A consumer and laboratory devices approach to teaching principles and applications of Bioelectricity

Abstract

Courses in Bioelectricity, or similarly Bioelectric Phenomena, are taught within many undergraduate and/or graduate curricula in Bioengineering, Biomedical Engineering, and sometimes Electrical Engineering or Neurosciences. While most such offerings emphasize mainly the theoretical foundations of bioelectricity as applied to clinical devices and/or modeling of excitable cell function, we have supplemented this traditional approach in the course BME4504C at Florida Gulf Coast University through the incorporation of experiments and projects featuring consumer and laboratory devices. Featuring consumer devices available across the counter (e.g. percent body fat bioimpedance monitors or scales), or by prescription (e.g. transcutaneous electrical stimulation devices for pain suppression or muscle exercise), has helped students understand the widespread importance and application of bioelectric principles in device design beyond the hospital environment. Additionally, exposing students to selected laboratory instruments (e.g. electroporation systems) assists in emphasizing the applications of bioelectricity in fields such as biotechnology. The expense of incorporating consumer devices into a Bioelectricity course is low, and laboratory systems such as electroporation devices may already be in place in research labs. Student response to this approach to teaching Bioelectricity at the senior level of our undergraduate curriculum was very favorable in a first offering last year. This paper provides a summary of the course structure, content, projects and evaluation of assessment results from the first offering of this course with discussion also of additional project topics incorporated into the second offering. © American Society for Engineering Education, 2010.