Importance of Biomedical Engineering
The 21st century has been labeled as the “Biological Century” with the expectation of profound implications to future technological breakthroughs both in the medical and other industrial sectors. We are on the threshold of a revolution in biology and medicine with the completion of the sequencing of the human genome, research to relate sequence to expression and eventually to cell and organ function. These enormous changes signify critical transformation for many segments of industry and for the profession of biomedical engineering. While some of the traditional areas of biomedical engineering and its technology innovations will continue to flourish, we will face new challenges and greatly enhanced opportunities. Meeting these challenges and capitalizing on the new opportunities will make biomedical engineering the cornerstone for future technological advances with applications to research in biology and medicine, to health and to the delivery of health care. The biomedical engineer is becoming essential to understanding the enormous amount of information that is being generated by basic research, to using quantitative approaches, to integrating disparate components in order to understand complex living systems, to providing truly innovative solutions and to translating these to commercial products. The biomedical engineer is playing a critical role in research and in its applications to improving quality of life, and in implementing cost-effective solutions for delivery of health care. Salaries in this field are very attractive and are among the best in medico-engineering sector.
Biomedical engineers combine biology, medicine, and engineering and use advanced knowledge of engineering and science to solve medical and health-related problems. Many of the diagnostic machines used for processes like Magnetic Resonance Imaging (MRI), CT scans, X-rays and ultrasound are all inventions of biomedical engineering. They also work on development of artificial devices that perform functions of body organs like artificial limbs, pacemaker, kidney machines, etc. They research and develop prostheses, evaluate the use of artificial organs, and improve instrumentation used in hospitals and clinics. A sophisticated level of scientific and technical knowledge is required for biomedical engineers, who bridge the gap between medicine and engineering. Attention to detail is another important skill, along with communication and team ability. The biomedical engineering field is very large and offers attractive salaries based on one’s expertise and experience.
Biomedical Engineer Salary
Biomedical Engineer Salaries depend on type of employment as well as work experience.
The average salaries with respect to type of employer are:
Hospital: $48000 – $60000
Government – $65000 – $95000
Private Sector – $65000 – $75000
Non-Profit Organization – $38000 – $75000
The average salaries with respect to work experience are:
Over 10 years – $70000 – $100000
5 to 10 years – $55000 – $85000
1 to 4 years – $50000 – $65000
Less than 1 year – $40000 – $52000
Biomedical Technicians earn on an average $30000 per year.
Major funding agencies and Foundations in the United States have recognized the importance of biomedical engineering to the future of health and health care and have taken steps to increase support and promote the field. The job prospects for the biomedical professionals are believed to be bright and very promising with the years to come, due to the increasing demand for their skills in the job market