Requirements To The Bachelor Of Biomedical Science And Engineering

biomedical science personal statement

Biomedical science and engineering bachelors degrees

The bachelor of science in biomedical engineering is a relatively new degree. As it is still a developing field, the course of study varies widely. Basically the undergraduate course of study in biomedical engineering science is a cross between engineering and biological sciences in varying proportions. Engineering processes are applied to problems in biology, biotechnology and medicine. Engineers generally require some sort of professional certification, but as the field is still developing there is not a standard certification that is uniform. Often the degree is the only certification that a biomedical engineer may have. Steps are being taken to get more biomedical engineering programs into a certification process similar to other engineering programs but as of yet it is more of a voluntary process than mandatory. Some countries such as Australia do regulate biomedical engineers, and in the United States ABET has started to certify some undergraduate programs.



Basic requirements for a biomedical science and engineering degree

To obtain a bachelor of science in biomedical engineering most programs require completion of some core courses considered essential for a biomedical engineer. Some of the courses that may be considered core courses for writing biomedical science persona statement  include:

  • Molecular and cellular biology
  • Linear systems
  • Biological control systems
  • Modeling and simulation
  • Engineering analysis of systems level biology and physiology

In addition to this core, a certain number of basic science classes in areas such as chemistry and physics is expected. Mathematics is another area of biomedical science entry requirement. Calculus I, II and III, linear algebra, differential equations and at least one class of upper level statistics serve to round out the basics.

Focus of biomedical engineering programs

Aside from basics in science and mathematics as well as other core courses, biomedical engineering programs will offer a variety of different tracks that focus on a particular specialty. Biomedical engineering has a wide variety of specialty tracks depending on the particular schools program. Examples of specialty focus may include such things as:

  • Bio-mechanics – Focus on medical devices, modeling of biological systems, and mechanics of organisms.
  • Bio-instrumentation/Bio-electric Systems – Modeling of biological systems such as circuit analogies to the nervous system, bio-electric phenomenon and signal processing. This is a specialty that interfaces well with electrical engineering.
  • Cell, Tissue and Bio-molecular Engineering – Diverse specialty track with a focus that ranges from artificial tissues to drug delivery, genetic engineering, biochemical engineering and protein production.
  • Medical optics – Focus on medical diagnostics and medical optical technology.

Many biomedical science and engineering programs include research and industry experience into the curriculum of their programs. Students are able to participate in research programs and/or gain relevant work experience before graduation. A number of universities are implementing or expanding existing biomedical engineering programs to meet rising demand in the field. Possessing an undergraduate degree in biomedical engineering indicates to employers a background in traditional engineering as well as biological sciences, which is highly desirable as a qualification.