An Anatomy and Physiology Course for Engineers Involving the “Design” of Integrated, Anatomically Unique Creatures

Abstract

OverviewThis abstract focuses on a distinctive group project in an introductory anatomy and physiology course for upper‐year undergraduate and graduate engineering students.BackgroundEngineering students in the traditional fields of mechanical, chemical and electrical engineering solve problems and analyze systems by drawing upon fundamental knowledge in chemistry or physics, where processes tend to be well‐defined and well‐characterized. In the field of biology, processes may be characterized, but have a greater degree of variance and a nomenclature unfamiliar to many engineers. Learning the fundamentals of anatomy and physiology in the context of systems to understand, characterize, and design, can be helpful to engineers who lack a background in biology. Upper year engineers are also experienced working in groups as many courses require collaboration in design and would benefit from group work as it relates to anatomy and physiology.Objective and hypothesisThe objective of this course, and its core project, was to enable engineers to engage with anatomy and physiology content in a way that promoted their learning of the material, while utilizing their unique analytical approach and leveraging their advanced design and project management skills. We hypothesized that students would gain a deep understanding of anatomy and physiology through the design of a creature – building on their engineering skills and integrating their anatomy knowledge across the 11 human body systems.Project descriptionThe centerpiece of the project involved defining a creature that could survive in an environment of the students’ choosing. Each project group chose a body system, and collaborated with adjacent body systems to create one cohesive, integrated organism over the term. The project was executed in groups of 4‐5 students, including at least one graduate student. Deliverables consisted of a presentation, visual representation, written report, and individual reflection. All design choices needed to be scientifically consistent with anatomical and physiological systems. The visual representation could be a physical object, digital rendering, or drawing – anything that assisted in the understanding of the system and creature.Students were asked to consider the following key questions in order to promote the discovery of needs and requirements by the engineering students (part of the engineering design process). (1) What does the environment that the creature lives in look like? (2) What does a complex living organism with body systems look like in this environment? (3) What adaptations are needed by the creature for the environment that they live in? (4) How do the various body systems interact with each other?Project impactSince the project was one of fantasy, rooted in logical and scientifically sound justification, this allowed the engineers to think beyond the technical constraints that are usually imposed on them. Many groups were inspired by a variety of organisms and engineering systems. In their individual reflections, many students described the project to be creative, humorous, and challenging. They also described that the project enhanced their understanding of body systems and further developed their skills in coordination and communication (owing to coordination between groups when working on the integrated organism). Overall, this project provided an effective learning opportunity for the students and a memorable way to interact with this previously unfamiliar topic.