We summarize national-scale data for Ph.D. earners in engineering or computer science from 2015 to 2019 whose post-graduate school employment is known, highlighting outcomes for biological/biomedical/biosystems engineering students. We use NSF's Survey of Earned Doctorates (SED), which has collected information from Ph.D. recipients in the USA…

Biomedical engineering (BME) undergraduate curricula have begun to address gaps in diversity, especially in response to the newly proposed ABET diversity, equity, and inclusion (DEI) criteria. However, there is a significant lack of teaching resources, and pedagogical training available for those interested in including DEI into their course…

Three-dimensional modeling and additive manufacturing technologies (i.e. 3D printing) have and will continue to revolutionize biomedical engineering. However, 3D printing within biomedical engineering contexts remains an area of limited focus within secondary education. Many secondary educators are not well prepared to teach about biomedical 3D…

While we all have our own circumstances and experiences, being able to empathize is critical to recognizing injustice and considering the viewpoints of others in the community. In the human-centric field of biomedical engineering (BME), empathy is imperative to creating inclusive devices or equipment that are equally accessible to all who need…

Various studies have shown the need for and importance of inclusion in an undergraduate student's campus experience, academic success and career development. The Biomedical Engineering (BME) Department organizes monthly department events, such as open house, internship and career workshops, Lunch and Learn with employers, and holiday parties.…

Programming and automation continue to evolve rapidly and advance the capabilities of science, technology, engineering, and mathematics (STEM) fields. However, physical computing (the integration of programming and interactive physical devices) integrated within biomedical contexts remains an area of limited focus in secondary STEM education…

This note is concerned with evaluation of location parameters for polytomous items in multiple-component measuring instruments. A point and interval estimation procedure for these parameters is outlined that is developed within the framework of latent variable modeling. The method permits educational, behavioral, biomedical, and marketing…

To support recent trends toward the use of patient-specific anatomical models from medical imaging data, we present a learning module for use in the undergraduate BME curriculum that introduces image segmentation, the process of partitioning digital images to isolate specific anatomical features. Five commercially available software packages were…

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…

A pilot experiment was developed in a Biomedical Sciences curricular unit to test how using a different knowledge-sharing method (World Café) in a Space for Active Learning and Teaching would affect students' engagement. Each working group was asked to prepare a poster summarising a different topic about the physiology of the oocyte. On the…

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…

Program evaluation for interventions aimed at enhancing diversity can fall short when the evaluation unintentionally reifies the exclusion of multiple marginalized student experiences. The present study presents a Quantitative Critical Race Theory (QuantCrit) approach to program evaluation to understand outcomes for Women of Color undergraduates…

Undergraduate laboratory courses are essential to teaching core principles in STEM. This course, Quantitative Biological Methods, provides a unique approach to teaching molecular biology research techniques to students, in a laboratory that is delivered in a sequence that parallels standard biomedical research laboratory protocols. Students attend…

Growth in the biomedical and biotechnology sectors requires a highly trained and highly skilled workforce to answer the next great scientific questions. Undergraduate laboratory courses incorporating hands-on training based in authentic research position soon-to-be graduates to learn in environments that mirror those of academic, industrial, and…

Novel biomaterial development is a rapidly growing field that is crucial because biomaterial fouling, due to rapid and irreversible protein adsorption, leads to cellular responses and potentially detrimental consequences such as surface thrombosis, biofilm formation, or inflammation. Therefore, biomaterial technology's fundamentals, like material…