Please note: not all courses are allowed for all campuses. Courses that have restrictions will be marked with the campus that does not allow it's students to take the course.
The course provides an overview of musculoskeletal anatomy, the mechanical properties and structural behavior of biological tissues, and biodynamics. Specific course topics will include structure and function relationships in tissues and organs...
This course introduces the student to the use of CAD for construction of basic shapes and multi-vie drawings. It is a project-oriented course introducing the student to graphic design using SolidWorks. Design, analysis and visualization of...
This course focuses of conceptualizing and developing medical devices, including research, clinical needs, engineering, and intellectual property. Students will explore and navigate the principles underlying the successes and challenges of medical...
Neural Engineering represents the intersection between neuroscience and the technologies designed to measure and modulate the nervous system. This course will review the fundamental principles of cellular and systems neuroscience in the peripheral...
Quantitative Physiology will provide learning opportunities for graduate students to understand and develop competencies in a quantitative, research oriented, systems approach to physiology. Systems examined may include cellular; musculoskeletal...
An aerosol is an assembly of particles suspended in a gaseous medium. They are omnipresent in our workplaces and outdoor environments. They include a wide range of phenomena such as dust, fume, smoke, mist, fog, haze, clouds and smog. Certain...
Tissue engineering utilizes engineering materials, cells, and other biochemical factors to develop and manipulate cells, tissues, or organs which can replace and/or support biological functions. In this course, we will explore the principles...
