Evolution of a functional taxonomy of career pathways for biomedical trainees

Mathur, Ambika; Brandt, Patrick D.; Chalkley, Roger; Daniel, Laura L.; Labosky, Patricia A.; Stayart, C. Abigail; Meyers, Frederick J.

doi:10.1017/cts.2018.22

Cited by 18 publications

(19 citation statements)

References 16 publications

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“…With increasing calls for transparency of reporting career outcomes [ 3 – 6 ], some academic institutions posted their outcomes data publicly [ 7 – 11 ]; however, it quickly became apparent that these institutions were using a variety of taxonomies to define the same job sectors, types and functions, making it difficult to aggregate data to report collective career trends nationally. A number of groups, including members of the National Institutes of Health Broadening Experiences in Scientific Training (NIH-BEST) grantee consortium, Association of American Medical Colleges’ Graduate Research Education and Training (AAMC GREAT) group, and Rescuing Biomedical Research (RBR), therefore came together in 2017 and proposed a common three-tier taxonomy to standardize these classifications: Tier 1 includes five Employment Sectors, Tier 2 five Career Types, and Tier 3 26 Job Functions [ 12 ], and as shown in S1 Table .…”

Section: Introductionmentioning

confidence: 99%

“…We used the career in which the alumnus was engaged at the point in time of the data collection and “binned” these data in aggregate for alumni based on number of years from graduation (0–5 years; 6–10 years; and 10–15 years post-graduation). These aggregated career outcomes data were then classified per the unified three-tier taxonomy [ 12 ], and used to ask the following questions: (a) in which Employment Sectors, Career Types, and Job Functions are WSU’s alumni engaged; (b) is there a distinction between the types of careers pursued based on gender, race and U.S. citizenship status of alumni; and (c) is there a correlation of career outcomes with academic characteristics such as GRE scores, doctoral GPA, and Time-to-PhD Degree completion? To our knowledge, this is the first comprehensive report examining the demographics and academic preparedness of biomedical doctoral alumni as they relate to short and long-term career outcomes.…”

Section: Introductionmentioning

confidence: 99%

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Visualization of gender, race, citizenship and academic performance in association with career outcomes of 15-year biomedical doctoral alumni at a public research university

et al. 2018

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It has long been thought that biomedical doctoral students pursue careers primarily as tenure-track/tenured faculty at research institutions. Recent reports showed, however, that the majority of biomedical doctoral alumni engage in a variety of careers. Wayne State University (WSU) undertook a project to understand the career trajectories of its biomedical doctoral alumni to create programs to better prepare its students for careers in multiple pathways. Data were collected on career outcomes of WSU’s biomedical doctoral alumni who graduated in a 15-year period from 1999–2014. Careers were classified into three tiers by Employment Sector, Career Types and Job Functions and career paths were examined by alumni gender, race, U.S. citizenship status, and association with certain academic characteristics. Several statistically significant differences in career paths among all demographics were found. For example, women were more likely to be in teaching and providing healthcare, men in faculty and research; Black alumni pursued careers in Government at higher rates and Whites in For-Profit careers; Asians and non-U.S. citizens spent more time in training positions than others. There was no association of academic characteristics such as GRE, GPA, and Time-to-Degree completion with careers in the two largest sectors of Academia or For-profit. Since our trainees are engaged in this rich variety of careers essential to advancing biomedical science and research nationally, it is imperative for the graduate training community to embrace all careers as successful, and transform the model for biomedical doctoral training to foster student success across this broad career spectrum.

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Section: Introductionmentioning

confidence: 99%

Section: Introductionmentioning

confidence: 99%

Visualization of gender, race, citizenship and academic performance in association with career outcomes of 15-year biomedical doctoral alumni at a public research university

et al. 2018

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“…Concern over extended time to degree for those who participate in professional development events, including internships, seems to be unfounded (Schnoes et al, 2018; Cornell University, Rutgers University, University of Chicago, University of North Carolina, Vanderbilt University, Virginia Tech, unpublished results). In fact, spending time exploring and preparing for careers can increase the motivation to complete graduate or postdoctoral training, resulting in a greater focus on research progress (Mathur et al, 2018;Watts et al, 2019;UNC, unpublished data). Efforts to build faculty support can be achieved through broadly sharing doctoral career outcomes with faculty to enhance their awareness of careers that PhD graduates are actually pursuing.…”

Section: Key Factors For Shaping Institution-specific Approachesmentioning

confidence: 99%

Applying Experiential Learning to Career Development Training for Biomedical Graduate Students and Postdocs: Perspectives on Program Development and Design

Wart

O'Brien

Varvayanis

et al. 2020

LSE

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“…In response to the current lack of career outcome visibility, organizations and funding agencies have made concerted efforts to encourage and support institutional commitment to public sharing of career outcomes data. Many groups have called for institutional transparency in career outcomes for PhD-trained scientists, including, but not limited to: the National Institutes of Health (NIH) 1 , the Future of Bioscience Graduate and Postdoctoral Training (FOBGAPT) conferences I & II 2,3 , Rescuing Biomedical Research (RBR) 4,5 , Future of Research (FoR) 6 , the UW-Madison Workshop 7 , the National Institute of Health Broadening Experiences in Scientific Training (BEST) Consortium 8,9 , the Coalition for Next Generation Life Science (NGLS Coalition) 10 , Council of Graduate Schools (CGS) 11 , the Association of American Universities (AAU) 12 , the Association of American Medical Colleges (AAMC) 13 , and the National Academy of Sciences 14,15 . Many institutions are now publicly sharing their alumni career outcomes data on websites and in publications 8, [16][17][18][19] .…”

Section: Introductionmentioning

confidence: 99%

Applying inter-rater reliability to improve consistency in classifying PhD career outcomes

et al. 2020

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Background: There has been a groundswell of national support for transparent tracking and dissemination of PhD career outcomes. In 2017, individuals from multiple institutions and professional organizations met to create the Unified Career Outcomes Taxonomy (UCOT 2017), a three-tiered taxonomy to help institutions uniformly classify career outcomes of PhD graduates. Early adopters of UCOT 2017, noted ambiguity in some categories of the career taxonomy, raising questions about its consistent application within and across institutions. Methods: To test and evaluate the consistency of UCOT 2017, we calculated inter-rater reliability across two rounds of iterative refinement of the career taxonomy, classifying over 800 PhD alumni records via nine coders. Results: We identified areas of discordance in the taxonomy, and progressively refined UCOT 2017 and an accompanying Guidance Document to improve inter-rater reliability across all three tiers of the career taxonomy. However, differing interpretations of the classifications, especially for faculty classifications in the third tier, resulted in continued discordance among the coders. We addressed this discordance with clarifying language in the Guidance Document, and proposed the addition of a flag system for identification of the title, rank, and prefix of faculty members. This labeling system provides the additional benefit of highlighting the granularity and the intersectionality of faculty job functions, while maintaining the ability to sort by - and report data on - faculty and postdoctoral trainee roles, as is required by some national and federal reporting guidelines. We provide specific crosswalk guidance for how a user may choose to incorporate our suggestions while maintaining the ability to report in accordance with UCOT 2017. Conclusions: Our findings underscore the importance of detailed guidance documents, coder training, and periodic collaborative review of career outcomes taxonomies as PhD careers evolve in the global workforce. Implications for coder-training and use of novice coders are also discussed.

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Evolution of a functional taxonomy of career pathways for biomedical trainees

Cited by 18 publications

References 16 publications

Visualization of gender, race, citizenship and academic performance in association with career outcomes of 15-year biomedical doctoral alumni at a public research university

Visualization of gender, race, citizenship and academic performance in association with career outcomes of 15-year biomedical doctoral alumni at a public research university

Applying Experiential Learning to Career Development Training for Biomedical Graduate Students and Postdocs: Perspectives on Program Development and Design

Applying inter-rater reliability to improve consistency in classifying PhD career outcomes

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