Rapid advancements in bioengineering call for broad public literacy to help individuals better understand the changes these technologies bring to our lives. However, making bioengineering concepts accessible and relevant, especially to non-science majors, is often challenging. To address this challenge, we designed a general education course aimed…

In response to the growing computational intensity of the healthcare industry, biomedical engineering (BME) undergraduate education is placing increased emphasis on computation. The presence of substantial gender disparities in many computationally intensive disciplines suggests that the adoption of computational instruction approaches that lack…

Purpose: Engineering students gain confidence and competency through continual practice of key skills. The social cognitive theory construct of self-efficacy provides a useful measure to assess students' beliefs in their ability to succeed or perform tasks. Research focused on the impacts of curricular engineering design experiences on student…

Mental health is a rising concern in higher education, with increasing numbers of students experiencing mental health challenges. Stress is a common experience for undergraduate students and the first semester of college can be especially stressful for students as they navigate new coursework and surroundings and being without familiar supports.…

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…

Should your department offer a course on how to be a scientist and a successful graduate student? We offer this course at George Mason University as a mandatory part of the graduate curriculum, but this is not common practice for graduate biomedical engineering programs. Graduate education in biomedical engineering is evolving rapidly, with an…

Authored by six current and former Biomedical Engineering (BME) Master's Program Directors, this article aims to summarize the types of BME master's programs that are offered in the U.S., delve into the value of BME master's programs, and reveal concerns of BME master's students and directors that are exacerbated among international and…

Hands-on laboratory courses seldom appear in biomedical engineering (BME) graduate programs, thus limiting graduate students' ability to acquire wet laboratory skills like cell culturing. At large, BME graduate programs rely on ad hoc training provided by senior graduate students; however, this method cannot be extended to new or non-BME…

Clinical immersion programs provide opportunities for biomedical engineering (BME) students to observe the clinical environment and medical devices in use, often leading to the identification of unmet clinical needs. Due to hospital restrictions during the COVID-19 pandemic, in-person clinical immersion programs were generally not possible in…

In design-oriented biomedical engineering courses, some instructors teach need-driven methods for health technology innovation that use a "need statement" to reflect a student team's hypothesis about the most fruitful direction for their project. While need statements are of the utmost importance to the projects, we were not aware of any…

The Learning Assistant (LA) model trains undergraduate student leaders to enhance student learning and engagement by supporting the classroom with research-based instructional strategies. Many disciplines in the life sciences that implemented the LA model reported increased learning gains and decreased performance gaps. However, the model is…

We have implemented a jigsaw framework in our biomedical engineering capstone design course by overlaying strategic consideration groups across our design teams. Collaboration in design courses is usually focused within a design team with some peer feedback, but opportunities to work across teams are often limited. The purpose of this teaching tip…

Biomedical engineering is a broad and interdisciplinary field that prepares graduates for a variety of careers across multiple career sectors. Given this breadth, undergraduate degree programs often have formal or informal opportunities for students to further specialize within the biomedical engineering major to develop skills in subdisciplines…

Purpose: Hands-on training in tissue engineering is often associated with specialized labs and expensive equipment, such as CO[subscript 2] incubators. To minimize the use of costly commercial incubators and provide a more vivid engineering experience in a biology lab, we present a hands-on project that introduces medium to large groups of…

Clinical immersion experiences provide engineering students with opportunities to identify unmet user needs and to interact with clinical professionals. These experiences have become common features of undergraduate biomedical engineering curricula, with many published examples in the literature. There are, however, few or no published studies…