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…

E-learning modules were developed to enhance student engagement, reflection and interdisciplinary learning in Pathology courses undertaken by students from the Biomedical Science, Allied Health, and Complementary Medicine disciplines. The modules focused on generating multi-disciplinary and team-based solutions to diagnosis, prognosis and…

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…

The design of biological systems is a multidisciplinary activity in which biomedical engineers collaborate to build novel biological systems that address society's needs. One of the most relevant skills for designing biological systems is engineering systems thinking (EST). Among the EST elements, the EST cognitive competencies are comparatively…

Low-dimensional materials especially graphene-based are of high interest to a broad community. One of the most fundamental aspects in the biomedical field is material characterization, which helps understand their property and tune for application. Though the existing teaching curricula are well standardized to include basic principles and…

The interaction of proximate research universities is a multifaceted and increasingly relevant phenomenon in today's higher education landscape. The three essays herein add to science policy and innovation literature by exploring the challenges, opportunities, and expectations that arise when multiple universities operate in a region. The first…

Translational medicine (TM) is an interdisciplinary branch of biomedicine that bridges the gap from bench-to-bedside to improve global health. Fundamental TM skills include interdisciplinary collaboration, communication, critical thinking, and creative problem-solving (4Cs). TM is currently limited in undergraduate biomedical education programs,…

Contribution: This article presents the innovative prototypes used in materials and fabrication technologies in medical devices (MFTIMD) laboratory course, under the curriculum of Biomedical (BME) and Electrical Engineering (EE) undergraduate studies. A special part of the course is devoted to state-of-the-art topics, such as flexible and wearable…

This laboratory exercise integrates chemistry and biology concepts to give third/fourth-year undergraduate students an opportunity to apply knowledge from different subject areas to address a real-world biomedical issue such as pathogen inhibition using composite materials. It involves the preparation of a bacteria-derived cellulosic biopolymer…

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…

Best practices in Biomedical Engineering education seek to connect classroom knowledge to practical applications. MIT's Medical Device Design course is comprised of in-class didactics, individual laboratory assignments, and a semester-long, team- based design and prototyping challenge, based in real unmet biomedical need. Students in the course…

Biomedical engineering (BME) undergraduate students take courses that allow them to develop skills in multiple disciplinary areas (e.g., biology, medicine, chemical, mechanical, electrical engineering) and as such, have a wide array of career opportunities available to them upon graduation. While their broad curricular exposure lends itself to…

Biological systems exhibit strong dynamic variations; for example, a system may have a tendency towards either a steady state, periodic behaviour or chaotic oscillations. These findings, explained by dynamic systems theory, have allowed researchers to formally relate a wide variety of systems, such as the theory of rumour propagation, glucose…

While biomedical and life science research have embraced interdisciplinarity as the means to solving pressing 21st century complex challenges, interdisciplinarity in undergraduate education has been more difficult to implement. As a consequence, disciplinary rather than interdisciplinary capstones have become ubiquitous. Disciplinary capstones are…

The expansion of ethics review, beyond its origins in medical research, is the subject of growing critical analysis internationally, especially from social science researchers. Our study builds on this analysis by considering ethics review specifically within tertiary-based educational research. As a foundation for a larger study, we explore the…