Hostname: page-component-cd9895bd7-gbm5v Total loading time: 0 Render date: 2024-12-26T16:45:07.606Z Has data issue: false hasContentIssue false

Inspiring diverse researchers in Virginia: Cultivating research excellence through a career-building program

Published online by Cambridge University Press:  22 January 2024

Lina V. Mata-McMurry
Affiliation:
integrated Translational Health Research Institute of Virginia (iTHRIV), University of Virginia, Charlottesville, VA, USA
Jennifer V. Phillips
Affiliation:
integrated Translational Health Research Institute of Virginia (iTHRIV), University of Virginia, Charlottesville, VA, USA
Sandra G. Burks
Affiliation:
integrated Translational Health Research Institute of Virginia (iTHRIV), University of Virginia, Charlottesville, VA, USA
Adam Greene
Affiliation:
Department of Pediatrics, University of Virginia, Charlottesville, VA, USA
Sana Syed*
Affiliation:
Department of Pediatrics, University of Virginia, Charlottesville, VA, USA
Karen C. Johnston
Affiliation:
integrated Translational Health Research Institute of Virginia (iTHRIV), University of Virginia, Charlottesville, VA, USA
*
Corresponding author: S. Syed, MD, MSCR, MSDS; Email: ss8xj@virginia.edu
Rights & Permissions [Opens in a new window]

Abstract

Historically underrepresented groups in biomedical research have continued to experience low representation despite shifting demographics. Diversity fosters inclusive, higher quality, and innovative team science. One avenue for diversifying research teams is integrating diversity-focused initiatives into Clinical and Translational Science Award (CTSA) Programs, such as the integrated Translational Health Research Institute of Virginia (iTHRIV). In 2020, iTHRIV participated in Building Up, developed by the University of Pittsburgh CTSA, and intended to increase representation and improve career support for underrepresented groups in the biomedical workforce. Drawing lessons from this study, iTHRIV implemented the “inspiring Diverse Researchers in Virginia” (iDRIV) program. This yearlong program provided education, coaching, mentoring, and sponsorship for underrepresented early career investigators in the biomedical workforce. To date, 24 participants have participated in the program across three cohorts. Participants have been predominantly female (92%), with 33% identifying as Hispanic/Latinx, 29% as Black, and 13% as Asian. Notably, 38% of scholars have subsequently achieved at least one accomplishment, such as receiving a local research honor or award and an extramural funding award from a foundation or federal agency. The iTHRIV iDRIV program serves as a model for providing career support to developing investigators from underrepresented backgrounds, with the overall goal of improving patient health.

Type
Special Communication
Creative Commons
Creative Common License - CCCreative Common License - BY
This is an Open Access article, distributed under the terms of the Creative Commons Attribution licence (http://creativecommons.org/licenses/by/4.0/), which permits unrestricted re-use, distribution and reproduction, provided the original article is properly cited.
Copyright
© The Author(s), 2024. Published by Cambridge University Press on behalf of Association for Clinical and Translational Science

Introduction

The lack of diverse representation in the biomedical research workforce is a critical issue that requires urgent attention and immediate resolution. The National Institutes of Health (NIH) definition of populations underrepresented in biomedical research encompasses individuals from certain racial and ethnic groups, individuals with disabilities, and individuals from socioeconomically disadvantaged backgrounds [1]. Despite the enduring efforts to diversify the field and the shifting US demographics, representation of diverse racial and ethnic groups in the nation’s scientific research faculty positions remains persistently low: only 4% are Black, 5% are Hispanic, 0.2% are Native Americans, and 0.1% are Native Hawaiian, compared to the White majority of 72% [2,Reference Valantine and Collins3]. Furthermore, the underrepresentation of individuals with disabilities persists, as evident in the persistently low and continually declining number of applicants and recipients with disabilities of NIH-funded grants [Reference Swenor, Munoz and Meeks4]. Similarly, students from low socioeconomic status backgrounds attain advanced degrees at disproportionately lower rates [5]. Like all underrepresented groups, they often face systemic barriers, limited opportunities for advancement, and implicit biases that hinder their progress in science, technology, engineering, and mathematics (STEM) careers. This underrepresentation perpetuates a cycle of limited role models and mentors for aspiring scientists from diverse backgrounds, further impeding the career journey of underrepresented individuals in biomedical research and contributing to the lack of diverse research teams in STEM [Reference Markle, Williams, Williams, deGravelles, Bagayoko and Warner6,Reference Campos, Wherry, Shin and Ortiz-Carpena7].

Diversity and research excellence are closely intertwined concepts. Diverse research teams are essential, as they bring together unique experiential backgrounds, perspectives, and problem-solving skills [8]. The collective knowledge within diverse teams helps mitigate unconscious biases, enhances creativity, offers a broader range of insights, and generates innovative ideas. Diverse teams lead to higher quality, more rigorous, impactful research, scientific innovation, and discovery [Reference Guterl9]. Furthermore, diverse research teams often better address the distinct health care needs of diverse patient populations [Reference Jackson and Gracia10Reference Hilton, Lunardi, Sreedharan, Goff, Batakji and Rosenberger12]. As such, embracing diversity in biomedical research can transform clinical approaches and enhance the relevance of research to the broader community.

The impact of diversifying the biomedical research workforce extends far beyond the research itself; it also directly improves patient care [Reference Hilton, Lunardi, Sreedharan, Goff, Batakji and Rosenberger12,Reference Traylor, Schmittdiel, Uratsu, Mangione and Subramanian13]. A workforce reflecting the diverse demographics of society enhances the ability to develop interventions and treatment strategies that are more effective and tailored to various populations [Reference Kreuter, Griffith and Thompson14,Reference Cohen, Gabriel and Terrell15]. Fostering the diverse perspectives that drive excellence in the research workforce will generate innovative approaches that will effectively address and eliminate health disparities while providing us with a deeper understanding of the biological, social, and environmental factors contributing to disease outcomes.

Implementing comprehensive and proactive solutions to improve diversity in the field is essential. Solutions include actively recruiting individuals with unique and different perspectives and experiences from underrepresented groups, providing equitable opportunities for training and career development, and fostering inclusive and supportive environments that value diversity [Reference McGee, Saran and Krulwich16,Reference Tabak and Collins17]. Additionally, efforts to dismantle systemic biases and discriminatory practices within the academic and medical sectors are crucial for creating a more inclusive and representative workforce [Reference Mezu-Ndubuisi18].

One avenue for implementing diversity-related initiatives focused on workforce development is to incorporate these into the existing framework of the NIH’s National Center for Advancing Translational Sciences (NCATS) Clinical and Translation Science Award (CTSA) Program. The CTSA program supports a national network of 62 academic health centers and institutions called “hubs.” These hubs provide resources and support to improve the translational research process, relying on a highly skilled, creative, and diverse translational science workforce [19]. The integrated Translational Health Research Institute of Virginia (iTHRIV) joined other CTSAs in 2019. It currently includes partners across Virginia, including the University of Virginia (UVA) (Northern and Central VA), Virginia Tech and Carilion Clinic (Southwestern VA), and Inova (Northern VA) [20]. In 2020, iTHRIV joined “Building Up,” a novel program developed by the CTSA hub at the University of Pittsburgh as part of a clinical research study. This program aimed to test a 12-month targeted Career Education and Enhancement for Research Diversity (CEED) intervention designed to build a community of brilliant and underrepresented scholars [Reference Abebe, Morone, Mayowski, Rubio and Kapoor21,Reference White, Proulx, Morone, Murrell and Rubio22]. While the results from the Building Up study have been previously presented (unpublished data) and publication is pending, it demonstrated an effective platform for diversifying the research workforce. The lessons learned from this research were subsequently implemented in iTHRIV’s “inspiring Diverse Researchers in Virginia” (iDRIV) program [23]. This yearlong program seeks to jump-start and drive the research journey of early career and aspiring faculty at UVA through education, coaching, mentoring, and sponsorship, designed to support researchers nationally underrepresented in clinical and translational science.

Here, we outline our strategy for the ongoing delivery of targeted career development support for promising early career clinical and translational scientists, emphasizing research excellence through embracing diversity. We describe the first 3 years of the program.

Methods

Drawing inspiration from the Building Up study and the CEED program, we tailored and implemented iDRIV at a single academic health system (UVA), closely focusing on our workforce’s specific needs and characteristics. An essential component of the program structure was the use of the near-peer mentor model. The near-peer mentor model was first implemented at the Walter Reed Army Institute of Research for undergraduate research experiences for students in STEM [Reference Anderson, Anderson and Tenenbaum24]. Near-peer mentors were typically individuals a few years ahead in their career journey and often shared similar backgrounds with their mentees. They experienced both sides of the mentor–mentee relationship, simultaneously advancing their professional paths while offering support, guidance, and relatable advice to their mentees in earlier stages of their careers [Reference Anderson, Anderson and Tenenbaum24,25]. A program director (SS) and a program manager (JVP) led the program.

Applicant eligibility criteria, recruiting, and application process

The iDRIV program was designed for early stage investigators committed to pursuing a career in clinical or translational research [26]. Eligibility criteria included candidates who were late prefaculty (fellows or postdocs) and early career faculty (clinical instructors, assistant professors, or early associate professors [<5 years]). While not used as part of the selection criteria, applications did have candidates self-identify whether they met the NIH definition for underrepresented individuals in biomedical research to better understand current diversity at our institution [1].

The applications for the first year of the program were aligned with the Building Up study. iTHRIV managed participant recruitment, conducting requests for applications via email outreach to UVA’s School of Medicine and its associated PhD listserv. This outreach targeted approximately 2,000 email recipients across 20 departments. Details regarding the application review and selection process for the study have been previously published and were managed by the University of Pittsburgh [Reference White, Proulx, Morone, Murrell and Rubio22].

In the subsequent years of the program, seven departments at UVA’s School of Medicine were invited annually by iTHRIV. Departmental Chairs distributed these invitations among their personnel, subsequently nominating applicants to the program. This recruitment strategy, involving a limited number of invited departments, was piloted to better comprehend the need, demand, and impact of the program.

Applicants were required to submit an application form through the Research Electronic Data Capture tool (REDCap) [Reference Harris, Taylor, Thielke, Payne, Gonzalez and Conde27] along with a recent curriculum vitae (CV) or an NIH biosketch. The application form collected demographic data (some questions were optional), contact information, educational background, current employment information, and specific mentor information. Additionally, we gathered data specific to the applicant’s research – such as their research focus, short- and long-term goals, and an outline of prospective challenges that might impact their research – and their expectations for the program (application form available as supplementary file). The iTHRIV and iDRIV directors and program manager reviewed applications to ensure applicants met eligibility criteria (Table 1).

Table 1. iDRIV applicant eligibility criteria

Program format and sessions outline

Selected iDRIV scholars participated in the yearlong program, with the first three cycles following the 2020–2021, 2021–2022, and 2022–2023 academic years. Each cycle began with individualized meetings between each scholar and the program near-peer mentor to identify and share resources that could help the scholar. 1.5-hour collaborative sessions were held monthly via Zoom. The Building Up cohort started with 12 sessions that included topics such as the importance of mentorship, promoting research on social media, organizational skills, wellness, and work–life balance, among others (Table 2). An additional three sessions were developed and added to subsequent cohorts to address the needs and feedback received from past participants. Sessions were a mix of presentations and panel discussions that encouraged interaction between the speakers, near-peer mentors, and scholars. In addition, the monthly collaborative iDRIV sessions were supplemented with an optional 6-week NIH proposal development training series. Each cycle included a networking session that allowed scholars to meet with UVA Health System and University leadership. These networking sessions facilitated an open discussion of the scholars’ research goals and allowed for the exchange of solutions to overcome potential barriers to success.

Table 2. Description of program sessions

Program evaluation

After completion of the program, an annual optional iDRIV program evaluation survey was distributed to participants. The survey contained a total of 13 questions. The first five questions (Fig. 1) evaluated participant satisfaction and were presented on a Likert scale (strongly agree, somewhat agree, neither agree nor disagree, somewhat disagree, and strongly agree). Eight open-ended questions inquired about any additional comments, what aspects of the program were most and least beneficial, and suggestions for the program in the future.

Figure 1. Annual iDRIV program evaluation survey. iDRIV = inspiring Diverse Researchers in Virginia.

As metrics of the scholars’ and overall program success, we gathered information on scholars’ accomplishments and publications for up to 3 years after their participation. Program data were collected using Qualtrics (Qualtrics, Provo, UT) or REDCap [Reference Harris, Taylor, Thielke, Payne, Gonzalez and Conde27]. Descriptive data analysis was prepared for this manuscript.

Results

Cohort One of the iDRIV program was launched in collaboration with the University of Pittsburgh as part of the Building Up study between October 2020 and July 2021. UVA School of Medicine departments (medicine, pathology, pediatrics, urology, neurology, surgery, and public health sciences) subsequently supported Cohort Two (October 2021–July 2022) and Cohort Three (October 2022–July 2023).

Applicants and scholars

The number of applicants for Cohort One has been previously published [Reference White, Proulx, Morone, Murrell and Rubio22]. A total of 16 applications were received for Cohorts Two and Three (nine and seven applicants, respectively), and all applicants met the eligibility criteria, subsequently being accepted into the program.

A total of 24 scholars were accepted into the three cohorts. Characteristics of iDRIV scholars are presented in Table 3. The overall cohort was 92% female, 33% Hispanic/Latinx, 54% White, 29% Black, and 13% Asian. Seventy-five percent of scholars (n = 18) were physician-scientists, and 25% (n = 6) were Ph.D. researchers. At the time of application, scholars were predominantly fellows/postdocs (54%) and assistant or associate professors (46%). Confirmation of early stage investigator status was determined not only by the scholar’s institutional position at the time of application but also by the number of years since the highest degree was achieved as defined by the NIH (median = 6 years) [26]. A summary of the scholars’ short and long-term goals is listed in Table 4. The most common goals at the time of application included publication of manuscripts as first or co-author, presentation at conferences or meetings, successful application for NIH career development awards (K), and successful application for NIH research project awards (R01).

Table 3. Cohort characteristics of the inspiring Diverse Researchers in Virginia (iDRIV) program

Table 4. Summary of scholar’s short- and long-term goals at application

* Multiple goals per applicants are indicated.

# Scholars specified goal of applying for K01, KL2, K23, K43, and K99/R00 pathway to independence award, postdoctoral fellowship (F32), and Research Training Grant (T32).

Sessions feedback

The program sessions were well-received overall. Cohorts Two and Three had the opportunity to identify additional session needs, and extra sessions were added to their cohorts. For instance, Cohort Three participants expressed a need for research methods and statistical skills. As a result, a session with resources addressing those needs was provided in that cycle. Cohorts One and Two did not have sessions on library services and resources, microaggressions, or biostatistics resources. Cohort Three did not have sessions on contract negotiating in academic medicine, wellness and work–life balance, or scholar presentations.

Evaluation survey results

The annual survey was distributed to Cohorts Two and Three (n = 16), while the Building Up survey results will be presented separately by the University of Pittsburgh CTSA. In total, 50% (n = 8) of iDRIV scholars responded to the annual survey (Cohort Two n = 5, Cohort Three n = 3).

The respondents to the annual survey (Fig. 2) overwhelmingly expressed their satisfaction with the program. They strongly agreed that the program was valuable (100%), found the facilitators (88%) and panelists (100%) of each session effective, considered the networking session an important component of the program (75%), and indicated a willingness to recommend this program to their colleagues (100%).

Figure 2. Annual iDRIV evaluation survey questions. iDRIV = inspiring Diverse Researchers in Virginia.

The open-ended questions revealed that the program was well-rounded, helpful, and provided the necessary resources for a future career in research. The iDRIV facilitators were commended for their outstanding performance, willingness to answer questions, and responsiveness. The panelists were praised for their relatability and unique perspectives on research. The networking sessions, where participants had the opportunity to meet with leadership, were found beneficial. However, one scholar recommended making the session format more informal to encourage open discussions, such as having small tables with food instead of one large conference room table.

Regarding the program’s future, 25% of participants recommended in-person sessions to allow for more interactions among scholars. In response to a question about the most beneficial session of the program, participants commented that all the sessions were beneficial, and the most beneficial sessions were as follows: “Orientation and Why Mentoring?” (25%), “Giving Effective Presentations” (25%), “Curriculum Vitae (CV), Biosketches, and Grant Submissions Process” (13%), “Getting Organized’ (13%), and “Goal Setting” (13%). Additionally, 88% of evaluation survey respondents expressed their intention to stay engaged in research in the future.

Scholars’ accomplishments

iDRIV scholars’ accomplishments as of August 2023 are presented in Table 5. We considered these as positive outcome measures of the program. In total, 38% (n = 9) of all scholars have achieved at least one accomplishment, and one was recognized for receiving three awards. The awards received included the UVA School of Medicine Team Science Award, UVA Department of Internal Medicine Fellow of the Year Award, and membership in the UVA Office of Faculty Affairs and Development Academy of Excellence in Education. These three awards recognized excellence in academic medicine and research.

Table 5. Accomplishments of iDRIV scholars per cohort

Across all three cohorts, four iDRIV scholars have received federal and institutional funding totaling $1,932,280 after participating in iDRIV. Furthermore, we used the average number of publications per cohort scholar per year as another measure of success, with an average publication rate for early stage investigators considered to be one to three papers per scholar per year [Reference Rørstad and Aksnes28]. Every cohort met this average of one to three papers published annually (Table 4). When evaluating this success metric, we did not factor in authorship position or journal quality.

Discussion

Diverse research teams bring forth new experiences and innovative ideas. However, biomedical research teams lack diversity, perpetuating a cycle of underrepresentation that continues to widen the gap. iTHRIV’s iDRIV program was developed to improve human health by diversifying the biomedical research workforce and providing career support to promising early career scholars who are historically underrepresented in research and translational science. We recognized the urgent need for such a program locally and successfully implemented it at UVA.

Though we do not have a comparison cohort, the success of iDRIV is evident in the achievements and publications of its scholars during and after the program. These achievements align with the key outcomes analysis of the CEED program [Reference Abebe, Morone, Mayowski, Rubio and Kapoor21]. The CEED program went a step further by comparing its participants with a control group and found that scholars were more likely to have peer-reviewed publications and receive career development awards or research project grants. However, these differences did not reach statistical significance.

iDRIV serves as a crucial pathway for our teams to reach the highest level of research excellence, ultimately leading to novel ideas for disease prevention, diagnosis, and treatment. We anticipate that iDRIV will lead to continued successes for our scholars, including but not limited to being provided with continued training opportunities such as the K12 scholars program or receiving an R01 or equivalent grant from the NIH or other governmental institutions. By fostering and graduating new investigators, the program has expanded the pool of diverse future research mentors and leaders, raising a more inclusive and representative biomedical workforce and generating a more substantial impact in our institution and beyond.

Program limitations

Limitations of our work include that this is a new program, and our sample is small and lacks long-term outcomes. Additionally, not all of our scholars have provided feedback so our results may be biased by the limited respondents. We do not have a comparison cohort, and selection bias could contribute to our scholar’s success. Since we have accepted all applicants who meet the eligibility criteria, systematic selection bias seems unlikely. It is possible, however, that department leaders have introduced bias by suggesting that only the most successful candidates apply or that most successful scholars are more likely to apply. By continuing to refine our outcome measures and track the successes of our programs, we will improve our ability to accurately assess how participation in iDRIV impacts scholars’ future careers.

One major limitation of this program is the lack of representation in the cohorts from specific groups such as American Indians or Alaska Natives and Native Hawaiians or other Pacific Islanders. As iDRIV directly recruits applicants from UVA, the cohorts roughly reflect UVA demographics. Thus, we are limited in our ability to recruit individuals who are underrepresented not just in NIH programs but who are underrepresented at this institution [29]. Notably, recent efforts have been undertaken by UVA to increase the representation of certain groups, such as American Indians, at the institution as a whole. To this end, UVA has recently established the role of tribal liaison to build relationships with local American Indian groups and encourage members to pursue education at UVA [30]. These initiatives aimed toward diversifying the University demographics will allow us to diversify our cohorts further and thus significantly improve the perspectives and training within our program.

Another limitation pertains to our application process and data collection. Although we request applicants to self-identify as an underrepresented group (yes/no question), we do not collect data on the distribution of disability or socioeconomic background of applicants. As a result, we cannot characterize scholars more specifically to determine if this program is effectively reaching individuals with diverse experiences. With this in mind, we are reviewing our process for potential improvement opportunities, such as expanding the self-identification questions. This will allow for a comprehensive view of diversity in our applicants and aid us in recruiting a more representative cohort.

In response to the recent affirmative action ruling by the Supreme Court, our eligibility criteria have been revised [31]. In the next cycle of applications, eligibility will not be assessed based on race in compliance with federal guidelines for college admissions. Instead of asking whether an applicant identifies as underrepresented, future applications will include a new question aimed at capturing candidates’ experiences, encompassing but not limited to their experiences related to being an underrepresented individual and how these experiences have influenced their abilities to contribute to the field.

Future directions

As we look to the future, we will continue to review our program design, implementation processes, sustainability plan, and impact to identify areas for improvement. We continue to capture input from our earlier cohorts and incorporate their feedbacks into our plans. Programmatic development is ongoing, and we will establish an external advisory committee to enhance the educational rigor of the program. We will incorporate in-person sessions to increase participant interaction. Recent additions include a complimentary leadership training program offered to iDRIV scholars. Additional funding sources will be identified to support and expand the program at UVA and extend the program to other iTHRIV partner institutions.

Finally, the lessons learned from iDRIV about diversifying the biomedical research workforce will be implemented to address diversity needs across other professional branches of the research workforce, including clinical research professionals and research administrators. Our application process will evolve to meet the legal requirements for all iTHRIV programs.

Conclusion

Establishing career-building programs that support an outstanding group of early career investigators with varied experiences is imperative for fostering biomedical research excellence. This can directly impact patient care and ensure a more representative and responsive workforce in alignment with our diverse population. The iTHRIV iDRIV program serves as just one model for such a program. Similar programs with novel approaches are warranted to improve diversity in biomedical research and the STEM workforce.

Supplementary material

The supplementary material for this article can be found at https://doi.org/10.1017/cts.2024.12.

Acknowledgments

We acknowledge the Institute for Clinical Research Education at the University of Pittsburgh Schools of the Health Sciences, along with the dedicated staff of the “Building Up” trial, for serving as the foundation for the development of the iDRIV program. A special note of appreciation to Dr Doris M. Rubio for her invaluable contributions.

Author contributions

Lina V. Mata-McMurry and Jennifer V. Phillips contributed equally to this work.

LM and JP were primary co-authors of the manuscript from the first draft to the final product. KJ, SS, JP, and SB contributed to the conception and adaptation of the iDRIV program. JP managed the program and was responsible for data collection. LM was in charge of data analysis and interpretation. LM, JP, KJ, SS, AG, and SB were responsible for critically revising the manuscript. All authors gave their final approval for the version to be published.

Funding statement

The program reported in this publication was supported in part by the National Center for Advancing Translational Sciences of the National Institutes of Health under Award Number UL1TR003015. The content is solely the responsibility of the authors and does not necessarily represent the official views of the National Institutes of Health. In addition, funding was provided by the Internal Medicine, Neurology, Surgery, Pathology, Pediatrics, Public Health Sciences, and Urology departments from the School of Medicine at University of Virginia.

Competing interests

The authors declare none.

Footnotes

a

These authors contributed equally.

References

National Institutes of Health (NIH). Populations Underrepresented in the Extramural Scientific Workforce. https://diversity.nih.gov/about-us/population-underrepresented. Accessed July 17, 2023.Google Scholar
National Science Foundation (NSF). Women, Minorities, and Persons with Disabilities in Science and Engineering. https://ncses.nsf.gov/pubs/nsf21321/data-tables. Accessed July 24, 2023.Google Scholar
Valantine, HA, Collins, FS. National institutes of health addresses the science of diversity. Proc Natl Acad Sci. 2015;112(40):1224012242. doi: 10.1073/pnas.1515612112.CrossRefGoogle ScholarPubMed
Swenor, BK, Munoz, B, Meeks, LM. A decade of decline: grant funding for researchers with disabilities 2008 to 2018. PLOS ONE. 2020;15(3):e0228686. doi: 10.1371/journal.pone.0228686.CrossRefGoogle ScholarPubMed
U.S. Department of Education. Advancing Diversity and Inclusion in Higher Education.; 2016. https://www2.ed.gov/rschstat/research/pubs/advancing-diversity-inclusion.pdf. Accessed August 1, 2023.Google Scholar
Markle, RS, Williams, TM, Williams, KS, deGravelles, KH, Bagayoko, D, Warner, IM. Supporting historically underrepresented groups in STEM higher education: the promise of structured mentoring networks. Front Educ. 2022;7:1–10. https://www.frontiersin.org/articles/10.3389/feduc.2022.674669 Google Scholar
Campos, JS, Wherry, EJ, Shin, S, Ortiz-Carpena, JF. Challenging systemic barriers to promote the inclusion, recruitment, and retention of URM faculty in STEM. Cell Host Microbe. 2021;29(6):862866. doi: 10.1016/j.chom.2021.04.001.Google Scholar
Diversity Matters | Diversity in Extramural Programs. https://extramural-diversity.nih.gov/diversity-matters. Accessed July 19, 2023.Google Scholar
Guterl, F. Diversity in science: Why it is essential for excellence. Scientific American. 2014. doi: 10.1038/scientificamerican1014-38.Google Scholar
Jackson, CS, Gracia, JN. Addressing health and health-care disparities: the role of a diverse workforce and the social determinants of health. Public Health Rep. 2014;129(1_suppl2):5761. doi: 10.1177/00333549141291S211.Google Scholar
Wilbur, K, Snyder, C, Essary, AC, Reddy, S, Will, KK, Saxon, Mary. Developing workforce diversity in the health professions: a social justice perspective. Health Prof Educ. 2020;6(2):222229. doi: 10.1016/j.hpe.2020.01.002.Google Scholar
Hilton, EJ, Lunardi, N, Sreedharan, R, Goff, KL, Batakji, M, Rosenberger, DS. Two sides of the same coin: addressing racial and gender disparities among physicians and the impact on the community they serve. Anesthesiol Clin. 2020;38(2):369377. doi: 10.1016/j.anclin.2020.01.001.Google Scholar
Traylor, AH, Schmittdiel, JA, Uratsu, CS, Mangione, CM, Subramanian, U. Adherence to cardiovascular disease medications: does patient-provider race/ethnicity and language concordance matter? J Gen Intern Med. 2010;25(11):11721177. doi: 10.1007/s11606-010-1424-8.CrossRefGoogle Scholar
Kreuter, MW, Griffith, DJ, Thompson, V, et al. Lessons learned from a decade of focused recruitment and training to develop minority public health professionals. Am J Public Health. 2011;101(S1):S188S195. doi: 10.2105/AJPH.2011.300122.Google Scholar
Cohen, JJ, Gabriel, BA, Terrell, C. The case for diversity in the health care workforce. Health Aff (Millwood). 2002;21(5):90102. doi: 10.1377/hlthaff.21.5.90.Google Scholar
McGee, R Jr, Saran, S, Krulwich, TA. Diversity in the biomedical research workforce: developing talent. Mt Sinai J Med J Transl Pers Med. 2012;79(3):397411. doi: 10.1002/msj.21310.Google Scholar
Tabak, LA, Collins, FS. Weaving a richer tapestry in biomedical sciences. Science. 2011;333(6045):940941. doi: 10.1126/science.1211704.CrossRefGoogle Scholar
Mezu-Ndubuisi, OJ. Unmasking systemic racism and unconscious bias in medical workplaces: a call to servant leadership. J Am Heart Assoc. 2021;10(7):e018845. doi: 10.1161/JAHA.120.018845.Google Scholar
Committee to Review the Clinical and Translational Science Awards Program at the National Center for Advancing Translational Sciences; Board on Health Sciences Policy; Institute of Medicine. In: Leshner AI, Terry SF, Schultz AM, et al., eds. The CTSA Program at NIH: Opportunities for Advancing Clinical and Translational Research (pp.1–5). Washington (DC): National Academies Press (US); 2013; Summary. https://www.ncbi.nlm.nih.gov/books/NBK169198/.Google Scholar
Johnston K. The integrated Translational Health Research Institute of Virginia (iTHRIV): Using Data to Improve Health. RePORT. https://reporter.nih.gov/search/j7ib5R_BBUWEXsrn2K-lZw/project-details/9831227. Accessed July 24, 2023.Google Scholar
Abebe, KZ, Morone, NE, Mayowski, CA, Rubio, DM, Kapoor, WK. Sowing the “CEED”s of a more diverse biomedical workforce: the career education and enhancement for health care research diversity (CEED) program at the university of Pittsburgh. J Clin Transl Sci. 2019;3(1):2126. doi: 10.1017/cts.2019.364.Google Scholar
White, GE, Proulx, CN, Morone, NE, Murrell, AJ, Rubio, DM. Recruiting underrepresented individuals in a double pandemic: lessons learned in a randomized control trial. J Clin Transl Sci. 2021;5(1):e185. doi: 10.1017/cts.2021.843.Google Scholar
NASPGHAN annual meeting abstracts. J Pediatr Gastroenterol Nutr. 2022;75(S1):S1S505. https://journals.lww.com/jpgn/Fulltext/2022/10001/NASPGHAN_Annual_Meeting_Abstracts.1.aspx.Google Scholar
Anderson, MK, Anderson, RJ, Tenenbaum, LS, et al. The benefits of a near-peer mentoring experience on STEM persistence in education and careers: a 2004-2015 study. J STEM Outreach. 2019;1(1):18. https://www.academia.edu/53390752/The_Benefits_of_a_Near_Peer_Mentoring_Experience_on_STEM_Persistence_in_Education_and_Careers_A_2004_2015_Study Google Scholar
DoD STEM. What is Near-Peer Mentoring? https://dodstem.us/meet/blog/entries/what-is-near-peer-mentoring/. Accessed August 3, 2023.Google Scholar
National Institutes of Health (NIH). Early Stage Investigator (ESI) Policies. https://grants.nih.gov/policy/early-stage/index.htm. Accessed August 4, 2023.Google Scholar
Harris, PA, Taylor, R, Thielke, R, Payne, J, Gonzalez, N, Conde, JG. Research electronic data capture (REDCap)—A metadata-driven methodology and workflow process for providing translational research informatics support. J Biomed Inform. 2009;42(2):377381. doi: 10.1016/j.jbi.2008.08.010.Google Scholar
Rørstad, K, Aksnes, DW. Publication rate expressed by age, gender and academic position – a large-scale analysis of norwegian academic staff. J Informetr. 2015;9(2):317333. doi: 10.1016/j.joi.2015.02.003.Google Scholar
UVa Diversity Dashboard. https://diversitydata.virginia.edu/. Accessed August 31, 2023.Google Scholar
UVA’s New Tribal Liaison Uses the Past To Understand the Present. UVA Today. Published July 14, 2023. https://news.virginia.edu/content/uvas-new-tribal-liaison-uses-past-understand-present. Accessed August 31, 2023.Google Scholar
Supreme Court of the United States. Students for Fair Admissions, Inc. V. President And Fellows Of Harvard College. https://www.supremecourt.gov/opinions/22pdf/20-1199_hgdj.pdf. Accessed August 22, 2023.Google Scholar
Figure 0

Table 1. iDRIV applicant eligibility criteria

Figure 1

Table 2. Description of program sessions

Figure 2

Figure 1. Annual iDRIV program evaluation survey. iDRIV = inspiring Diverse Researchers in Virginia.

Figure 3

Table 3. Cohort characteristics of the inspiring Diverse Researchers in Virginia (iDRIV) program

Figure 4

Table 4. Summary of scholar’s short- and long-term goals at application

Figure 5

Figure 2. Annual iDRIV evaluation survey questions. iDRIV = inspiring Diverse Researchers in Virginia.

Figure 6

Table 5. Accomplishments of iDRIV scholars per cohort

Supplementary material: File

Mata-McMurry et al. supplementary material

Mata-McMurry et al. supplementary material
Download Mata-McMurry et al. supplementary material(File)
File 385 KB