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Biomedical Degree Program Information

Biomedical degree programs are available at the undergraduate and graduate levels. They include instruction in biomedical science, biomedical engineering, or bio-informatics.

Essential Information

Often, aspiring physicians and medical professionals participate in undergraduate biomedical science coursework. Such education might serve as preparation for medical school. Master's degree programs and doctoral programs are also available for students who want to become biomedical researchers, teachers, and scholars.

  • Program Levels in Biomedical Degrees: Associate degree; Bachelor's degree; Master's degree; Doctorate
  • Prerequisites: High school diploma or GED (associate and bachelor's); SAT or ACT scores; Letter(s) of recommendation; Personal essay; Bachelor's degree (master's); MCAT or GRE scores (master's); Doctorate degrees prefer undergraduate degrees in science fields
  • Other Requirements: Internships and lab work required; Capstone project; Thesis paper (master's)

Associate Degree in Biomedical Engineering Technology

Individuals enrolled in a biomedical engineering technology program at the associate degree level learn to build, assess, and maintain diagnostic medical equipment. Students work with computers, electronics, and applied mathematics. They develop critical-thinking abilities as well as communication skills. Graduates may opt to progress to an advanced degree program or seek entry-level careers in the field, such as medical supply repair. Associate degree students learn through lab work and often participate in internship opportunities. Students are generally required to maintain a 2.0 GPA or higher for successful completion of a biomedical engineering program. Classes include:

  • Physics
  • Calculus
  • Foundations in digital electronic systems
  • Microprocessor applications
  • Circuitry inspections

Bachelor of Science in Biomedical Science

A biomedical science bachelor's degree program emphasizes health and science studies. Students often enroll in biomedical science undergraduate programs to gain a strong foundation for pursuing a degree in public health, medicine, or health education. However, a bachelor's degree in biomedical science can also be a terminal program for individuals who wish to work in laboratory settings. Program may require students to complete an internship with, for example, businesses or non-profit agencies, as well as the government. Students take general education courses, along with core courses and electives.

  • Research and data analysis
  • Genetics
  • Cell biology
  • Chemistry
  • Microbiology

Bachelor of Science in Biomedical Engineering

Students working toward a bachelor's degree in biomedical engineering learn to develop new technology by applying engineering principles to scientific disciplines. Physics and chemistry are integral components of a biomedical engineering program. Students develop analytical abilities and learn to work independently and as part of a team. Biomedical engineering students learn through hands-on experiences, including lab work and a capstone project. Classes consist of:

  • Safety regulations
  • Systems & signals in biomedical engineering
  • Foundations in imaging technology
  • Biomechanics
  • Molecular design & creation

Master of Science in Biomedical Informatics

The biomedical informatics master's degree program is research-intensive. Students learn to combine computer science with medical science. With master-level knowledge, students possess the skills needed to develop new and efficient technologies for the organization and analysis of hospital administration and patient records. Students participate in biomedical informatics labs and lectures throughout the duration of their studies in a master's degree program. Classes address:

  • Data analysis
  • Design and development
  • Legalities and regulations affecting the informatics industry
  • Statistics and probabilities
  • Computer information systems

Master of Science in Biomedical Science

Master's degree programs in biomedical science can typically be completed with 30 credits. Both thesis and non-thesis options are available. Students who decide to complete a thesis spend at least six credits in preparation for its creation and defense. To graduate, a cumulative GPA of 3.0 or higher is required in classes such as:

  • Human nervous system
  • Biochemistry and genes
  • Physiology of cell structures
  • Hormones & the reproductive system
  • Diseases of the brain

Ph.D. in Biomedical Informatics

Ph.D. in Biomedical Informatics programs are offered on a full-time basis, and they require students to be on campus for the majority of that time. Biomedical informatics doctoral students focus on research in fields relevant to their individual interests, with the goal of advancing the field of medical informatics. Some programs may require students to publish in relevant journals, attend conferences, and stay current with contemporary developments in their field while they are enrolled. In order to earn a doctorate, candidates must prepare and defend a dissertation, as well as complete core studies in:

  • Computer formula design & testing
  • Risk and benefit analysis
  • Artificial intelligence
  • Computational biology of molecules
  • Ethical concerns in biomedical informatics

Popular Career Options

Graduates of a bachelor's degree program in biomedical science can work for government agencies or private sectors. Job titles may include:

  • Medical product developer
  • Medical researcher
  • Biomedical salesperson
  • Laboratory technician
  • Clinical biochemical specialist

Graduate-level biomedical informatics degree-holders can work in various patient care settings and industry corporations as:

  • Medical informatics coordinators
  • Project managers
  • Database administrators
  • Researchers
  • System analysts

Graduates with a Ph.D. in Biomedical Informatics may work for government agencies and private employers as:

  • Consultants
  • Researchers
  • Developers
  • Professors
  • Journalists

Employment Outlook and Salary Info

Biomedical engineering undergraduates may work in hospitals, clinics and medical supply companies. From 2012 to 2022, employment of medical equipment repairers was expected to rise 30%, according to the U.S. Bureau of Labor Statistics (BLS). In 2014, medical equipment repairers earned an average of $48,540 annually.

Employment of biomedical engineers is predicted to rise at 27% growth, according to the BLS. In 2014, it was noted that biomedical engineers earned a mean annual wage of $91,760.

Many graduates of a biomedical science program go on to work in research and development as scientists. The BLS notes that, in 2012, biological scientists had an average annual salary of $77,920.

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