Economic Research Institute — Bioengineer. BLS — Biomedical Engineers. American Institute for Medical and Biological Engineering. Skip to main content.
What makes an ordinary job an extraordinary job? What do bioengineers do? How long does it take to get a biomedical engineering degree? How much does the average bioengineer make? Is bioengineering a good career? Take charge of your future with an online Master of Science in Engineering. Apply Now. Get Program Details. This will only take a moment! What is your highest level of education? In the biomedical field, these products are typically developed for use in the healthcare industry.
They can include laboratory or hospital equipment, prosthetic limbs, imaging tools and more. Manufacturing engineers with biomedical engineering backgrounds can take leadership positions in the design of these products, or manage teams who are creating them.
Independent consultants in the biomedical engineering field work with medical organizations and research institutions to provide guidance and recommendations. Their input can affect how processes are executed, what type of equipment to use, how to organize a workforce and other crucial decisions. Independent biomedical consultants may work with a variety of businesses, and they sometimes consult with organizations for long periods of time.
Consultants can grow relationships while also reaping the benefits of diverse experiences with a variety of stakeholders. Some biomedical engineering professionals go on to pursue a medical degree in order to become a physician or surgeon. Doctor and surgeon positions are expected to grow 13 percent from to faster than average , according to the BLS. Biomedical scientists and researchers use clinical trials to conduct research for improving human health, carrying out scientific laboratory tests to find solutions to medical problems.
They research information that aids in the development of biomedical technology and test products so that they are safe for consumers.
Biomedical researchers may also work in the field of biomechanics, which involves simulating medical problems and body systems to aid in the creation of biomedical devices. Communication skills. Because bioengineers and biomedical engineers sometimes work with patients and customers and frequently work on teams, they must be able to express themselves clearly in discussions.
They also write reports and research papers. Bioengineers and biomedical engineers must be creative to come up with innovations in healthcare equipment and devices. Math skills. Bioengineers and biomedical engineers use calculus and other advanced math and statistics for analysis, design, and troubleshooting in their work. Problem-solving skills.
Bioengineers and biomedical engineers typically deal with intricate biological systems. They must be able to work independently and with others to incorporate ideas into the complex problem-solving process. Bioengineers and biomedical engineers may increase their responsibilities as they gain experience or advanced degrees.
To lead a research team, a bioengineer or biomedical engineer typically needs a graduate degree. Those who are interested in basic research may become medical scientists. Some bioengineers attend medical or dental school to specialize in techniques such as using electric impulses in new ways to get muscles moving again. Others earn law degrees and work as patent attorneys. For more information, see the profiles on lawyers and architectural and engineering managers.
Note: All Occupations includes all occupations in the U. Source: U. The median wage is the wage at which half the workers in an occupation earned more than that amount and half earned less. In May , the median annual wages for bioengineers and biomedical engineers in the top industries in which they worked were as follows:. Bureau of Labor Statistics, Employment Projections program.
Bioengineers and biomedical engineers are expected to see employment growth because of increasing technologies and their applications to medical equipment and devices.
Smartphone technology and three-dimensional printing are examples of technology being applied to biomedical advances. As the baby-boom generation lives longer and stays active, the demand for bioengineers and biomedical devices and procedures, such as hip and knee replacements, is expected to increase. In addition, as the public awareness of medical advances continues, increasing numbers of people will seek biomedical solutions to their health problems from their physicians.
Bioengineers and biomedical engineers work with scientists, other medical researchers, and manufacturers to address a range of injuries and physical disabilities.
The ability of these engineers to collaborate on activities with workers from other fields is enlarging the range of applications for biomedical engineering products and services. These estimates are available for the nation as a whole, for individual states, and for metropolitan and nonmetropolitan areas. The link s below go to OEWS data maps for employment and wages by state and area. All state projections data are available at www.
Information on this site allows projected employment growth for an occupation to be compared among states or to be compared within one state. CareerOneStop includes hundreds of occupational profiles with data available by state and metro area. There are links in the left-hand side menu to compare occupational employment by state and occupational wages by local area or metro area.
There is also a salary info tool to search for wages by zip code. This table shows a list of occupations with job duties that are similar to those of bioengineers and biomedical engineers.
Agricultural engineers solve problems concerning power supplies, machine efficiency, the use of structures and facilities, pollution and environmental issues, and the storage and processing of agricultural products.
Architectural and engineering managers plan, direct, and coordinate activities in architectural and engineering companies. Biochemists and biophysicists study the chemical and physical principles of living things and of biological processes. Chemical engineers apply the principles of chemistry, biology, physics, and math to solve problems that involve the use of fuel, drugs, food, and many other products. Electrical engineers design, develop, test, and supervise the manufacture of electrical equipment.
Others use their knowledge of chemistry and biology to develop new drug therapies. Still others draw on math and statistics to understand signals transmitted by the brain or heart. Some are involved in sales. Biomedical engineers focus on advances in technology and medicine to develop new devices and equipment for improving human health. For example, they might design software to run medical equipment or computer simulations to test new drug therapies.
In addition, they design and build artificial body parts, such as hip and knee joints, or develop materials to make replacement parts. They also design rehabilitative exercise equipment. Biochemical engineers focus on cell structures and microscopic systems to create products for bioremediation, biological waste treatment, and other uses. Bioinstrumentation engineers use electronics, computer science, and measurement principles to develop tools for diagnosing and treating medical problems.
Biomaterials engineers study naturally occurring or laboratory-designed substances for use in medical devices or implants. Biomechanics engineers study thermodynamics and other systems to solve biological or medical problems. Genetic engineers alter the genetic makeup of organism using recombinant deoxyribonucleic acid rDNA technology, such as in developing vitamin-fortified food crops to prevent disease in humans.
Rehabilitation engineers develop devices that aid people who are recovering from or adapting to physical or cognitive impairments. Systems physiologists use engineering tools to understand how biological systems function and respond to changes in their environment.
Other bioengineering occupations are described in separate profiles; see, for example, chemical engineers and agricultural engineers. Some people with training in biomedical engineering become postsecondary teachers. Bioengineers and biomedical engineers hold about 21, jobs.
The largest employers of biomedical engineers are as follows:. Bioengineers and biomedical engineers work on teams with scientists, healthcare workers, or other engineers. Where and how they work depends on the project. For example, a biomedical engineer who has developed a new device might spend hours in a hospital to ensure that the device works as planned.
If the device needs adjusting, the engineer might need to suggest alterations in the manufacturing process. Most bioengineers and biomedical engineers work full time, and some work more than 40 hours per week. Get the education you need: Find schools for Bioengineers and Biomedical Engineers near you!
Bioengineers and biomedical engineers typically need a bachelor's degree in bioengineering, biomedical engineering, or a related engineering field. In high school, students interested in becoming bioengineers or biomedical engineers should take classes in sciences such as chemistry, physics, and biology.
They should also study math, including algebra, geometry, trigonometry, and calculus. If available, classes in drafting, mechanical drawing, and computer programming are also useful. At the bachelor's degree level, prospective bioengineers should enter bioengineering or traditional engineering programs, such as mechanical and electrical.
Students who pursue traditional engineering degrees may benefit from taking biological science courses. Bachelor's degree programs in bioengineering and biomedical engineering focus on engineering and biological sciences. These programs typically include laboratory- and classroom-based courses in biological sciences and subjects such as fluid and solid mechanics, circuit design, and biomaterials.
These programs also include substantial training in engineering design.
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