There is a need for novel teaching approaches to train biomedical engineers that are conversant across disciplines and have the technical skills to address interdisciplinary scientific and technological challenges. Here, we describe a graduate-level miniaturized biomedical device engineering course that has been taught over the last decade in…

Biomedical engineering capstone design courses provide a salient opportunity to discuss ethical considerations in engineering. As technology and society develop and change, new challenges constantly arise related to how society and technology inform each other. In this space, ethical training for engineering students is critically important for…

Successful translation of medical devices requires a clear pathway through the business environment, including regulatory obligations and the protection of intellectual property. Introducing these topics can be challenging for biomedical engineering programs, as students prefer hands-on activities and retain concepts best when directly applied to…

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…

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…

A challenge in building the biomedical engineering human factors course at Malawi University of Business and Applied Sciences was integrating meaningful direct experiences with medical products. The instructor also noticed a significant gap between the topics in the course and their surrounding clinical context, a low-income setting. Recognizing…

The purpose of this study is to investigate the relationship between students' patterns of reflective thinking and their performance in solving design problems. Reflective thinking is a critical element in the process of solving ill-defined design problems. Many educators are dedicated to finding ways to promote students' reflection. Yet few…

Biomimicry is a useful method to develop students' skills, such as design and systems thinking, particularly when complemented with inquiry-based learning. The research seeks to uncover how students engage in the biomimicry process and what types of designs they produce to reveal insights that could assist educators in teaching biomimicry. A study…

Ongoing technological progress in measurement systems triggered the development of an in­novative, hands-on teaching program to help students toward a fuller understanding of recent changes in the field. This paper presents a lab project that links theoretical principles with the practical issues of signal conditioning systems. This is…

Engineering is one of the most global professions, with design teams developing technologies for an increasingly interconnected and borderless world. In order for engineering students to be proficient in creating viable solutions to the challenges faced by diverse populations, they must receive an expe­riential education in rigorous engineering…

Described herein is a science, mathematics, engineering, and technology (STEM) secondary lesson created by graduate engineering student Safa Herfat, with modifications by her co-authors. The lessons learned from this case study are explored through an explanation of tolerance, a description of the lesson, the results obtained, and participant…