Master's in Biomedical Engineering

The Curriculum

The MSE-Biomedical Engineering curriculum consists of the following:

  • foundation courses in human physiology to help students effectively communicate with health care professionals and apply advanced technological solutions to clinical problems;

  • engineering courses that apply engineering principles to problems in medicine and health;

  • medical device design and development courses to evaluate, design, and construct medical products;

  • research opportunities employing the methods for effectively translating ideas from concept to bedside.


Suggested Program Plan

Fall Semester 1

  • EGR 670 - Systems Physiology for Engineers
  • STA 615 - Design of Experiments for Engineers
  • EGR 604 - Implementation and Measurement

Winter Semester 1

  • EGR 503 - Medical Device Design
  • Electives
  • EGR 602 - Engineering and Society

Fall Semester 2

  • Electives
  • EGR 635 - Biomedical Signal Modeling
  • EGR 696 - Masters Thesis

Winter Semester 2

  • EGR 614 - Opportunity Identification
  • EGR 697 - Master's Thesis

Graduate Biomedical Engineering Electives

  • EGR 532 - Biomedical Imaging and Image Processing
  • EGR 533 - Electronic Instrumentation Bio
  • EGR 534 - Bioelectric Potentials
  • EGR 547 - Mechanics of Human Motion
  • EGR 553 - Biomaterials
  • EGR 565 - Computational Fluid Dynamics

Biomedical student on computer


Visit The Graduate School's Courses for Biomedical Engineering Emphasis page for additional information.