During the three-year Master of Science program in biomedical technology, students can bridge the gap from the private to the professional world by taking a paid summer internship and coursework on topics such as medical device design, clinical research methods, and information technology. Throughout coursework and lab work, students in a twelve-month Master of Science degree program can also bridge the gap between the private and the public sectors, through coursework and hands-on experience in the medical and scientific fields.
The curriculum for the degree program in biomedical technology is designed around the student’s career goals. The goal is to equip students with enough knowledge about the topic area so they can build a foundation for future careers. For example, when studying biomedical engineering, students will have the opportunity to gain skills in the design of biomedical devices such as prosthetic limbs. Students will also have the opportunity to become a biomedical technologist, which involves helping to design biomedical devices and equipment to perform specific functions in hospitals or health-care settings.
Students will participate in study group discussions and conferences, participate in seminars and workshops, participate in labs and clinical studies, and attend conferences and professional meetings in this area. Students can choose a Bachelor of Science degree program in biomedical technology that focuses on biomedical engineering or one that specializes in biomedical information systems, or a Master of Science degree program that focuses on computer science. Students can complete their degrees in less than two years.
To become a biomedical engineer, students must first study to become licensed in this field. Licensing requires a national exam that students take before they can apply to a graduate program at a four year college or university. Licensing exams can be taken online or by taking a course in licensing courses. Once licensed, students will receive a certificate that shows that they passed the licensing exam and that includes a description of their coursework and research findings.
Students who choose a Bachelor of Science degree program in biomedical technology must take a series of courses that covers the theoretical aspects of the discipline. These include anatomy, human biology, physiology, cell biology, chemical structures, medical ethics, and information technology.
Students in this degree program must also take lab classes that focus on hands-on training, such as biomedical laboratory work, in vitro and in vivo research, molecular biology, and bioinformatics. Students will also be exposed to theory courses that examine a wide range of topics that pertain to biomedical technology. Students should also complete elective courses to help them gain exposure to areas such as molecular biology, electronic circuit design, and computer science.
Students will complete a thesis at the end of their programs. Students will earn an advanced degree if their work earns a designation such as Master of Science in Biomedical Engineering, Doctorate of Science, or Doctorate of Medical Technology.
Students work closely with professors to develop a dissertation topic. The student’s advisor or thesis adviser determines the dissertation topic based on the students’ performance and achievements, and the advisor provides assistance with the research paper and other writing process. Students are expected to present their research papers to a peer group for review and critique. Students also conduct independent research in areas that interest them and submit their findings to journals.
To become a Doctorate of Medicine (DO) candidate, students need to complete a series of doctorate-level classes and pass a national exam. Students must pass the doctorate-level exam in order to continue their doctorate program.
Clinical training takes place under the supervision of a physician. Undergraduate and graduate students are sent to a facility for clinical training. They complete a four-year program that allows them to learn about clinical procedures and techniques.