Experiential learning in biomedical engineering curricula is a critical component to developing graduates who are equipped to contribute to technical design tasks in their careers. This paper presents the development and implementation of an undergraduate and graduate-level soft material robotics design course focused on applications in medical…

Biomedical engineering is critical in improving people's lives through innovative solutions to biological and medical challenges. In the face of today's rapidly evolving climate, the field of biomedical engineering encounters numerous pressures that demand up-to-date skills and competencies. The (re-)development of curricula aligning with industry…

Entrepreneurial minded learning (EML) is a pedagogical technique that gives students the tools to identify opportunities, focus on impact, and to create value through their solutions. The entrepreneurial mindset builds upon three key elements: curiosity, connections, and creating value (3 Cs). A biomedical engineering course was developed using…

The value of generative AI tools in higher education has received considerable attention. Although there are many proponents of its value as a learning tool, many are concerned with the issues regarding academic integrity and its use by students to compose written assessments. This study evaluates and compares the output of three commonly used…

Promoting diversity in the scientific workforce is crucial for harnessing the potential of available talent and ensuring equitable access to Science, Technology, Engineering, Mathematics, and Medicine (STEM-M) careers. We have developed an innovative program called Postbaccalaureate Research Opportunity to Promote Equity in Learning (PROPEL) that…

A novel pre-doctoral program is presented that combines (1) immersive observation in the surgical/interventional theatre and (2) thought-provoking exposition activities focused on answering clinically provocative questions. While the long-term goal is to train engineers to conduct clinical translational research in human systems, in this paper,…

This paper examines the critical transition from undergraduate to graduate biomedical education and focuses on Hispanic/Latinx students who participated in a biomedical undergraduate research program at a Hispanic-Serving Institution located on the US-Mexico border. We use the community cultural wealth (CCW) framework to analyze 13 qualitative…

In order to provide undergraduate students with a full, rich online learning experience we adapted pre-existing online content including graduate courses from Johns Hopkins University Engineering for Professionals (JHU EP) program. These online courses were designed using published methodologies and held to a high level of rigor of a Masters-level…

An increasing body of knowledge points to the need for the integration of Justice, Equity, Diversity and Inclusion (JEDI)-based topics into undergraduate and graduate curricula. The Racial Justice and Equity, Diversity and Inclusion (REDI) committee designed and implemented a short activity in an introductory undergraduate biomedical engineering…

Researchers often invoke the metaphor of a pipeline when studying participation in careers in science, technology, engineering, and mathematics (STEM), focusing on the important issue of students who "leak" from the pipeline, but largely ignoring students who persist in STEM. Using interview, survey, and institutional data over 6 years,…

This study analyzed terminal degree and career choices of students who performed undergraduate research. In one analysis, the study compared terminal degree and career choices between a course-based undergraduate research experience (CURE) and traditional non-course-based undergraduate research experiences at one primarily undergraduate…