District of Columbia PhD Biomedical Engineering Campus Programs | BME PhD Degrees
PhD Biomedical Engineering (BME PhD) Campus Programs integrate sophisticated engineering principles with the study of biology, computer science, advanced mathematics and medicine. PhD Biomedical Engineering programs are research-intensive, and conclude with a dissertation, based on original research. The differentiation between biological engineering and biomedical engineering may need clarification, as many universities loosely use the terms "bioengineering" and "biomedical engineering" interchangeably.
PhD Biomedical Engineering Campus Programs Overview
PhD Biomedical engineering and bioengineering programs are accredited by ABET. Usually, admission to a PhD program in Biomedical Engineering requires students to have earned a Bachelor’s or Master’s degree in biology, mathematics, engineering or computer science.
Often, while taking courses for their PhD, students perform lab rotations and arrange for a research assistantship or hands-on teaching experience. Students may be trained to become leaders in research and innovation in industrial and university settings.
Why Earn a PhD in Biomedical Engineering On-campus?
Campus-based Biomedical Engineering PhD programs offer students the opportunity to network with classmates and brilliant minds from other faculties, as well as interact with their professors and advisors in real-time. Furthermore, some PhD Biomedical Engineering programs require students to gain teaching experience; what better way than to become a teaching assistant in your own university!
While distance-learning is traditionally viewed as the ‘convenient’ learning format, effectively this is a personal decision. For some it can be very convenient to have access to the college facilities such as libraries and laboratories in the same place as you attend your seminars.
Find Campus PhD Biomedical Engineering
Programs using the search tools on GradSchools.com. The city, state, and country tabs can be used to locate graduate schools, then you can decide whether you want to study locally or relocate. Some of the listings might include Biomedical Engineering PhD, Bioresource Engineering PhD and Biomedical Informatics PhD.
PhD Biomedical Engineering Program Tracks
PhD Biomedical Engineering programs do vary, although it is common that a university will have students enter a “track” that represents the research areas that the university is known for. This also gives BME PhD students the opportunity to develop expertise.
Some of these areas of specialization might include:
- Neural Engineering
- Rehabilitation Engineering
- Regenerative Medicine and engineering
PhD Biomedical Engineering Potential Program Curriculum
Students typically begin Biomedical Engineering PhD programs by participating in essential life science curricula in the first or second years; because of the advanced nature of the course material, these classes can sometimes be available from a medical school's curriculum. Most schools prefer students who have a strong interdisciplinary background or can demonstrate experience in interdisciplinary research. Often Biomedical Engineers work with teams of other specialists to create and evaluate systems that solve complex medical problems.
Coursework in a PhD in Biomedical Engineering program can vary depending on a student's chosen area of specialty, recommendations of advisors or advisement committees, research projects and school. Common course topics often include:
- Biomedical imaging
- Advanced Mathematics
- Molecular Biology
- Grant writing / oral presentation
What Qualities Does It Take To Become a Biomedical Engineer?
Analytical skills. For instance, a Biomedical Engineers must be able to analyze the needs of patients and customers in order to design appropriate solutions.
Communication skills. Biomedical engineers sometimes work with patients and frequently collaborate with other professionals; they must be able to express themselves clearly. Sometimes these skills are developed in a PhD Biomedical Science program, as students must effectively defend their dissertation in public.
Creativity. Biomedical engineers are innovators.
Math skills. Biomedical engineers use the principles of calculus, advanced topics in mathematics, as well as statistics, for analysis, design, and troubleshooting in their work.
Problem-solving skills. Biomedical engineers generally deal with and solve problems in sophisticated biological systems.
Ready to Pursue a PhD in Biomedical Engineering?
Earning a PhD in Biomedical Engineering indicates your expertise and may prepare you to work in a variety of potential roles from Biomedical Engineering Director, to professor or Research engineer. Biomedical engineers held about 22,100 jobs in 2014, and according to the BLS, employment will grow by 23% between 2014 and 2024. Why not prepare yourself to meet this trend by looking into graduate schools with top notch Doctoral programs in the field on GradSchools.com today!
Sources: bls.gov/OOH/architecture-and-engineering/biomedical-engineers.htm | onetonline.org/link/summary/17-2031.00
- Washington, DCWashington, DC
The Catholic University of America
Graduate programs in the school of engineering emphasize both theory and application of advanced engineering principles. The goal of the school is to produce professional engineers, scientists and researchers who can contribute significantly to society...
- Washington, DCWashington, DC
The George Washington University
The Department offers the BS, MS and PhD degrees in biomedical engineering, and is a hub for BME in SEAS. It is strongly collaborative in both education and research, engaging faculty across the School and University, and in the DC region, while leverag...