Students begin biomedical Ph.D. programs by participating in fundamental life science curricula in the first or second years; because of the advanced nature of the material, these classes can sometimes be taken from a medical school's curriculum. Incoming students need to have a bachelor's or master's degree in biology, mathematics or computer science. Most schools prefer students who have a strong interdisciplinary background or can demonstrate experience in interdisciplinary research. These skills are invaluable when students complete the doctoral dissertation requirements.
Ph.D. in Biomedical Engineering
A biomedical engineering Ph.D. program is a largely interdisciplinary field that will prepare students to work with teams of other specialists to create and evaluate systems that solve complex medical problems. Coursework in a biomedical engineering Ph.D. program can vary greatly depending on a student's chosen area of specialty, recommendations of advisors or advisement committees, research projects and school. Common course topics include:
- Biomedical imaging
- Molecular Biology
- Cardiovascular systems
Employment Outlook and Salary
Biomedical engineers earned a median annual salary of $86,220 in 2015, according to the U.S. Bureau of Labor Statistics (www.bls.gov). This career field is expected to grow 23% between 2014 and 2024, with approximately 5,100 new jobs being created. Graduates of a biomedical engineering program may find work within many industries, including:
- Medical equipment manufacturing
- Research and development
- Pharmaceutical manufacturing
Biology, mathematics and computer science students interested in the interdisciplinary applications of engineering, mathematics and technology to find solutions for medical problems may wish to pursue a Ph.D. in Biomedical Engineering.