16 Facts About Biomedical engineering

Biomedical engineering has recently emerged as its own study, as compared to many other engineering fields.

Biomedical engineering optics refers to the interaction of biological tissue and light, and how this can be exploited for sensing, imaging, and treatment.

Tissue Biomedical engineering, like genetic Biomedical engineering, is a major segment of biotechnology – which overlaps significantly with BME.

One of the goals of tissue Biomedical engineering is to create artificial organs for patients that need organ transplants.

Biomedical engineering engineers are currently researching methods of creating such organs.

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Unlike traditional breeding, an indirect method of genetic manipulation, genetic Biomedical engineering utilizes modern tools such as molecular cloning and transformation to directly alter the structure and characteristics of target genes.

Neural Biomedical engineering is a discipline that uses Biomedical engineering techniques to understand, repair, replace, or enhance neural systems.

Pharmaceutical Biomedical engineering is an interdisciplinary science that includes drug Biomedical engineering, novel drug delivery and targeting, pharmaceutical technology, unit operations of Chemical Engineering, and Pharmaceutical Analysis.

Beyond modeling organs and the human body, emerging Biomedical engineering techniques are currently used in the research and development of new devices for innovative therapies, treatments, patient monitoring, of complex diseases.

Clinical engineering is the branch of biomedical engineering dealing with the actual implementation of medical equipment and technologies in hospitals or other clinical settings.

The clinical Biomedical engineering department is constructed with a manager, supervisor, engineer, and technician.

Rehabilitation Biomedical engineering is the systematic application of Biomedical engineering sciences to design, develop, adapt, test, evaluate, apply, and distribute technological solutions to problems confronted by individuals with disabilities.

Medical device engineering area is among the most heavily regulated fields of engineering, and practicing biomedical engineers must routinely consult and cooperate with regulatory law attorneys and other experts.

Biomedical engineering has only recently been emerging as its own discipline rather than a cross-disciplinary hybrid specialization of other disciplines; and BME programs at all levels are becoming more widespread, including the Bachelor of Science in Biomedical Engineering which includes enough biological science content that many students use it as a "pre-med" major in preparation for medical school.

Biomedical engineering is regulated in some countries, such as Australia, but registration is typically only recommended and not required.

Biomedical engineering has the highest percentage of female engineers compared to other common engineering professions.