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   Abstract Health care delivery is undergoing an accelerated period of digital transformation, spurred in part by the COVID-19 pandemic and the use of “virtual-first” care delivery models such as telemedicine. Medical education has responded to this shift with calls for improved digital health training, but there is as yet no universal understanding of the needed competencies, domains, and best practices for teaching these skills. In this paper, we argue that a “digital determinants of health” (DDoH) framework for understanding the intersections of health outcomes, technology, and training is critical to the development of comprehensive digital health competencies in medical education. Much like current social determinants of health models, the DDoH framework can be integrated into undergraduate, graduate, and professional education to guide training interventions as well as competency development and evaluation. We provide possible approaches to integrating this framework into training programs and explore priorities for future research in digitally-competent medical education. 

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   null (Ed.)

   Student participation in undergraduate research programs has been linked to improved content knowledge, skills, and confidence. However, few research opportunities exist for community college students. This study explores the positive effects of a summer research program on three diverse cohorts of such students. The Transfer-to-Excellence Research Experiences for Undergraduate program is a hands-on summer research internship for California community college students. The program seeks to inspire students to complete a Bachelor's degree in science or engineering and primarily serves identities underrepresented in those fields. Analysis of mixed methods evaluation data shows that after participating in the program, community college students were better able to find scholarly resources, design ethical scientific experiments, conduct independent research, and analyze data. Additionally, participation in the program enhanced students' science identity and confidence to pursue further education and careers in science and engineering fields. 

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   This paper summarizes five critical aspects of problem-solving competency for engineers in medicine, including the balance of depth and breadth, research capability, ideation skills, teamwork, and communication skills. Furthermore, the paper outlines the imperatives for enhancing undergraduate engineering education to cultivate problem-solving competency. An interdisciplinary approach to education in medical engineering can cultivate students to develop a holistic view of the field and equip them with a broad range of skills for problem-solving. 

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   Student research in STEM education is an important learning component for both undergraduate and graduate students. It is not sufficient for students to learn passively in lecture-based classrooms without engaging and immersing themselves in the educational process through real-world research learning. Experiential learning for STEM students can involve conducting research, alongside and through the guidance of their professors, early in a student’s undergraduate or graduate program. The authors consider such experiences to be the hallmark of a high-quality STEM education and something every student, undergraduate and graduate, should have during the course of their programs. The purpose of this case study is to document the faculty authors’ experiences in student-faculty research and provide guidance and recommendations for best practices based upon the authors’ experience, data, and literature findings. Moreover, the study presents the experience of the faculty authors’ international student researchers in STEM with focus on two student researchers, one undergraduate and one graduate, who are international STEM. The students served as co-authors on this project. Findings from this case study indicate that students were highly engaged in the research process and found these skills valuable preparation for further study and career. Moreover, the students expressed enthusiasm and engagement for the research process. 

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   Supported by the National Science Foundation's Improving Undergraduate STEM Education: Hispanic-Serving Institutions (IUSE-HSI) Program, a collaborative summer research internship initiative united a public four-year institution with two local community colleges to offer community college students significant engineering research opportunities and hands-on experiences. In summer 2023, four students from the community college in computer science and engineering participated in a eight-week research internship project in a research lab at the four-year university. This internship project aimed to develop and implement of real-time computer vision on energy-efficient cortex-m microprocessor. This projet explores a unique approach to engage community college students in the realm of artificial intelligence research. By focusing on the development and implementation of real-time computer vision on energy-efficient Cortex-M microprocessors, we offer a practical and educational avenue for students to delve into the burgeoning field of AI. Through a combination of theoretical understanding and practical application, students are empowered to explore AI concepts, gain proficiency in low-power computing, and contribute to real-world AI projects. Furthermore, the project offered student interns a valuable opportunity to refine their research capabilities, particularly in the realms of scientific writing and presentation, while simultaneously boosting their self-assurance and enthusiasm for pursuing STEM careers in the field of AI. 

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