Browsing by Author "Schnabel, Rose"

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    11039 Indiana CTSI High-School STEM Summer Research Program: Future opportunities from a 2020 virtual program
    (Cambridge University Press, 2021) Sanders, Elmer; Cruz, Leigh-Ann; Speidell, Emily; Schnabel, Rose; Balaji, Adhitya; Hogarth, Elise; Miller, Jade; Vaides, Sofia; Allen, Matthew R.; Medicine, School of Medicine
    ABSTRACT IMPACT: The Indiana Clinical and Translational Sciences Institute K-12 STEM Outreach Program’s pivoted to a virtual program in summer 2020 which yielded novel approaches that could be retained in future years to extend the reach/impact of our pipeline program. OBJECTIVES/GOALS: Provide students with a meaningful and safe research experience during the COVID Pandemic. Develop new modules and approaches that could be delivered virtually. Engage students from communities that were not possible in previous years when in person meetings were required. METHODS/STUDY POPULATION: The program has historically supported over 100 high school students per year in a summer research internship for the last 5 years. Students are placed with academic research mentors in various Schools and Departments across the IUPUI campus, and also with industry laboratories. COVID-related restrictions required development of 100% virtual program. Key aspects of the virtual program included: cohort-based research mentor assignments with 1-4 mentees matched per research mentor, research projects that could be conducted virtually, heavy engagement of high-school teachers to facilitate the research experience with cohorts of mentees, a more rigorous virtual seminar series that included new modules such as COVID-specific programming and thus enhancing public education about COVID. RESULTS/ANTICIPATED RESULTS: The program served 130 students in summer 2020. We were able to recruit new faculty and industry mentors involved in data science research. As a result, we have now increased our mentor pool to serve more students in the future. Because student participation was virtual, we were able to accept students from further distances (up to 120 miles away) across the state. We were also able to accept local economically disadvantaged students that may have not been able to participate because of lack of reliable transportation. A positive unanticipated outcome was that mentees relationships with the mentors was established virtually thus increasing the potential for students to remain engaged in their research. DISCUSSION/SIGNIFICANCE OF FINDINGS: Adapting to a virtual platform provided research experience to high school students during a time when traditional approaches were not possible. Given some research experiences do not require in-person activities, this newly established model could be used moving forward to allow more statewide engagement in research experiences.
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    Building a virtual summer research experience in cancer for high school and early undergraduate students: lessons from the COVID-19 pandemic
    (BMC, 2021-08-09) Corson, Timothy W.; Hawkins, Shannon M.; Sanders, Elmer; Byram, Jessica; Cruz, Leigh-Ann; Olson, Jacob; Speidell, Emily; Schnabel, Rose; Balaji, Adhitya; Ogbeide, Osas; Dinh, Julie; Hinshaw, Amy; Cummings, Laura; Bonds, Vicki; Nakshatri, Harikrishna; Ophthalmology, School of Medicine
    Abstract Background The COVID-19 pandemic posed a unique challenge for summer research programs in 2020, particularly for programs aimed at hands-on experience for younger trainees. The Indiana University Melvin and Bren Simon Comprehensive Cancer Center supports two pipeline programs, which traditionally immerse high school juniors, seniors, and early undergraduate students from underrepresented populations in science in hands-on projects in cancer biology labs. However, due to social distancing policies during the pandemic and reduction of research operations, these students were not physically allowed on campus. Thus, the authors set out to strategically pivot to a wholly virtual curriculum and evaluate the Virtual Summer Research Experience in Cancer outcomes. Methods The virtual program included four components: 1. a core science and professional development curriculum led by high school teachers and senior undergraduates; 2. faculty-delivered didactic sessions on cancer science; 3. mentored, virtual research projects with research faculty; and 4. online networking events to encourage vertical mentoring. Outcomes data were measured using a locally created 11-item Research Preparation Scale, daily electronic feedback, and weekly structured evaluation and feedback via Zoom. Results Outcome data suggested high self-reported satisfaction with the virtual program. Outcome data also revealed the importance of coordination between multiple entities for seamless program implementation. This includes the active recruitment and participation of high school teachers and further investment in information technology capabilities of institutions. Conclusions Findings reveal a path to educate and train high school and early undergraduate students in cancer research when hands-on, in-person training is not feasible. Virtual research experiences are not only useful to engage students during public health crises but can provide an avenue for cancer centers to expand their cancer education footprints to remotely located schools and universities with limited resources to provide such experiences to their students.