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Grant writing: what’s it about?. Who does grant writing?  Typically a person must have advanced to the level of independent investigator before being.

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Presentation on theme: "Grant writing: what’s it about?. Who does grant writing?  Typically a person must have advanced to the level of independent investigator before being."— Presentation transcript:

1 Grant writing: what’s it about?

2 Who does grant writing?  Typically a person must have advanced to the level of independent investigator before being eligible.  This includes: University faculty Federal agency scientist (USDA-ARS, NIH, Department of Defense, Department of Energy, etc.)  Exception: training grants may allow postdoctoral trainees or PhD students to apply.

3 Why do grant writing?  Grant writing allows you to obtain funding for your independent research program.  Research cycle: Submit grant application and obtain funding Conduct research Publish results in peer-reviewed journals  Grant writing is not an endpoint; it is the beginning of the cycle.

4 But…  To establish an “independent” research program, we all have to do it.  It’s an important criteria for promotion and tenure.  And…

5 …It’s not that bad  What are some benefits? It forces you to think through experiments and make sure they’re designed properly before you start Grant reviews can actually help you refine your experiments so they have a better chance for success Even the literature review can be good…it forces you to make sure the work you’re planning hasn’t already been done.

6 What are the granting agencies?

7 What do the agencies fund?  Biomedical research  Agricultural research  Life science research that is not biomedical or agricultural

8 Clinical research

9 Despite the different funding agencies, grant applications are much the same... ComponentNIHUSDANSF Descriptive title xxx Abstract/Summary xxx Budget xxx Applicant credentials xxx Background/ Significance xxx Preliminary data xxx Narrative description xxx Completion schedule xx

10 What are the traits of a good grant application?  1. A good, original idea  2. Research that fits the mission of the agency/program  3. Research that is well designed to address the idea  4. Well written (grantsmanship)

11 What are the traits of a good grant application?  1. A good, original idea  2. Research that fits the mission of the agency/program  3. Research that is well designed to address the idea  4. Well written (grantsmanship = salesmanship)

12 Where do good ideas come from?  1. An extension of your previous research  2. Reading the literature (sometimes in unrelated fields) and applying new ideas to your area of research  3. Talking with other researchers in your field or in unrelated fields

13 Find the agency that fits your idea  Find the appropriate program within the agency and obtain the program’s request for applications (RFA)  Read the RFA carefully to make sure your idea fits the scope of the program you want to apply for  Contact the appropriate program officer at the agency if there are any questions  Find the deadline for proposals for the program and plan accordingly!

14 Design your research well  Make sure the research addresses the hypothesis you are testing  Include proper controls and appropriate repetitions  Use acceptable methods that address the problem  Include appropriate statistical methods  Anticipate problems and provide alternative approaches

15 Grantsmanship  Maximally convey your enthusiasm  Write with maximal clarity and compelling logic  Tell your reviewers what to expect for the agency’s investment  Make your application “reviewer friendly”  Avoid avoidable mistakes

16 Before you get started… Read the directions!

17 Before you get started… Read the directions!

18 Before you get started… Read the directions!

19 Before you get started… Read the directions! …and then read the directions really well.

20 What are the parts of a grant proposal?  1. Specific aims section (usually 1-1 ½ pages)  2. Background/significance (literature review)  3. Preliminary data  (4. Sometimes results from prior support or response to previous reviews)  5. Narrative (description of the proposed research)

21 1. Specific aims section  Usually 1-1 ½ pages Briefly describe knowns and unknowns in the field, then frame the problem to be solved Tell the long-range goal of your research program and the overall objective of this proposal. State the central hypothesis and how it was formulated State the rationale Tell the payoff of the proposed research.

22 Most grant applications must be hypothesis-driven  Definition: A tentative assumption made in order to draw out and test its logical or empirical consequences  Based on your idea, develop a clear hypothesis for testing  Make sure it is testable  State your hypothesis!

23 The difference between a hypothesis and a predetermined conclusion  The central hypothesis is that components of automobile exhaust accelerate degradation of statuary in Washington, DC  The central hypothesis is to show that components of automobile exhaust accelerate degradation of statuary in Washington, DC

24 Narrative  Tell reviewers precisely: What you propose to do How you propose to do it What results you expect and what they will mean in terms of the overall project What might go wrong What alternative approaches will be used to cope with potential problems

25 Background/significance  Significance Make it easy for the reviewers to identify the importance and impact the research will have Include a clear, direct sentence stating the significance Significance projected must be pertinent to the interests of the reviewers and the mission of the agency

26 Background/significance  Background This is not a comprehensive literature review! The purpose is to present a solid foundation for your proposal. Be selective.  Describe what is known  Describe what is not known  Describe what needs to be done  Emphasize how your results will solve the problem you have highlighted

27 Preliminary data  It is not a good idea to submit without some preliminary studies  The more the better!  You must be able to convince the reviewer that you are not relying exclusively on the work of others.  Describe published studies first and also describe recent unpublished experiments.

28 Results from prior support/ response to reviews  Results from prior support Especially applies to a renewal application Demonstrate productivity (publications!)  Response to reviews Only applies to resubmissions Be polite; never write a response to reviews in anger! Back up your response with experimental data

29 Other parts  Resources  Budget  Letters of collaboration/support  Biosketches  Lists of conflict of interest, other current and pending support

30 How are they reviewed?  Peer review is the heart of the process  NIH, NSF, and USDA all operate with review panels composed of approximately 20 experts in the field. A program officer (paid professional working for the agency) oversees panel operation and ensures it operates fairly Panel members usually are university professors or federal researchers

31 Who are reviewers?  The common conceptions: Accomplished Dedicated Knowledgeable Conscientious Fair

32 Who are reviewers—really?  They are actually: Overly committed and overworked Underpaid for their efforts Tired Inherently skeptical Overly critical Looking for the easiest way to get the job done well

33 Review panels  Each member of the panel is assigned about 15 proposals to review prior to the panel meeting.  Each member writes reviews for all the proposals assigned prior to the meeting.  Each proposal has a primary, secondary, and probably a tertiary reviewer  At the panel meeting, each proposal is discussed (except NIH triage). Primary reviewer leads the discussion, followed by secondary and tertiary.

34 Review panels  After discussion, proposals are assigned into different categories (Outstanding/excellent, Very good/highly meritorious, Good/meritorious, Fair/low merit, Poor/do not fund  Based on panel rankings/scores, the funding agency decides which proposals to fund  Depending on the agency, program officers may have power to overturn reviewers’ rankings based on agency mission or goals (USDA most strict, then NIH, then NSF)

35 What does the grant submitter get?  A phone call notifying of funding! ($$) Then the real work begins…  A polite letter of rejection The panel ranking (or score) will be given Individual written reviews and a written summary of the panel discussion (written by the primary reviewer) will be included Persistence pays! Most grant proposals are not funded until the 2 nd or 3 rd try.

36 In summary….  Grant writing is rewarding  And yes, challenging, but also can be fun

37 Specific Aims format  Introductory paragraph Opening sentence—immediately establish relevance to the agency Current knowledge—few sentences, what is currently known about your topic Gap in the knowledge base (unmet need)—one sentence, clearly identify the need that drives the application.  Should link back to current knowledge as the next logical step to advance the field.

38 Specific Aims format  Hypothesis / rationale paragraph Long-term goal—tell the “big picture” of your research program Objective of this application—define the purpose of your application  Must meet the need delineated in first paragraph Central hypothesis—link to objective, should be directional for your research How hypothesis was formulated—based on preliminary data and literature Rationale—why you want to do the research.  Tell researchers what will become possible after the research is completed that is not possible now

39 Specific aims format  Specific Aims paragraph List the specific aims of your research (typically 2-4) Brief, informative, attention-getting “headlines” that will get reviewers’ interest Must grow out of central hypothesis and objectively test its parts Each aim should have a working hypothesis No aim should depend on outcome of another aim

40 Specific Aims format  Payoff paragraph Expected outcomes—describe the payoff that reviewers can expect if research is funded.  Should link to specific aims (at least one expected outcome for each aim) Positive impact summary—summarize the general impact of the expected outcomes.


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