Studying Biomedical Engineering in the USA
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Concept of biomedical engineering
Biomedical engineering is a branch of engineering that utilize the principles and design concepts of engineering on healthcare. Biomedical engineers deal with medical, biocompatible materials, or processes. Biomedical engineers are engaged in hospitals, in industries, in research facilities of educational and medical institutions, in government regulatory agencies, and in teaching. They often provide an interfacing or coordinating function, using their background in both the engineering and medical fields. They may generate designs where an in depth understanding of living systems and of technology is necessary. They may also construct customized devices for special health care or research needs.
If you are looking forward to earning a degree in biomedical engineering (BME), you can do it with confidence. Almost any school that you attend will offer you a high return on investment because of the high demand for employees. But find a university that offers a comprehensive and challenging curriculum for a reasonable price. Don’t worry; we are here to help you get started by putting together a list of some of the best biomedical engineering degrees.
Advantages of Studying This Discipline in the USA
“While there are certainly some advantages of being a doctor, including high salary and faster than average job growth, there are also a number of benefits of choosing a biomedical engineering program over a medical school education” – Degreequery. A bachelor’s degree is typically all you need to begin working as a biomedical engineer, according to the United States Bureau of Labor Statistics (BLS). This is a bonus field if you have always been interested in Medicine but got stuck with pursuing engineering for some reason. Bio-Medical Engineers work closely associated with the Doctors and Medical Scientists, so if you ever had the desire to become a doctor then this is an excellent branch to pursue your dreams. Research opportunities in this field are massive; all other branches of engineering now want to carry out the research in Bio-Medical as their field is saturated. The amount of funding in this field overseas is enormous, and thus if you are pioneering and creative, you can work really well in this field. You can also be working closely with NGO’s to uplift the society.
Fields of work available within this discipline
Some of the well recognized specialty areas within the field of biomedical engineering are biomaterials, biomechanics, bioinstrumentation, systems physiology, clinical engineering, and rehabilitation engineering. Bio-instrumentation is the application of electronics and measurement techniques and principles to develop devices used in diagnosis and treatment of diseases. Biomechanics is mechanics applied to biological or medical troubles. It includes the learning of flow within the body and in devices, of motion of material deformation and transmission of chemical constituents across biological and synthetic media and membranes. Contributions and efforts in the field of biomechanics have developed the artificial heart and replacement heart valves, the artificial kidney, the artificial hip, as well as put up a better understanding of the function of organs and musculoskeletal systems. Biomaterials depict both the living tissue and materials used for implantation as well. Understanding the properties of the living material is imperative in the planning of implant materials.
Recommended American Universities
The following schools have some of the best engineering universities offering biomedical engineering if you’re looking forward to studying in USA
- University of California - San Diego (UCSD) in La Jolla, CA
The University of California in San Diego's biomedical engineering school is ranked sixth according to U.S. News & World Report. The Department of Bioengineering, located in the Jacobs School of Engineering, offers four undergraduate engineering degrees in bioengineering, biotechnology, bioinformatics and biosystems. The school also offers a distinctive five-year B.S./M.S. dual degree program. Graduate programs can lead to an M.S. or a Ph.D.; Master of Engineering (M.Eng.) and Ph.D./Medical Doctor (M.D.) programs are also available.
- University of Washington in Seattle, Washington
U.S. News and World Report currently ranks the University of Washington as the 11th best biomedical engineering school, and the school boasts six National Academy of Engineering members. The Department of Bioengineering offers a bachelor's degree in bioengineering, with the option of four concentrations, including an option in nano and molecular engineering. The department offers an M.S. and Ph.D. program in the field, as well as a combined B.S./M.S. degree. Unique to the school is a one-year Master of Applied Bioengineering.
- Massachusetts Institute of Technology
Massachusetts Institute of Technology is ranked No. 1 among the Best Engineering Schools. The application fee is $75 for U.S. residents and $75 for international students. Its tuition is full-time: $51,520 per year. About 45 percent of all graduate students at MIT, roughly 2,800 students, are enrolled in the School of Engineering, and about a third of all faculty members teach at the School. There are nearly 20 research centers on campus, which explore topics as varied as cancer research, ocean engineering, and soldier nanotechnologies. The fact that the graduate students can live on the MIT campus in Cambridge is an added benefit since they can get to class and exploring downtown Boston as well.
- Boston University
Boston University’s College of Engineering offers facilities for revolutionary research, teaming up with the award-winning faculty to contribute to a tradition of innovation that traces its roots back to the invention of the telephone. The school has 20 chief laboratories and 12 research centers focused on areas ranging from robotics to quantum imaging to neuromuscular research. Boston University offers full-time Master of Science and/or master of engineering degrees in nine different areas, including manufacturing engineering, photonics, biomedical engineering, and electrical engineering. Boston University is ranked No. 36 among the best engineering universities.
- Rice University (Brown)
The varied range of research opportunities complements the degree offerings at Rice University’s Brown School of Engineering. Graduate students can earn a master’s degree in several areas, including bioengineering, mechanical engineering, and computer science. The school also offers Ph.D. tracks in each of its engineering departments. Rice University (Brown) is ranked No. 27 among the best engineering universities.
Conclusion
Biomedical engineering is a charming and growing field that applies both cutting-edge technologies and modern engineering techniques to issues in healthcare and medicine. Programmes in bioengineering usually draw determined students who want to combine their love of problem solving with their desire to help others – and perhaps also an interest in job security. During the last few years, there has been a major shift in both the United States and Europe from the traditional schemes of health care towards a health care system which is much more reliant on technology. In accordance with these changes, there has been a progressive boost in the percentage of the National Gross Domestic Product spent in the medical sector. Advances in science and engineering are progressively being directed away from the traditional technologies towards those necessary for health care in its widest sense. Although in various countries, there is a problem with the increasing costs in the medical sector, technology can add to the economy because of the declining costs of electronic based components relative to those for workers, and because of technologically based screening programmes.