Bioengineers and biomedical engineers design solutions to biological and medical problems. Their job description typically includes: 1. Developing medical devices, prosthetics, artificial organs, and healthcare technologies. 2. Conducting research to understand biological systems and processes. 3. Designing and implementing software for healthcare applications. 4. Collaborating with healthcare professionals to improve patient care. 5. Ensuring that medical products comply with regulations and safety standards. 6. Troubleshooting and improving existing biomedical systems. 7. Communicating technical information effectively to diverse audiences. 8. Keeping up-to-date with advancements in the field to innovate and improve healthcare technologies. 9. Working in interdisciplinary teams with scientists, engineers, and healthcare professionals. 10. Contributing to projects aimed at improving healthcare outcomes and quality of life.
This income data is sourced from the May 2023 Occupational Employment and Wage Statistics (OEWS) survey. The dataset is updated annually.
Annual Pay Distribution | Salary |
---|---|
10th percentile | $56,560.00 |
25th percentile | $76,890.00 |
median (50th percentile) | $102,160.00 |
75th percentile | $124,800.00 |
90th percentile | $134,170.00 |
Hourly Pay Distribution | Hourly Rate |
---|---|
10th percentile | $27.19 |
25th percentile | $36.97 |
median (50th percentile) | $49.11 |
75th percentile | $60.00 |
90th percentile | $64.51 |
To become a Bioengineer or Biomedical Engineer, individuals typically need at least a bachelor's degree in bioengineering, biomedical engineering, or a related field. Some positions may require a graduate degree such as a master's or Ph.D. in the same or a related discipline. High school education is a prerequisite for entering college to pursue these degrees. Training for Bioengineers and Biomedical Engineers involves coursework in biology, chemistry, mathematics, physics, engineering principles, and specialized topics like biomechanics, biomaterials, medical devices, and tissue engineering. Practical experience through internships, co-ops, or research projects is also valuable for gaining hands-on skills in the field. Continuous learning and staying updated with advancements in technology and healthcare are crucial in this rapidly evolving field.