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…

Diversity in teams has been shown to enhance creativity and innovation, particularly in teams where all members felt a sense of belonging. Creating an inclusive environment in a lab setting that provides a sense of belonging to all is challenging. This is particularly true in a field like Biomedical Engineering/Bioengineering where diversity is…

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…

Biosimulation models are valuable, versatile tools used for hypothesis generation and testing, codification of biological theory, education, and patient-specific modeling. Driven by recent advances in computational power and the accumulation of systems-level experimental data, modelers today are creating models with an unprecedented level of…

Current engineering applications in the medical arena are extremely progressive. However, it is rather difficult for medical doctors and engineers to discuss issues because they do not always understand one another's jargon or ways of thinking. Ideally, medical engineers should become acquainted with medicine, and engineers should be able to…

Nanoscale science and engineering are disciplines that examine the unique behaviors and properties of materials that emerge at the size range of 1 to 100 nanometers (a billionth of a meter). Nanobiotechnology is a sub-discipline of nanoscience that has arisen more recently. Nanobiotechnology is already impacting the fields of healthcare and…

This paper describes an educational package for use in tertiary level tissue engineering education. Current learning science principles and theory were employed in the design process of these educational tools. Each module started with a challenge statement designed to motivate students and consisted of laboratory exercises centered on the "How…

Defines biological engineering and discusses why it is needed. Lists some interesting areas of biological engineering. Presents a table of four phases of scientific disciplines. (YP)

The intent of this book is to give the reader an insight into the possible reference sources available in the area known as science and technology. One purpose of this book is to allow the student of this literature to enter the maze of material without feeling unduly overwhelmed. The first chapter covers the history of science, specifically:…

This study reports on a multi-year effort to create and evaluate cognitive-based curricular materials for secondary school science classrooms. A team of secondary teachers, educational researchers, and academic biomedical engineers developed a series of curriculum units that are based in biomedical engineering for secondary level students in…