The use of medical tools and aides to treat patients is possible by integrating medicine and biology to create workable technologies. Biomedical engineering is a field that is highly specialized and students can enter an education through numerous colleges and universities. There are a number of things to learn prior to enrollment in an online biomedical engineering school.
1. Studies encompass all the areas that are needed to create usable technologies for the health care field. These can include inflatable casts, ear thermometers, surgical staples, and magnetic resonance imaging machines. Students dive into a curriculum that covers biology in regards to medical engineering. Biomechanics, biomaterials, biomedical systems, linear differential equations, biofluids, and nanotechnologies are some courses that make up the overall career study. Education concentrates on how to combine science and technology to create needed biological processes to deliver improved health care. Over 100 colleges and universities offer degree programs allowing students to utilize their strengths. Specialties can include medical imaging, rehabilitation engineering, biomaterial engineering, and biomechanics engineering.
2. Introductory courses like biomedical engineering, research, and nanotechnology are typically taken in the first two years of a degree program. An introduction to biomedical engineering course teaches students the history and social relevancy of modern bioengineering areas. Study covers industry areas like action potential, signal process, genetic engineering, and bioimaging. A research course goes into how to collect and analyze biophysical measurements. Colleges teach students the process, which includes measuring, testing, and linear regression. Collecting data using different equipment like A/D boards is also touched on. The use of emerging nanoscale materials is taught in a nanotechnology course. The study on this newer form of technology is centered on applications that include electrical, biomedical, and mechanical engineering.
3. In the third and fourth years of a traditional program studies focus more on advanced subjects and concentration courses are taken. Biomechanics engineering, genetic engineering, tissue engineering, and drug delivery engineering are a few courses included in the second portion of a typical degree program. A biomechanics course focuses on the mechanics that apply to living organisms. The behaviors of organisms are studied to understand how biological processes restrain them. A genetic engineering course teaches students to understand how molecular bioengineering works and how it is used inside the industry. All areas of genetics are taught, which includes DNA breakdown, cell information, and recombinant technology in regards to DNA. Students look at all the societal issues and ethics related to genetic engineering to establish considerations for regulation. A drug delivery course focuses on the engineering of designing systems that administer drugs to patients. Biocompatibility and the formulation of controlled release devices are focused on. These courses make up key areas of studies that students follow up with advanced training and understanding.
Students can enter training at all levels allowing them to enter the field with ease. Earning a bachelor’s degree is the industry standard to enter a career as a biomedical engineer. Completing an accredited degree program at the graduate level prepares students for specialties, research, and technology innovation careers. Full accreditation is provided by agencies like the Accreditation Board for Engineering and Technology (http://www.abet.org/) to programs that offer quality educational training. Begin working through a degree program to become a part of the fast growing and technology driven industry of biomedical engineering.