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Bioengineering

Bioengineering. Overview – Preparation – Day in the Life – Earnings – Employment – Career Path Forecast – Resources. Developed by the Sloan Career Cornerstone Center . . Bioengineering. Overview:

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Bioengineering

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  1. Bioengineering Overview –Preparation – Day in the Life – Earnings – Employment – Career Path Forecast – Resources Developed by the Sloan Career Cornerstone Center.

  2. Bioengineering Overview: Bioengineering or Biomedical Engineering is a discipline that advances knowledge in engineering, biology, and medicine -- and improves human health through cross-disciplinary activities that integrate the engineering sciences with the biomedical sciences and clinical practice. Bioengineering/Biomedical Engineering combines engineering expertise with medical needs for the enhancement of health care. It is a branch of engineering in which knowledge and skills are developed and applied to define and solve problems in biology and medicine. Overview –Preparation – Day in the Life – Earnings – Employment – Career Path Forecast–Resources Developed by the Sloan Career Cornerstone Center.

  3. Bioengineering Overview (continued): Biomedical engineers may be called upon to design instruments and devices, to bring together knowledge from many sources to develop new procedures, or to carry out research to acquire knowledge needed to solve new problems. Major advances in Bioengineering include the development of artificial joints, magnetic resonance imaging (MRI), the heart pacemaker, arthroscopy, angioplasty, bioengineered skin, kidney dialysis, and the heart-lung machine. Overview –Preparation – Day in the Life – Earnings – Employment – Career Path Forecast–Resources Developed by the Sloan Career Cornerstone Center.

  4. Bioengineering Preparation: A bachelor's degree in engineering is required for almost all entry-level engineering jobs. Most engineering programs involve a concentration of study in an engineering specialty, along with courses in both mathematics and science. Some of the well established specialty areas within the field of biomedical engineering are bioinstrumentation, biomechanics, biomaterials, systems physiology, clinical engineering, and rehabilitation engineering. Overview –Preparation – Day in the Life – Earnings – Employment – Career Path Forecast–Resources Developed by the Sloan Career Cornerstone Center.

  5. Bioengineering Preparation (continued): Admissions requirements for engineering schools include a background in mathematics (algebra, geometry, trigonometry, calculus) and science (biology, chemistry, physics), and courses in English, social studies, humanities, and computer and information technology. Some students will major in bioengineering or biomedical engineering, while others may major in a traditional field such as electrical, mechanical, or chemical engineering, with a specialty in biomedical engineering. Overview –Preparation – Day in the Life – Earnings – Employment – Career Path Forecast–Resources Developed by the Sloan Career Cornerstone Center.

  6. Bioengineering Preparation (continued): Those interested in a career in Bioengineering should consider reviewing programs that are accredited by the Accreditation Board for Engineering and Technology, Inc. Accreditation is based on an evaluation of an engineering program's student achievement, program improvement, faculty, curricular content, facilities, and institutional commitment. A list of universities offering accredited degrees in Bioengineering is available at the Sloan Career Cornerstone Center. Overview –Preparation – Day in the Life– Earnings – Employment – Career Path Forecast–Resources Developed by the Sloan Career Cornerstone Center.

  7. Bioengineering Day in the Life: By combining biology and medicine with engineering, biomedical engineers develop devices and procedures that solve medical and health-related problems. Many do research, along with life scientists, chemists, and medical scientists, to develop and evaluate systems and products for use in the fields of biology and health, such as artificial organs, prostheses (artificial devices that replace missing body parts), instrumentation, medical information systems, and health management and care delivery systems. Overview –Preparation – Day in the Life – Earnings – Employment – Career Path Forecast–Resources Developed by the Sloan Career Cornerstone Center.

  8. Bioengineering Day in the Life (continued): Teams and Coworkers Almost all jobs in engineering require some sort of interaction with coworkers. Bioengineers will be working closely with medical doctors and medical assistants -- in teams to solve a wide range of challenges. Whether they are working in a team situation, or just asking for advice, most engineers have to have the ability to communicate and work with other people. Engineers should be creative, inquisitive, analytical, and detail-oriented. Overview –Preparation – Day in the Life – Earnings – Employment –Career Path Forecast–Resources Developed by the Sloan Career Cornerstone Center.

  9. Bioengineering Day in the Life (continued): Tasks Bioengineers engineers design devices used in various medical procedures, such as the computers used to analyze blood or the laser systems used in corrective eye surgery. They develop artificial organs, imaging systems such as magnetic resonance, ultrasound, and x-ray, and devices for automating insulin injections or controlling body functions. Overview –Preparation – Day in the Life – Earnings – Employment – Career Path Forecast–Resources Developed by the Sloan Career Cornerstone Center.

  10. Bioengineering Day in the Life (continued): The Workplace Bioengineers held about 9,700 jobs in 2004. Manufacturing industries employed 38 percent of all biomedical engineers, primarily in the pharmaceutical and medicine manufacturing and medical instruments and supplies industries. Many others worked for hospitals. Some also worked for government agencies or as independent consultants. Overview –Preparation – Day in the Life – Earnings – Employment – Career Path Forecast–Resources Developed by the Sloan Career Cornerstone Center.

  11. Bioengineering Earnings: According to the US Department of Labor, Bureau of Labor Statistics, median annual earnings of biomedical engineers is $77,400. The lowest 10 percent earned $47,640, and the highest 10 percent earned $121,970. According to a July 2009 survey by the National Association of Colleges and Employers, the average starting salary for bioengineers engineers who have earned a Bachelor's degree is $54,158. Overview –Preparation – Day in the Life – Earnings – Employment –Career Path Forecast–Resources Developed by the Sloan Career Cornerstone Center.

  12. Bioengineering Employment: According to U.S. Department of Labor, Bureau of Labor Statistics, bioengineers hold about 16,000 jobs in the United States. The medical equipment and supplies manufacturing industry employed about 20 percent of all biomedical engineers.  Another 20% were employed in the scientific research and development services industry. Overview –Preparation – Day in the Life – Earnings – Employment – Career Path Forecast – Resources Developed by the Sloan Career Cornerstone Center.

  13. Bioengineering Employment (continued): Biomedical engineers are employed in industry, in hospitals, in research facilities of educational and medical institutions, in teaching, and in government regulatory agencies. They often serve a coordinating or interfacing function, using their background in both the engineering and medical fields. In industry, they may create designs where an in-depth understanding of living systems and of technology is essential. A sample list of employers of Bioengineers is available at the Sloan Career Cornerstone Center. Overview –Preparation – Day in the Life – Earnings – Employment–Career Path Forecast–Resources Developed by the Sloan Career Cornerstone Center.

  14. Bioengineering Career Path Forecast: According to the U.S. Department of Labor, Bureau of Labor Statistics, biomedical engineers are expected to have employment growth of 72 percent between 2008 and 2018, much faster than the average for all occupations. The aging of the population and a growing focus on health issues will drive demand for better medical devices and equipment designed by biomedical engineers. Overview –Preparation – Day in the Life – Earnings – Employment –Career Path Forecast–Resources Developed by the Sloan Career Cornerstone Center.

  15. Bioengineering Career Path Forecast (continued): However, because of the growing interest in this field, the number of degrees granted in biomedical engineering has increased greatly. Biomedical engineers, particularly those with only a bachelor's degree, may face competition for jobs. Unlike many other engineering specialties, a graduate degree is recommended or required for many entry-level jobs. Overview –Preparation – Day in the Life – Earnings – Employment –Career Path Forecast–Resources Developed by the Sloan Career Cornerstone Center.

  16. Bioengineering Resources: More information about Bioengineering is available at the Sloan Career Cornerstone Center, including employer lists, accredited Bioengineering programs, specialty areas, major advances, suggestions for precollege students, a free monthly careers newsletter, and a PDF that summarizes the field. Associations: American Institute of Medical and Biological Engineering Biomedical Engineering Society Overview –Preparation – Day in the Life – Earnings – Employment – Career Path Forecast – Resources Developed by the Sloan Career Cornerstone Center.

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