commitment to Training
The application should describe how the level of institutional and departmental commitment to research and training excellence will promote the success of the trainees and training program. Applications should describe, when applicable, resources provided by the institution that will contribute to educating trainees in this program in ethical issues, experimental design, statistics, as well as any other resources being provided specifically for this program. A letter providing assurances of the institutional commitment should be provided in the Letters of Support section of the application (see below).
Program Diversity
Describe efforts to promote an inclusive research environment (i.e. institutional and departmental environments in which trainees from all backgrounds are integrated into, and supported by, the institution). Describe efforts to ensure that trainees have access to an appropriate diversity of role models, both within the institution and through activities such as invited seminars. The pool of role models should include women, individuals from different backgrounds, senior faculty who have the benefit of long experience, and junior faculty who have more recent experience in transitioning from training to independent positions. Note that it is insufficient for efforts designed to enhance diversity and inclusivity to be wholly pursued within the centralized domain of the institution; individual T32 programs are expected to actively pursue both diversity and inclusiveness across the entire T32 program environment, which includes faculty, trainees and invited speakers. The application should describe efforts within the program to promote and ensure a positive, inclusive research environment at both the departmental and individual laboratory or research environment level.
Describe the representation of diverse trainees in the proposed programmatic area over the last five years. This should include information about the total trainee population in the institutional unit(s) that oversee the training program as well as specifically the training grant eligible population.
Institutional Support Letter
The application must include a signed letter on institutional letterhead from a President, Provost, Dean or key institutional leader that describes the activities and resources provided by the institution that will ensure the success of the planned training program and its trainees (not to exceed 10 pages).
The letter should address and/or include a description of the following:
The institutional support letter must also include an additional, separate paragraph that describes the institution’s efforts to provide family-friendly environments, accommodations and leave policies (see examples in Model Policy on Pregnancy and Parenting Leave and Accommodations and Promising Practices for Addressing the Underrepresentation of Women in Science, Engineering, and Medicine). These policies and accommodations would address, but are not limited to, timely access to affordable childcare services and accommodations for extended medical, family care or emergency circumstances that may impact or cause delays in scientific productivity. The institutional support letter must describe the financial and/or environmental support mechanisms available to trainees to help achieve their full career development potential despite the occurrence of critical life events.
The institutional support letter must also include a separate paragraph describing the institutional commitment to providing an environment free of discriminatory harassment and other discriminatory practices. The letter must explicitly address the areas laid out in NOT-OD-19-029.
Program Outcomes
The application should provide the information below about recent trainee outcomes through narrative descriptions and a summary of the data presented in the training tables. Although the training tables for new applications only allow for five years of recent graduate outcomes, applicants may describe up to 15 years of outcomes in the narrative.
Describe the following:
Training Program
Individuals are required to comply with the instructions for Plan for Instruction in the Responsible Conduct of Research as provided in the SF424 (R&R) Application Guide.
In addition, describe how the Responsible Conduct of Research (RCR) components are sufficiently well integrated into the overall curriculum, i.e., how they are taught at multiple stages of trainee development and in a variety of formats and contexts. Explain how the teaching of RCR synergizes with elements of the curriculum designed to enhance trainees' abilities to conduct rigorous scientific research. Describe how all program faculty will reiterate and augment key elements of responsible conduct when trainees are performing mentored research their laboratories.
Limited items are allowed in the Appendix. Follow all instructions for the Appendix as described in the SF424 (R&R) Application Guide; any instructions provided here are in addition to theSF424 (R&R) Application Guide instructions.
All instructions in the SF424 (R&R) Application Guide must be followed.
See Part 1. Section III.1 for information regarding the requirement for obtaining a unique entity identifier and for completing and maintaining active registrations in System for Award Management (SAM), NATO Commercial and Government Entity (NCAGE) Code (if applicable), eRA Commons, and Grants.gov
Part I. Overview Information contains information about Key Dates and times. Applicants are encouraged to submit applications before the due date to ensure they have time to make any application corrections that might be necessary for successful submission. When a submission date falls on a weekend or Federal holiday, the application deadline is automatically extended to the next business day.
Organizations must submit applications to Grants.gov (the online portal to find and apply for grants across all Federal agencies). Applicants must then complete the submission process by tracking the status of the application in the eRA Commons, NIH’s electronic system for grants administration. NIH and Grants.gov systems check the application against many of the application instructions upon submission. Errors must be corrected and a changed/corrected application must be submitted to Grants.gov on or before the application due date and time. If a Changed/Corrected application is submitted after the deadline, the application will be considered late. Applications that miss the due date and time are subjected to the NIH Policy on Late Application Submission.
Applicants are responsible for viewing their application before the due date in the eRA Commons to ensure accurate and successful submission.
Information on the submission process and a definition of on-time submission are provided in the SF424 (R&R) Application Guide.
This initiative is not subject to intergovernmental review.
All NIH awards are subject to the terms and conditions, cost principles, and other considerations described in the NIH Grants Policy Statement.
Pre-award costs are allowable only as described in the NIH Grants Policy Statement.
Applications must be submitted electronically following the instructions described in the SF424 (R&R) Application Guide. Paper applications will not be accepted.
Applicants must complete all required registrations before the application due date. Section III. Eligibility Information contains information about registration.
For assistance with your electronic application or for more information on the electronic submission process, visit How to Apply Application Guide. If you encounter a system issue beyond your control that threatens your ability to complete the submission process on-time, you must follow the Dealing with System Issues guidance. For assistance with application submission, contact the Application Submission Contacts in Section VII.
Important reminders:
All PD(s)/PI(s) must include their eRA Commons ID in the Credential fieldof the Senior/Key Person Profile Component of the SF424(R&R) Application Package.Failure to register in the Commons and to include a valid PD/PI Commons ID in the credential field will prevent the successful submission of an electronic application to NIH.
The applicant organization must ensure that the DUNS number it provides on the application is the same number used in the organization #146;s profile in the eRA Commons and for the System for Award Management (SAM). Additional information may be found in the SF424 (R&R) Application Guide.
See more tips for avoiding common errors.
Upon receipt, applications will be evaluated for completeness and compliance with application instructions by the Center for Scientific Review, NIH. Applications that are incomplete or non-compliant will not be reviewed.
Applicants are required to follow the instructions for post-submission materials, as described in the policy . Any instructions provided here are in addition to the instructions in the policy.
Only the review criteria described below will be considered in the review process.
Applications submitted to the NIH in support of the NIH mission are evaluated for scientific and technical merit through the NIH peer review system.
Reviewers will provide an overall impact score to reflect their assessment of the likelihood that the proposed training program will prepare individuals for successful, productive scientific research careers and thereby exert a sustained influence on the research field(s) involved, in consideration of the following review criteria and additional review criteria (as applicable for the project proposed.
Reviewers will consider each of the review criteria below in the determination of the merit of the training program, and give a separate score for each. When applicable, the reviewers will consider relevant questions in the context of proposed short-term training. An application does not need to be strong in all categories to be judged likely to have major scientific impact.
Protections for Human Subjects
Generally not applicable. Reviewers should bring any concerns to the attention of the Scientific Review Officer.
Generally not applicable. Reviewers should bring any concerns to the attention of the Scientific Review Officer.
Vertebrate Animals
Generally not applicable. Reviewers should bring any concerns to the attention of the Scientific Review Officer.
Biohazards
Generally not applicable. Reviewers should bring any concerns to the attention of the Scientific Review Officer.
Does the plan for Instruction in Methods for Enhancing Reproducibility describe how the program will provide training in scientific reasoning, rigorous research design, relevant experimental methods, consideration of relevant biological variables such as sex, authentication of key biological and/or chemical resources, quantitative approaches, and data analysis and interpretation, appropriate to field of study and the level and prior preparation of the trainees?
For Resubmissions, the committee will evaluate the application as now presented, taking into consideration the responses to comments from the previous scientific review group and changes made to the project.
Revisions
Not Applicable.
As applicable for the project proposed, reviewers will consider each of the following items, but will not give scores for these items, and should not consider them in providing an overall impact score.
Peer reviewers will separately evaluate the recruitment plan to enhance diversity after the overall score has been determined. Reviewers will examine the strategies to be used in the recruitment of prospective individuals from underrepresented groups. The plan will be rated as ACCEPTABLE or UNACCEPTABLE, and the consensus of the review committee will be included in an administrative note in the summary statement.
All applications for support under this FOA must include a plan to fulfill NIH requirements for instruction in the Responsible Conduct of Research (RCR). Taking into account the specific characteristics of the training program, the level of trainee experience, and the particular circumstances of the trainees, the reviewers will evaluate the adequacy of the proposed RCR training in relation to the following five required components: 1) Format - Does the plan satisfactorily address the format of instruction, e.g., lectures, coursework and/or real-time discussion groups, including face-to-face interaction? (A plan involving only on-line instruction is not acceptable.); 2) Subject Matter Does the plan include a sufficiently broad selection of subject matter, such as conflict of interest, authorship, data management, human subjects and animal use, laboratory safety, research misconduct, research ethics? 3) Faculty Participation - Does the plan adequately describe how faculty will participate in the instruction? For renewal applications, are all training faculty who served as course directors, speakers, lecturers, and/or discussion leaders during the past project period named in the application? 4) Duration of Instruction - Does the plan meet the minimum requirements for RCR, i.e., at least eight contact hours of instruction? 5) Frequency of Instruction Does the plan meet the minimum requirements for RCR, i.e., at least once during each career stage (undergraduate, post-baccalaureate, predoctoral, postdoctoral, and faculty levels) and at a frequency of no less than once every four years?
For renewal applications, does the progress report document acceptable RCR instruction in the five components described above? Does the plan describe how participation in RCR instruction is being monitored? Are appropriate changes in the plan for RCR instruction proposed in response to feedback and in response to evolving issues related to responsible conduct of research?
Plans and past record will be rated as ACCEPTABLE or UNACCEPTABLE, and the summary statement will provide the consensus of the review committee.
Select Agent Research
Reviewers will assess the information provided in this section of the application, including 1) the Select Agent(s) to be used in the proposed research, 2) the registration status of all entities where Select Agent(s) will be used, 3) the procedures that will be used to monitor possession use and transfer of Select Agent(s), and 4) plans for appropriate biosafety, biocontainment, and security of the Select Agent(s).
Budget and Period of Support
Reviewers will consider whether the budget and the requested period of support are fully justified and reasonable in relation to the proposed research.
Applications will be evaluated for scientific and technical merit by (an) appropriate Scientific Review Group(s), convened by NINDS in accordance with NIH peer review policy and procedures, using the stated review criteria. Assignment to a Scientific Review Group will be shown in the eRA Commons.
As part of the scientific peer review, all applications will receive a written critique.
Applications may undergo a selection process in which only those applications deemed to have the highest scientific and technical merit (generally the top half of applications under review) will be discussed and assigned an overall impact score.
Applications will be assigned on the basis of established PHS referral guidelines to the appropriate NIH Institute or Center. Applications will compete for available funds with all other recommended applications. Following initial peer review, recommended applications will receive a second level of review by the appropriate national Advisory Council or Board.
The following will be considered in making funding decisions:
After the peer review of the application is completed, the PD/PI will be able to access his or her Summary Statement (written critique) via the eRA Commons. Refer to Part 1 for dates for peer review, advisory council review, and earliest start date.
Information regarding the disposition of applications is available in the NIH Grants Policy Statement.
If the application is under consideration for funding, NIH will request "just-in-time" information from the applicant as described in the NIH Grants Policy Statement.
A formal notification in the form of a Notice of Award (NoA) will be provided to the applicant organization for successful applications. The NoA signed by the grants management officer is the authorizing document and will be sent via email to the recipient’s business official.
Recipients must comply with any funding restrictions described in Section IV.5. Funding Restrictions. Selection of an application for award is not an authorization to begin performance. Any costs incurred before receipt of the NoA are at the recipient's risk. These costs may be reimbursed only to the extent considered allowable pre-award costs.
Any application awarded in response to this FOA will be subject to terms and conditions found on the Award Conditions and Information for NIH Grants website. This includes any recent legislation and policy applicable to awards that is highlighted on this website.
All NIH grant and cooperative agreement awards include the NIH Grants Policy Statement as part of the NoA. For these terms of award, see the NIH Grants Policy Statement Part II: Terms and Conditions of NIH Grant Awards, Subpart A: General and Part II: Terms and Conditions of NIH Grant Awards, Subpart B: Terms and Conditions for Specific Types of Grants, Recipients, and Activities, including of note, but not limited to:
If a recipient is successful and receives a Notice of Award, in accepting the award, the recipient agrees that any activities under the award are subject to all provisions currently in effect or implemented during the period of the award, other Department regulations and policies in effect at the time of the award, and applicable statutory provisions.
Recipients of federal financial assistance (FFA) from HHS must administer their programs in compliance with federal civil rights laws that prohibit discrimination on the basis of race, color, national origin, disability, age and, in some circumstances, religion, conscience, and sex. This includes ensuring programs are accessible to persons with limited English proficiency. The HHS Office for Civil Rights provides guidance on complying with civil rights laws enforced by HHS. Please see https://www.hhs.gov/civil-rights/for-providers/provider-obligations/index.html and http://www.hhs.gov/ocr/civilrights/understanding/section1557/index.html.
HHS recognizes that research projects are often limited in scope for many reasons that are nondiscriminatory, such as the principal investigator’s scientific interest, funding limitations, recruitment requirements, and other considerations. Thus, criteria in research protocols that target or exclude certain populations are warranted where nondiscriminatory justifications establish that such criteria are appropriate with respect to the health or safety of the subjects, the scientific study design, or the purpose of the research. For additional guidance regarding how the provisions apply to NIH grant programs, please contact the Scientific/Research Contact that is identified in Section VII under Agency Contacts of this FOA.
Please contact the HHS Office for Civil Rights for more information about obligations and prohibitions under federal civil rights laws at https://www.hhs.gov/ocr/about-us/contact-us/index.html or call 1-800-368-1019 or TDD 1-800-537-7697.
In accordance with the statutory provisions contained in Section 872 of the Duncan Hunter National Defense Authorization Act of Fiscal Year 2009 (Public Law 110-417), NIH awards will be subject to the Federal Awardee Performance and Integrity Information System (FAPIIS) requirements. FAPIIS requires Federal award making officials to review and consider information about an applicant in the designated integrity and performance system (currently FAPIIS) prior to making an award. An applicant, at its option, may review information in the designated integrity and performance systems accessible through FAPIIS and comment on any information about itself that a Federal agency previously entered and is currently in FAPIIS. The Federal awarding agency will consider any comments by the applicant, in addition to other information in FAPIIS, in making a judgement about the applicant’s integrity, business ethics, and record of performance under Federal awards when completing the review of risk posed by applicants as described in 45 CFR Part 75.205 and 2 CFR Part 200.206 Federal awarding agency review of risk posed by applicants." This provision will apply to all NIH grants and cooperative agreements except fellowships.
Institutional NRSA training grants must be administered in accordance with the current NRSA section of the NIH Grants Policy Statement - Institutional Research Training Grants.
The taxability of stipends is described in the NIH Grants Policy Statement. Policies regarding the Ruth L. Kirschstein-NRSA payback obligation are explained in the NIH Grants Policy Statement.
As specified in the NIH Revitalization Act of 1993, Kirschstein-NRSA recipients incur a service payback obligation for the first 12 months of postdoctoral support. Policies regarding the Ruth L. Kirschstein-NRSA payback obligation are explained in the NIH Grants Policy Statement; and more details are in the Frequently Asked Questions. Officials at the recipient institution have the responsibility of explaining the terms of the payback requirements to all prospective trainees before appointment to the training grant. Additionally, all trainees recruited into the training program should be provided with information related to the career options that might be available when they complete the program. The suitability of such career options as methods to satisfy the NRSA service payback obligation should be discussed.
Inventions and Copyrights Awards made primarily for educational purposes are exempted from the PHS invention requirements and thus invention reporting is not required, as described in the NIH Grants Policy Statement.
Not Applicable.
When multiple years are involved, recipients will be required to submit the Research Performance Progress Report (RPPR) annually. Continuation support will not be provided until the required forms are submitted and accepted.
Failure by the recipient institution to submit required forms in a timely, complete, and accurate manner may result in an expenditure disallowance or a delay in any continuation funding for the award.
The Federal Funding Accountability and Transparency Act of 2006 (Transparency Act), includes a requirement for awardees of Federal grants to report information about first-tier subawards and executive compensation under Federal assistance awards issued in FY2011 or later. All awardees of applicable NIH grants and cooperative agreements are required to report to the Federal Subaward Reporting System (FSRS) available at www.fsrs.gov on all subawards over $25,000. See the NIH Grants Policy Statement for additional information on this reporting requirement.
The institution must submit a completed Statement of Appointment (PHS Form 2271) for each trainee appointed or reappointed to the training grant for 8 weeks or more. Recipients must submit the PHS 2271 data electronically using the xTrain system. More information on xTrain is available at xTrain (eRA Commons). An appointment or reappointment may begin any time during the budget period, but not before the budget period start date of the grant year.
A final RPPR, the expenditure data portion of the Federal Financial Report, and Termination Notices for all Trainees, are required for closeout of an award as described in the NIH Grants Policy Statement. NIH FOAs outline intended research goals and objectives. Post award, NIH will review and measure performance based on the details and outcomes that are shared within the RPPR, as described at 45 CFR Part 75.301 and 2 CFR Part 200.301.
In accordance with the regulatory requirements provided at 45 CFR 75.113 and 2 CFR Part 200.113 and Appendix XII to 45 CFR Part 75 and 2 CFR Part 200, recipients that have currently active Federal grants, cooperative agreements, and procurement contracts from all Federal awarding agencies with a cumulative total value greater than $10,000,000 for any period of time during the period of performance of a Federal award, must report and maintain the currency of information reported in the System for Award Management (SAM) about civil, criminal, and administrative proceedings in connection with the award or performance of a Federal award that reached final disposition within the most recent five-year period. The recipient must also make semiannual disclosures regarding such proceedings. Proceedings information will be made publicly available in the designated integrity and performance system (currently FAPIIS). This is a statutory requirement under section 872 of Public Law 110-417, as amended (41 U.S.C. 2313). As required by section 3010 of Public Law 111-212, all information posted in the designated integrity and performance system on or after April 15, 2011, except past performance reviews required for Federal procurement contracts, will be publicly available. Full reporting requirements and procedures are found in Appendix XII to 45 CFR Part 75 and 2 CFR Part 200 Award Term and Condition for Recipient Integrity and Performance Matters.
In carrying out its stewardship of human resource-related programs, the NIH may request information essential to an assessment of the effectiveness of this program from databases and from participants themselves. Participants may be contacted after the completion of this award for periodic updates on various aspects of their employment history, publications, support from research grants or contracts, honors and awards, professional activities, and other information helpful in evaluating the impact of the program.
We encourage inquiries concerning this funding opportunity and welcome the opportunity to answer questions from potential applicants.
eRA Service Desk (Questions regarding ASSIST, eRA Commons, application errors and warnings, documenting system problems that threaten on-time submission, and post-submission issues)
Finding Help Online: http://grants.nih.gov/support/ (preferred method of contact)
Telephone: 301-402-7469 or 866-504-9552 (Toll Free)
General Grants Information (Questions regarding application processes and NIH grant resources)
Email: GrantsInfo@nih.gov (preferred method of contact)
Telephone: 301-480-7075
Grants.gov Customer Support (Questions regarding Grants.gov registration and Workspace)
Contact Center Telephone: 800-518-4726
Email: support@grants.gov
Stephen Korn, Ph.D.
National Institute of Neurological Disorders and Stroke (NINDS)
Email: korns@ninds.nih.gov
Chief, Scientific Review Branch
National Institute of Neurological Disorders and Stroke (NINDS)
Email: nindsreview@nih.gov
Chief, Grants Management Officer
National Institute of Neurological Disorders and Stroke (NINDS)
Email: ChiefGrantsManagementOfficer@ninds.nih.gov
Awards are made under the authorization of Section 487 of the Public Health Service Act as amended (42 USC 288) and under Federal Regulations 42 CFR 66.