NIH Institutional Training Programs: Preparing a Successful T32 Application Michael A. Sesma, Ph.D. Chief, Postdoctoral Training Branch Division of Training, Workforce Development and Diversity National.
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NIH Institutional Training Programs: Preparing a Successful T32 Application Michael A. Sesma, Ph.D. Chief, Postdoctoral Training Branch Division of Training, Workforce Development and Diversity National Institute of General Medical Sciences National Institutes of Health June, 2013 Ruth L. Kirschstein National Research Service Awards Overview: 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. funding to scientists, not health professionals to enhance research training in scientific areas with need for researchers good curricula, facilities, program in addition to research dedication to developing talent NIH Regional Grant Seminar, June 2014 NRSA Opportunities: Training grants (Ts): Multi-slot awards that are used to support research training activities for several individuals selected by the institution. Fellowships (Fs): Individual awards for graduate students pursuing a doctoral degree and researchers who have just earned their doctorates (postdocs). Student “training” depends on funding Research Grant Training Grant Fellowship “Research work” Early or Dissertation Phase Training Dissertation phase training Project Focused Value-added for Trainee Fellow’s project Benefit to RPG PI Benefit to program PIs Trajectory for Independence Institutional Change • T32 Institutional Training Grant (PA-14-015) Predoctoral and/or Postdoctoral Traineeships • F30 (MD PhD) fellowship (PA-14-150) • F31 (PhD) fellowship (PA-14-147; PA-14-148 (diversity)) • F32 Postdoctoral fellowship (PA-14-149) NIH Regional Grant Seminar, June 2014 Predoctoral support is largely from research grants “Training” differences in apprenticeship vs a program Primary mechanisms of NIH Predoctoral Training support NIH Regional Grant Seminar, June 2014 Kirschstein-NRSA Training Grants and Fellowships Distribution of FTTPs X Activity and Career Stage NIH Regional Grant Seminar, June 2014 NIH Predoc Trainees finish the PhD, have earlier success Median Time to Degree (TTD) 10 Yr PhD Completion rate NIH Trainees 6.3 yrs 80.1% Life Science PhD 6.9 yrs 62.9% Social Science PhD 7.7 yrs 55.9% Applied for NIH RPG within 15 yrs of degree Received NIH RPG Award within 15 yrs of degree NIH Trainees & Fellows 36.7% 23.6% Other PhDs: same fields, institutions 12.8% 7.0% Other PhDs: same fields and institutions without NIH Training Grants 5.9% 2.6% Encourage institutions to accelerate time to scientific independence Sources: IMPAC II and the Doctorate Records File--Includes MSTP trainees NIH Regional Grant Seminar, June 2014 Training in light of limited diversity in workforce Biomedical Workforce US Population 100% 100% 90% 90% 80% 80% 70% 70% 60% 60% 50% 50% 40% 40% 30% 30% 20% 20% 10% 10% 0% 0% 2008 2050 Source: US Census; NSF, 2007 NIH Regional Grant Seminar, June 2014 Temp. Res. non-URM URM Trends in race/ethnicity of NIH-supported Ph.D. recipients NIH Regional Grant Seminar, June 2014 Do training grants help build diversity? African American NIH 406 (5.6%) Other URM 46 Hispanic 517 (7.2%) Total Trainees 7212 as many as 969 URM trainees or 13.4%* supported by T32 *Some individuals may report multiple backgrounds; T32 predoc appointees 2011; ImpacII, Off Res Info/Off Stat Anal & Report/ OER Stats Comparison of the Number of Training Grant Awards and the Number of URM Trainees by Institution. The correlation between training grants and number of URM students is 0.748. National Academies Press 2011; Research Doctorate Programs in the biomedical sciences: Selected findings from the NRC Assessment (2011) Board on Higher Education and Workforce NIH Regional Grant Seminar, June 2014 Snapshot of the PhD Biomedical Workforce College Graduates NOTE: The color of the numbers reflects the confidence in the accuracy of the data. 16,000 in 2009 Graduate Education & Training 2009 Total: 83,000 Time to Degree :5.5-7yrs 2009 Graduates: 9,000 Of graduates who stay in the US 5,800 in 2009 4,000 in 2009 8% of International graduates leave the US skip a postdoc Postdoctoral Training do a postdoc 2009 Total: 37,000 to 68,000 Median Length: 4 years Post-Training Workforce Government Research 18% 6% 43% 18% Biomedical UStrained PhD, 2008 ~7,000 (23% tenured) Biomedical UStrained PhD, Biomedical US-trained PhD 2008~22,500 Biomedical US- trained PhD, 2008 ~24,000 Academic Research or Teaching Industrial Research Science Related NonResearch 2008 ~55,000 1,900 to 3,900 in 2009 (128,000 Biomedical US-trained PhDs) Non-Science Related Unemployed 13% 2% Biomedical UStrained PhD, 2008 ~17,000 Biomedical UStrained PhD, 2008 ~2,500 http://acd.od.nih.gov/Biomedical_research_wgreport.pdf NIH Regional Grant Seminar, June 2014 Training In light of Multiple Career Outcomes Employment of Biomedical Science PhDs by Sector Number 140,000 120,000 Other Government 100,000 Industrial All Academic 80,000 60,000 40,000 20,000 - 1973 1977 1981 1985 1989 1991 1993 1993 1995 1997 1999 2001 2003 2006 2008 NEW Source: http://sestat.nsf.gov/ NIH Regional June 2013 What’s Next? Attention to multiple careers Graduate students in basic biomedical sciences • Initially have goal of academic research • Midway thru PhD consider multiple careers Individual Development Plans (IDPs) self assessment and planning To be used in training, fellowships, RPGs… Student and Mentor Engagement myidp.sciencecareers.org Fuhrmann et al 2011 CBE Life Sci Educn 10: 239-249 NIH Regional Grant Seminar, June 2014 The IDP involves The scholar The mentor Self Assessment Survey opportunities Write IDP Implement plan Familiarity with opportunities discuss opportunities Review IDP, help revise Assess New Tasks, Progress in light of the plan 1. Skills assessment - strengths and weaknesses 2. Career match - do goals match skills and interest? 3. Do it again next year NIH Regional Grant Seminar, June 2014 Kirschstein-NRSA institutional research training grants Applications, Awards, and Success Rates NIH Regional Grant Seminar, June 2014 Institutional Training Grants FY2013 Competing: 672 Applications 57 Type 1 (new) awarded 223 Type 2 (renewal) awarded Non-Competing: 1,409 Type 5 (non-competing) awarded Total Number of T32s in 2013 = 1,689 Total Success Rate = 42% 23% for New Applications 49% for Competing Renewal Applications NIH Regional Grant Seminar, June 2014 15 Institutional Training Programs: Strategies for Preparing a Successful Application • Understand the role of training programs • Goal to enhance research training through a coordinated programmatic approach • Involve many faculty, multiple departments • Trainees selected by the institution • PA-14-015 T32 Parent Announcement • Clarify value-added, careers • Evolution of review criteria NIH Regional Grant Seminar, June 2014 Strategies to Develop a Competitive T32 Application 1. Start Early 2. Consider why a Training Grant is important 3. Be very sure there is a PROGRAM 4. Consider how your training is innovative 5. Complete tables before finalizing narrative 6. Read and respond to the review criteria 7. Explain, explain, explain. 8. Remember reviewers are expert faculty familiar with training NIH Regional Grant Seminar, June 2014 Strategy for T32 Preparation Organize Faculty Group Design the Program NIH Regional Grant Seminar, June 2014 Get Institutional Support Review Table Data Write the Narrative Training Programs Rely on Faculty Strengths Organize Faculty Group Design the Program Get Institutional Support Review Table Data Write the Narrative Use NIH Reporter - search your School’s Faculty Research Faculty in research area of proposal Faculty funded by particular Institute Examine Your Institution - Training History Critical mass of Faculty Current “pool” of potential trainees Faculty history with pre- or post-doc training Training career outcomes, fellowships, publications Faculty mentor development NIH Regional Grant Seminar, June 2014 Organize Faculty Group Design the Program Get Institutional Support Review Table Data Write the Narrative Who is the Program for? Many interdisciplinary, not departmental How to manage nomination, selection? Why do you need a training program? How will the trainee benefit from the program? What are the Program Elements? Every student will.. Can students complete what you outline? What Outcome do you want and expect? What is the most Important Outcome? NIH Regional Grant Seminar, June 2014 Organize Faculty Group Design the Program Clarify Institutional Support Review your Tables Write the Narrative The “value added” from training is an Intentional program beyond research in the PI labs Active nomination, selection of candidates from pool Planned research and academics, with flexibility Seminars, enhancement activities Longitudinal program beyond funding period Faculty trainer responsibilities make program strong NIH Regional Grant Seminar, June 2014 Training Programs are Developmental, more than Selection of Talent Potential Trainees Select for TG and why Matriculant UG major Research Interest Courses taken Lab affiliation PhD Program Pilot research NIH Regional Grant Seminar, June 2014 Program Activities Planned interventions Mentored Research PI, advisory cmte research design new techniques Planned Curriculum knowledge teaching Skill building oral communication writing workshops new collaborations Contemporary science meet new scientists Career Exposure know next steps Milestone/ Outcomes Intended changes Short term Research publications Poster, meeting Fellowship Longer term Next position Biomedical career Research grants Mentoring others Organize Faculty Group Design the Program Clarify Institutional Support Review your Tables Review Criteria, Get Advice Write the Narrative Who will “run” the program? Effort, administrative support, record-keeping interface with Grad Studies, PhD program, etc. If trainees and mentors at different sites where do they meet? Socialize? Retreat? how do you form a cohort? Student Council groups attractive NIH Regional Grant Seminar, June 2014 Organize Faculty Group Design the Program Clarify Institutional Support Review your Tables Review Criteria, Get Advice Write the Narrative Institutional Support Grants and Contracts submits grant need faculty data, postdoc office, student information For PI/PD and faculty effort (salary), research support administrative support for training program central graduate office support For Trainees top-up stipend, perks? support for other students in program access to resources (research cores, RCR courses, recruiting) NIH Regional Grant Seminar, June 2014 Organize Faculty Group Design the Program Clarify Institutional Support Review your Tables Review Criteria, Get Advice 12 required tables Some schools have central office for data PD is responsible for content, understanding even if assistant helps prepare the tables! Analyze information and describe in narrative Be sure to have at least a paragraph on each table explain, don’t bury, data. Have a plan! NIH Regional Grant Seminar, June 2014 Write the Narrative Organize Faculty Group Design the Program Clarify Institutional Support Review your Tables Review Criteria, Get Advice Write the Narrative Scored Review Criteria: 1. Training Program and Environment 2. Training Program Director/Principal Investigator 3. Preceptors/Mentors 4. Trainees 5. Training Record Overall Impact Score: 1-9 NIH Regional Grant Seminar, June 2014 Review of Training Grants Two Levels of Review: Initial Review - Study Section- Scientific Merit Appropriate Scientific Expertise Established Scientists Many Participate in Training Programs Institute or Center Council- Program Relevance Broader Scientific Coverage Established Senior Scientists Leaders in Community (Scientific, Business, Philanthropic) Provide Guidance to Program Staff 27 Your Grant Application Electronic Submission ---May (Sept, Jan) Received Centrally by the Center for Scientific Review and Referred to Appropriate Institute Assigned to Appropriate Initial Review Group (20 to 30 members) by the Institute Each Application Assigned to Three to Four Primary Reviewers in Group Initial Review Group Meeting --- September Advisory Council --- January Funding Decisions --- March Award Issued --- July 28 4. Trainees Is a recruitment plan proposed with strategies likely to attract well-qualified candidates for the training program? Proactive recruitment or dependent on umbrella admissions? Are there well-defined and justified selection and reappointment criteria as well as retention strategies? Nomination, re-appointment criteria, process Is there evidence of a competitive applicant pool of sufficient size and quality, at each of the proposed levels (pre, post, short-term) to ensure a successful training program? TG is catalytic, supports a third(?) of relevant TGE students NIH Regional Grant Seminar, June 2014 5. Training Record To what extent do trainees’ subsequent positions in industrial, academic, government, non-profit, or other sectors benefit from their NRSA-supported research training and directly benefit the broader biomedical research enterprise? Preparation for multiple career paths? Does the program propose a rigorous evaluation plan to assess the quality and effectiveness of the training? Annually assess outcomes? What do you measure? Evidence that adapt to changes? Are effective mechanisms in place for obtaining feedback from current and former trainees? student council, social media, LinkedIn, etc. alumni lectures Is there a record of retaining health professional trainees in research training or other research activities for at least two years? NIH Regional Grant Seminar, June 2014 Additional Review Criteria & Considerations Additional Review Criteria Protection for Human Subjects Inclusion of Women, Minorities, and Children Vertebrate Animals Biohazards Resubmission, Renewal, Revision factors Additional Review Considerations: Diversity Recruitment Plan Training in Responsible Conduct of Research Select Agent Research Budget and Period of Support NIH Regional Grant Seminar, June 2014 Additional Review Criteria & Considerations Budget – FTTPs (Program Slots) Most TGs support two years of training slots are described per year justify slots at about 25-33% of TGE trainee pool in a year Responsible Conduct of Research Mandatory; describe hours, topics, when occurs, refresh Online is not sufficient Institutional program okay, IF also TG faculty participate in small groups Rated as: Acceptable or Unacceptable Each IC will review plans before funding NIH Regional Grant Seminar, June 2014 Additional Review Criteria & Considerations DIVERSITY Recruitment and retention plan to enhance diversity evaluated after the overall score has been determined Goal is diversity and inclusion in the program especially for individuals from groups underrepresented in biomedical and behavioral science US minorities, Individuals with disabilities Be aware of NSF data, know your institutional record Plans to recruit Plans to retain Report Progress Rated as: Acceptable or Unacceptable Each IC will review plans before funding NIH Regional Grant Seminar, June 2014 Table 2. Participating Faculty Members Do right away, its easy to modify as you collect biosketches: Start here Table 2. Participating Faculty Members (Alphabetically by Faculty Member) Name/Degree(s) Rank Primary (& Secondary) Appointment(s) Role in Program Research Interest Abrams-Johnson, Jane, PhD Asst. Prof. Pharmacology; (Biochemistry-Medical School) Mentor Regulation of Synthesis of Biogenic Amines Jones, Lisa S., MD Res. Asst. Prof. Microbiology and Immunology (Neuroscience Program) Mentor Exec Com Protein Structure, Folding, and Immunogenicity Sandoz, J. Miguel, MD, PhD Assoc. Prof. Neuroscience Program Mentor Developmental Genetics in Drosophila Thomas, C. James, III, PhD Prof. & Chr. Biochemistry and Molecular Biophysics Program Director Molecular and Genetic Analysis of RNA Viruses Table 2 Instructions: List each training faculty member with his/her degree(s), academic rank, primary departmental affiliation and secondary appointments, role in the proposed training grant program, and research interests that are relevant to this program. Rationale: This information allows reviewers to assess the distribution of junior versus senior faculty and clinical versus basic scientists participating in the training program, as well as their distribution by department. The data concisely summarize the scientific areas of the training faculty. NIH Regional Grant Seminar, June 2014 Table 1. Participating Departments Finish this table last…its complicated Table 1. Membership of Participating Departments/Programs (Alphabetically) For Renewal For Renewal Applications, Postdoctoral Applications, Predoctoral Trainees in Postdoctoral Postdoctoral Trainees Department / Trainees Trainees Supported by Program With Supported by This Training (Supported Participating This Training Grant Grant by Any NIH Faculty (TGE) Training (TGE) (TGE) A/B/C Grant) A/B/C A/B/C Faculty Members in Department / Program Faculty Members Participating in This Application Predoctoral Trainees in Department / Program (Supported by Any NIH Training Grant) Dept. of Biology 45 14 38 (15) 12 (6) 1/1/0 2 (2) 1/0/0 50 (5) 15 (7) 1/0/0 2 (2) 0/0/0 Neuroscience Program 32 20 31 (20) 14 (7) 2/0/1 4 (4) 0/1/0 40 (7) 23 (10) 0/0/1 2(2) 1/0/0 Dept. of Pharmacology (Medical School) 25 5 30 (10) 5 (3) 1/0/0 3 (3) 0/0/0 28 (0) 12 (6) 0/0/1 0 (0) 0/0/0 Totals N/A N/A 99 (45) 31 (16) 4/1/1 9 (9) 1/1/0 108 (12) 50 (23) 4 (4) 1/0/0 Participating Department / Program Predoctoral Trainees With Participating Faculty (TGE) A/B/C From the Table 1 Instructions Rationale: This table provides insight into the environment in which training will take place. It allows reviewers to assess whether the program has the "critical mass" (trainees, faculty and other research personnel, and representation/distribution of scientific disciplines) to be successful. 35 NIH Regional Grant Seminar, June 2014 Table 3. Existing Institutional Training Grants Table 3. Institutional Training Grant Support Available to Participating Faculty Members, Department(s), or Program(s) Title of Training Grant Funding Source Including Identifying Number Active or Pending Project Period Program Director (Department) ShortPredoctoral Postdoctoral Term Trainees Trainees Trainees Total No. of Supported Supported Supported Participating This Year This Year This Year Faculty Names of Overlapping Faculty Bioimmunotherapy Training Grant T32 CA05964-11 06/02-07/07 Baker, A. (Pathology) 12 25 Abelson Brown Fields Johnson Sung Watson Pharmacological Sciences T32 GM04823-01 Pending 10 19 Jones Jenson Watson Genetic Basis of Mental Illness T32 MH02708-07 06/03-07/08 Johnson, A. (Psychiatry) 7 Johnson Watson Totals N/A N/A James, C. (Pharmacology) N/A 4 4 26 4 0 51 N/A Table 3 Instructions: List all current and pending training support available to the participating faculty members, department(s) or programs(s). For each grant, include the title of the training grant; funding source and complete identifying number; status (active or pending) and dates of the entire project period; name of the program director and department; number(s) of training positions (predoctoral, postdoctoral, and short term), number of participating faculty members; and list overlapping participating faculty members, who are also named in this application. Rationale: This table will permit an evaluation of the level of support for training available to each of the participating departments/programs and the extent to which the proposed training grant overlaps with or duplicates available training grant support. It is useful in determining the number of training positions to be awarded. Explain overlapping faculty, esp if overlap trainee stage NIH Regional Grant Seminar, June 2014 Table 4. Grant Support of Faculty Table 4. Grant and Contract Support of the Participating Faculty Members (Alphabetically by Faculty Member) Faculty Member Source of Support, Grant Number and Status Current Year Direct Costs Awarded (Total Direct Costs for Awards With Substantial Future Changes) Faculty Member Role on Project and Grant Title Project Period Active 05/09-05/014 * $190,000 Jones, J. NIH 1 R01 CA76259-01 * PI - Structure and Function of Acetylcholine Receptors Jones, J. NIH 5 K08 AI00091-03 PI - Purification & Identification of Receptors 11/03-11/08 $140,000 Mack, T. American Heart Assoc. PI - Control of Angiogenesis 03/05-03/08 $185,000 Mack, T. NSF PCM 80-12935 (D. Stockton, PD/PI) Co-PI - Cell Culture Center 12/06-12/09 $180,000 Mack, T. NIH 1 P01 CA71802-02 (D. Stockton, PD/PI) Project Leader of Subproject 4: "Genetic Control of Cell Division" 10/05-10/09 $165,000 Smith, J. None Zachary, A. NIH 1 U01 AI-28507-01 * PI – Human Monoclonal Antibodies as a Therapy for Staphyloccal Enterotoxin 07/09-07/14 * $200,000 ($3 million) Table 4 Instructions: For each participating faculty member, list active and pending research grant and contract support from all sources (including Federal, non-Federal, and institutional research grant and contract support) that will provide the context for research training experiences, but excluding research training grants. If none, state "None." Include the source of support and grant number; role of the participating faculty member (PD/PI, co-PD/PI, etc.) in the grant; title, status (use an asterisk (*) to indicate pending sources of support) and dates of the entire project period; and the current year annual direct costs. If the source of support is part of a multiple project grant (for example, a P01), additionally identify the PD/PI of the overall project, and provide the above information for that component of the grant with which the faculty member is associated. For grants with major budget changes in future years such as clinical trials, include the total direct costs of the award in parentheses. Rationale: This table provides evidence of the strength of the research environment, the availability of funds to support research conducted by the trainees, and the appropriateness of the participating faculty members in terms of their active research support. current and pending research funding only. If none…worry NIH Regional Grant Seminar, June 2014 Table 5. Training Record of Faculty If no previous trainees, what is plan to mentor initial trainer? If poor outcomes, you may not want this trainer! NIH Regional Grant Seminar, June 2014 Table 6. Publications of Trainees Comment on first author, and total publications with mentor Discuss program policies on pubs Notice TTD here… For renewals attend to Public Access Compliance NIH Regional Grant Seminar, June 2014 Table 7A. Admissions and Completion Records for Participating Departments and Programs Table 7A. Admissions and Completion Records for the Participating Departments and Programs During the Past Five Years (Predoctoral Applicants) Department / Program Applicants Applicants Applicants Enrolled Accepted Applied (TGE) (TGE) (TGE) Entering A/B/C A A Year Trainees Still in Program (TGE) A/B/C Trainees Trainees Completed Completed Trainees Program Program Left Earned PhD or Earned Other Program Degree MD/PhD (TGE) (TGE) (TGE) A/B/C A/B/C A/B/C Reason for Leaving Program (if training was not completed) Changed career interests Department of Biochemistry 2003 8 (5) 0 6 (4) 0 4 (3) 0/3/1 2 (1) 0/0/0 1 (1) 0/0/0 0 (0) 0/0/0 1 (1) 0/0/0 Department of Biochemistry 2004 9 (7) 1 6 (4) 10 5 (3) 0/0/0 4 (3) 0/0/0 1 (1) 0/0/0 0(0) 0/0/0 0 (0) 0/0/0 Department of Biochemistry 2005 10 (6) 2 8 (5) 1 5 (3) 1/0/0 4 (3) 0/0/0 0 (0) 0/0/0 MS 1 1/0/0 0 (0) 0/0/0 Went to medical school Department of Biochemistry 2006 12 (9) 3 10 (6) 1 8 (5) 1/0/0 6 (4) 0/0/0 0 (0) 0/0/0 0 (0) 0/0/0 2 (1) 0/0/0 1 left for a job in industry; 1 left for reasons unknown Department of Biochemistry 2007 15 (12) 4 10 (8) 2 8 (6) 2/1/0 8 (6) 2/1/0 0 (0) 0/0/0 0 (0) 0/0/0 0 (0) 0/0/0 Interdepartmental Graduate Program in Genetics 2003 125 (9) 5 24 (18) 0 18 (15) 0/0/0 5 (4) 00/0 12 (11) 0/0/0 0 (0) 0/0/0 1 (0) 0/0/0 Transferred to Bioengineering PhD program Interdepartmental Graduate Program in Genetics 2004 123 (91) 3 22 (17 1 16 (16) 1/0/0 10 (10) 0/0/0 4 (4) 0/0/0 0 (0) 0/0/0 2 (2) 1/0/0 1 transferred to another institution; 1 enrolled in medical school Interdepartmental Graduate Program in Genetics 2005 122 (85) 5 21 (19) 0 17 (16) 0/0/0 14 (14) 0/0/0 0 (0) 0/0/0 MS 1 0/0/0 2 (1) 0/0/0 1 left for job in industry; 1 enrolled in dental school Interdepartmental Graduate Program in Genetics 2006 130 (83) 5 35 (22) 4 20 (19) 3/0/0 18 (17) 2/0/0 0 (0) 0/0/0 0 (0) 0/0/0 2 (2) 1/0/0 1 transferred to neuroscience training program; 1 teaching science in high school NIH Regional Grant Seminar, June 2014 Table 8A. Qualifications of Recent Predoctoral Applicants Table 8A. Qualifications of Recent Predoctoral Applicants Department / Program Year Applicant (List by Number) Previous Institution(s) Degree(s) & Year(s) GRE Scores V, Q, Adv (Percentiles) and/or MCAT Scores Support from this Undergrad Interviewed Accepted Enrolled Grant GPA (Y/N) (Y/N) (Y/N) (Y/N) 2007 Medical Scientist Training Program 1* U. of WI BSN '06 12, 11, Q, 10 3.63 Y Y Y Y 2007 Medical Scientist Training Program 2* Stanford BS '06 11, 13, N, 11 3.72 Y Y N JHU N 2007 Medical Scientist Training Program 3 Yale U. Wash. U. BA '05 MS '06 10, 9, O, 11 660 680 740 3.78 Y N N N 2007 Molecular Biophysics Program 1* U. of IL BS '06 700 730 720 4.0 Y Y Y Y 2007 Molecular Biophysics Program 2* Rutgers BS '07 710 690 680 3.36 Y Y Y Y 2007 Molecular Biophysics Program 3 Berkeley BS '07 680 710 720 3.68 Y Y N UCSF N 2007 Molecular Biophysics Program 4* U. of TX BS '07 720 690 750 (97%) (79%) (85%) 3.73 Y Y N JHU N 2007 Molecular Biophysics Program 5* Tufts U. BS '06 650 670 630 3.32 N N N N 2007 Molecular Biophysics Program 6 U. of Kyoto BS '05 480 710 720 N/A N N N N Program Statistics Total Number of Applicants 9 Number of TGE Applicants 6 Applicants Interviewed 7 Applicants Accepted 6 Applicants Enrolled Applicants Supported By This Grant 3 Similar table (8B) for Postdoctoral Applicants NIH Regional Grant Seminar, June 2014 3 Average GRE / MCAT Scores 11, 11,11 702 705 718 Average GPA 3.65 Table 9A. Qualifications of Current Predoctoral Trainees Table 9A. Qualifications of the Current Predoctoral Trainees Clearly Associated with the Training Program Department / Program Undergraduate GPA Current Research Mentor Years in Program Calendar Years Appointed to This Grant 3.63 Jones, J. '07-present None 12, 12, R, 14 3.72 Huerta, X. '05-present '06-'07 BA '05 MS '07 700 710 640 (96% 82% 84%) 3.75 Felman, R. '07-present '06-present BA '07 650 710 630 (80% 92% 83%) 3.34 TBN '07-present None Trainee (List by Number) Previous Institution(s) Degree(s) & Year(s) Biochem 1* U. of WI BSN '06 Genetics 2* MIT BS '06 Genetics 3* U. Penn. Wash. U. Genetics 4 U. Mich. GRE Scores / (Percentiles) V, Q, Adv and/or MCAT Scores 680 Program Statistics Total Number of Trainees Number of TGE Trainees Average GRE / MCAT Scores 4 3 690, 705, 695 12, 12, R, 14 NIH Regional Grant Seminar, June 2014 Average GPA 3.61 720 750 Table 9A. Qualifications of Current Postdoctoral Trainees NIH Regional Grant Seminar, June 2014 Table 10. Admissions and Completion Records of Underrepresented Individuals Table 10: Admissions and Completion Records for Underrepresented Minority (URM) Trainees, Trainees with Disabilities, and Trainees from Disadvantaged Backgrounds Clearly Associated With the Training Program Diversity Recruitment Group A B Trainee (List by Number) Entering Year (Pre/Post) URM Trainees 1* 2006 (Pre) Genetics T32 GM001122 F31 URM Trainees 1* 2007 (Post) Cell Biology University Fellowship Research URM Trainees 1* 2007 (Post) Chemistry Lectureship Trainees With Disabilities 1* 2004 (Pre) Pharmacology T32 GM001144 F31 Trainees With Disabilities 2* 2006 (Post) Cell Biology R01 Trainees With Disabilities 3 2007 (Post) Medicine Research Associate Trainees From Disadvantaged Backgrounds 1* 2005 (Pre) Genetics T32 GM001155 F31 Department / Program Source of Support and if Support by NRSA Grant C—usually not for grad, postdoc NIH Regional Grant Seminar, June 2014 In Training Completed Training Left Without Completing Training Y Current Status Career or Employment Postdoctoral Trainee UCSF Y Mentor and student both moved to another institution Y Y Postdoctoral Trainee NYU Y Career Change Y Y Postdoctoral Trainee U. Chicago Table 11. Appointments to the Training Grant for each Year of Past Award Table 11. Appointments to the Training Grant For Each Year of the Past Award (Renewal Applications Only) Grant Year 2003-2004 2004-2005 2005-2006 2006-2007 2007-2008 Predoctoral Positions Awarded (Months of Support) 10 (120) 12 (144) 14 (168) 14 (168) 14 (168) Predoctoral Trainees Appointed (Months of Support Used) 10 (120) 131 (144) 14 (168) 132 (156) 14 (168) Predoctoral URM Trainees Appointed (Months of Support) 1 (12) 2 (24) (0) 1 (12) 1 (12) Predoctoral Trainees with Disabilities Appointed (Months of Support) 1 (12) 0 (0) 1 (12) 2 (12) 0 (0) Predoctoral Trainees from Disadvantaged Background Appointed (Months of Support) 0 (0) 0 (0) 0 (0) 0 (0) 1 (12) Postdoctoral Positions Awarded (Months of Support) 4 (48) 4 (48) 4 (48) 4 (48) 4 (48) Postdoctoral Trainees With MD Appointed 1 1 2 1 2 Postdoctoral Trainees With MD/PhD Appointed 2 1 1 0 0 Postdoctoral Trainees With PhD Appointed 1 1 0 1 2 Postdoctoral Trainees With Other Degree Appointed 0 DrPH DrPH PharmD 0 Postdoctoral Trainees Appointed (Months of Support Used) 4 (48) 4 (48) 4 (48) 3 (38)3 4 (48) Postdoctoral URM Trainees Appointed (Months of Support) 1 (12) 2 (24) 0 (0) 1 (12) 1 (12) Postdoctoral Trainees with Disabilities Appointed (Months of Support) 0 (0) 0 (0) 0 (0) 0 (0) 0 (0) Postdoctoral Trainees from Disadvantaged Background Appointed (Months of Support) 0 (0) 0 (0 0 (0) 0 (0) 1 (12) 1 One trainee left after 6 months and a second trainee was appointed for the remainder of the year. One position was not filled. 3 A fourth trainee was appointed, but fell ill and dropped out after 2 months. It was then too late to recruit a replacement trainee. 2 NIH Regional Grant Seminar, June 2014 12A. Predoc Trainees Supported by this Training Grant Table 12A. Predoctoral Trainees Supported by This Training Grant (Renewal Applications Only) Predoctoral (and MSTP) Trainees (Listed Sequentially by Entering Class) Enter Source(s) of Support and Academic Year for Each Grant Year Trainee, Year of Entry Prior Degree & Grant Grant Grant Grant Grant Grant Grant Grant Grant Grant Institution (Mentor – Year Year Year Year Year Year Year Year Year Year Department / -01 -02 -03 -04 -05 -06 -07 -08 -09 -10 Program) 95-99 99-00 00-01 01-02 02-03 03-04 04-05 05-06 06-07 07-08 Cox, C., 1994 BA, Cornell Univ. (Jones-Biochem.) TG TG RG Smith, J. G., 1995 BS, Iowa State U. (Gordon-MCB) TG TG RG Johnson, J., 2002 BPharm, Duquesne (Jacobs-Virology) RG/ TG3 TG2 Smolock, Y., 2005 BS, UCLA (Rifkind-Genetics) Thomas, G., 2007 DVM, U. Penn (unassigned) TG TG RG RG UF UF TG Title of Research Project or Research Topic Current Position and Degree(s) Institution Received (Grant Support (Year) Obtained) Cloning of Human Globin Genes MD, PhD (2002) Asst. Prof. Hematology, Rutgers (50% clinical, 50% research, NIH K11) Structural Studies of MembraneBound Proteins M.S. (2001) Parke-Davis (Lab. Technician) Regulation of EBV Gene Expression PhD (2007) Postdoctoral Trainee w/C. Chen, Univ. of CA, Davis Purine Synthesis Mutants in Mammalian Cells TG In Training In Training Program Statistics Percentage of Trainees Entering 10 Years Ago That Completed Ph.D.s Average Time to Ph.D. for Students in the Last 10 Years (not including leaves of absence) 50% 6.5 years TG1, TG2...Early, late…Explain use of slots! NIH Regional Grant Seminar, June 2014 12B. Postdoc Trainees Supported by this Training Grant NIH Regional Grant Seminar, June 2014 Notes on the Narrative Background Describe a good environment for training Describe data in Tables 1, 2, 3: Departmental Membership, Participating Faculty Members, Other TG Support Program Administration and Faculty Describe data in Tables 4, 5, 6: Faculty Grant Support, Trainees, Publication of Trainees Program Plan Who are students and how are they selected What students will do & why IDP? Training Program Evaluation the mechanisms to be used in evaluating the quality and success of the training effort, outcome measures? NIH Regional Grant Seminar, June 2014 Notes on the Narrative Trainee Candidates - who are they Recruitment, pool size, quality Admissions and Completion Records of Trainees Tables 7A and/or 7B Qualifications of Trainee Applicants Tables 8A and/or 8B For Renewals, Current Trainee Qualifications Table 9A and/or 9B Institutional Environment and Commitment to the Program Recruitment and Retention Plan to Enhance Diversity Tables 1, 7A/B, Renewal application - Table 10 Plan for Instruction in Responsible Conduct of Research For Renewal Applications Progress report Tables 11, 12A and/or 12B Use advisory group to critique before submission NIH Regional Grant Seminar, June 2014 Notes on the Narrative Competing Renewal Applications • describe the program success in recruitment, retention and graduation of individuals from underrepresented groups • highlight how the program has evolved in response to changes in relevant scientific and technical knowledge, educational practices, and to evaluation of the training program NIH Regional Grant Seminar, June 2014 Notes on the Narrative NIGMS suggests ways to enhance the training experience of their programs. These activities would be appropriate to include in the program plan: • offer opportunities for interested trainees to obtain experience in teaching • if appropriate, offer opportunities for trainees to take industrial or other internships outside of the training institution. • provide information to trainees and prospective applicants about career outcomes of recent graduates; organize student seminars and workshops on career opportunities and options. • recruit trainees with a variety of undergraduate science backgrounds, including mathematics, engineering and the physical sciences. Differentiate from the generic training program. Be unique. NIH Regional Grant Seminar, June 2014 Get up to Speed, then Innovate Brass LF et al 2010 Are MD-PhD programs meeting their goals? An analysis of career choices made by graduates of 24 MD-PhD programs. Acad Med. 85: 692 Sambunjak 2006 Mentoring in Academic Medicine: A systematic review. JAMA 296: 1103 Andrews NC 2002 The Other Physician Scientist problem: Where have all the young girls gone? Nature Medicine 8: 439 Ciampa EJ et al. 2011 A workshop on leadership for MD/PhD students. Med. Ed Online 16: 7075 Dickler HB et al. 2007 New Physician Investigators Receiving National Institutes of Health Research Project Grants: A historical perspective on the “endangered species” JAMA 297: 2496 NIH Regional Grant Seminar, June 2014 Look to NSF for PhD data Survey of Earned Doctorates, 2011 http://www.nsf.gov/statistics/srvydoctorates/ Trends in earned PhDs in different biomedical fields Trends in diversity in PhDs………. and beyond! NIH Regional Grant Seminar, June 2014 NIH Institute Resources for T32 Applicants NIGMS - Answers to Institutional Predoctoral Training Grants (T32) Frequently Asked Questions http://www.nigms.nih.gov/Training/InstPredoc/Pages/predoctraining-grants-faqs.aspx NIAID - Advice on Research Training and Career Awards; Institutional Research Training Grants http://www.niaid.nih.gov/researchfunding/traincareer/pages/ advice.aspx#I Guide For Understanding NINDS Institutional Training Grant (T32) Applications And Their Review http://www.ninds.nih.gov/funding/areas/training_and_career_ development/T32_guide.pdf NIH Regional Grant Seminar, June 2014 Strategies to Develop a Strong Proposal 1. Start Early 2. Consider why a Training Grant is important 3. Be very sure there is a PROGRAM 4. Consider how your training is innovative 5. Complete tables before finalizing narrative 6. Read and respond to the review criteria 7. Explain, explain, explain. 8. Remember reviewers are expert faculty familiar with training NIH Regional Grant Seminar, June 2014 Preparing a Successful T32 Application Questions? [email protected] NIH Regional Grant Seminar, June 2014