Best Bioengineering Degree Programs of 2022
Learn more about the top Bioengineering programs, what to expect, job prospects, and how to choose the program that’s right for you.
Learn more about the top Bioengineering programs, what to expect, job prospects, and how to choose the program that’s right for you.
Bioengineering is the application of engineering principles to the life sciences. Bioengineering degrees can prepare students for a variety of careers in the life sciences, including biomedical engineering, genetic engineering, and biotechnology.
Bioengineering degrees offer a broad overview of the life sciences, covering topics such as biology, chemistry, and physics. Students in bioengineering degree programs learn about the different aspects of engineering, and how to apply those principles to the life sciences. They also learn about the ethical and legal issues involved in the life sciences.
When it comes to choosing the right bioengineering bachelor’s degree program, there are many factors to consider. Cost, location, and time to degree are all important factors, but prospective students should also research the curriculum and available specializations.
Many bioengineering programs are offered at public universities, which typically offer lower tuition rates for in-state residents. Location can also affect the ability to gain internship opportunities and network for jobs after graduation. Finally, the time to degree may make an expensive program less costly if students can transfer in college credits.
In addition to these factors, prospective bioengineering students also need to consider the specializations available at each program. Students interested in medical device engineering, for example, may only wish to consider programs that offer a track in medical device engineering. Students can also research the graduation requirements to learn how many general engineering classes they must take versus the specialized courses in their track.
The best programs for Bioengineering ranking is based on key statistics and student reviews using data from the U.S. Department of Education. Some of the metrics influencing how the rankings are determined include graduation rate, average salary for graduates, accreditation, retention rate, and cost.
The Bachelor of Science in Bioengineering at University of California-San Diego prepares students for careers in the biomedical device industry and for further education in graduate school. The program addresses the topics of biomechanics, biotransport, bioinstrumentation, bioelectricity, biosystems, and biomaterials, and the complementary fields of systems and organ physiology. Education in these areas allows students to apply bioengineering and scientific principles to benefit human health by advancing methods for effective diagnosis and treatment of disease through development of medical devices and technologies.
The University of Washington’s Bachelor of Science in Bioengineering degree is a four-year program that prepares students for careers in the fields of biology, medicine and health care. The program combines knowledge from the biological sciences with mechanical, chemical, electrical, and computer engineering, and provides students with the skills necessary to invent the future of medicine through novel, innovative, and cost-effective solutions. In order to complete the degree, students must earn a minimum of 180 credits, including general education requirements, major requirements, and additional completion requirements.
The Syracuse University Bachelor of Science in Bioengineering program provides students with the skills and knowledge necessary to pursue a career in the field of bioengineering. The program offers a broad range of courses covering topics such as experimental methods, biological principles, engineering materials, and biomaterials. Students also have the opportunity to specialize their curriculum based on their desired career path, and can choose to take courses that prepare them for medical school. The program also offers practical experience through research projects and internships, and provides students with the opportunity to study abroad.
The Bachelor of Science in Bioengineering from Clemson University is a unique program that allows students to gain an understanding of biology, biochemistry, and physiology while also applying advanced mathematics to solve problems that require a mix of engineering and biology. The program is designed to prepare students for careers in bioengineering, and the curriculum includes classes in biology, biochemistry, physiology, and mathematics. The program also offers an opportunity to engage in clinically-driven, industry-standard capstone design experience.
The Bachelor of Science in Bioengineering degree from Stevens Institute of Technology trains students to apply design and analysis techniques to problems at the interface between physical and biological systems in the biomedical engineering field. The program features a hands-on curriculum with an integrated design component, real data sets, and case studies for real companies. The program also offers an optional pre-health sequence for students pursuing careers in healthcare, co-op and internship opportunities, and credits eligible for the Accelerated Master’s Program.
The Bachelor of Science in Bioengineering from University of California-Riverside provides students with the basic education needed to enter the fields of bioengineering, biomedical engineering and biotechnology. The degree also prepares students for graduate studies and medical school. The program offers a flexible curriculum that allows students to tailor their studies to their specific career goals. The program is accredited by the Engineering Accreditation Commission of ABET.
The Bachelor of Science in Bioengineering degree from University of Louisville is a four-year program that is accredited by the Engineering Accreditation Commission (EAC) of ABET. The program is designed to provide students with a rigorous education that focuses on mathematics, sciences, and engineering fundamentals. Additionally, students take courses in chemistry, biology, and physiology. The program also provides students with the opportunity to gain practical experience within the biomedical or bioengineering industry.
The Bachelor of Science in Bioengineering at Florida Gulf Coast University emphasizes the application of new technology to biomaterials, biomechanics, and biomedical tools and procedures.
Students learn how to solve problems associated with interactions between living and non-living materials and systems. With the addition of an additional 4-credit general biology course, graduates will also meet the prerequisite requirements of most medical schools.
The Bachelor of Science in Bioengineering degree from Oakland University provides students with the skills and knowledge necessary to pursue a career in the biomedical engineering field. The program combines training in biology with depth in computation and/or engineering, giving students a well-rounded education that will prepare them for a variety of career options. The program also offers five professional tracks for students to choose from, allowing them to specialize in their area of interest.
The University of Toledo offers a 4.5 year accredited Bachelor of Science degree in Bioengineering. The program focuses on practical experiences and hands-on labs in three core areas of bioengineering: biomechanical, bioelectrical, and biochemical. The curriculum also provides a strong foundation in the life sciences, physical sciences, mathematics, and engineering principles.
Students in a bachelor’s in bioengineering program learn to apply engineering principles to solve problems in the life sciences. The curriculum emphasizes the design of biological and medical devices and systems, as well as the development of new technologies to improve human health.
Most programs require students to complete core classes in mathematics, physics, and chemistry, as well as engineering courses such as biomechanics, biomaterials, and biochemistry. Students also take classes in the life sciences, such as biology, physiology, and cell biology. In addition, many programs offer specializations in areas such as tissue engineering, regenerative medicine, or medical devices.
A bachelor’s in bioengineering program typically takes four years to complete. Some programs may require students to complete a capstone project or an internship. Prospective students should have strong math and science skills, as well as an interest in solving problems related to human health.
The coursework for a bioengineering degree program will depend on the school and the specific program within the field. However, there are some common courses that are often found in these programs. The following list explores five of these courses.
This course covers the structure and function of biomolecules and cells, with an emphasis on their engineering applications. Topics include the chemical composition of biomolecules, the role of biomolecules in cell function, the structure and function of cell membranes, and the mechanisms of cell signaling. Upon completion, students should be able to apply their knowledge of biomolecules and cells to the engineering of new or improved biological products and processes.
This course covers the study of genes, including their structure, function, and transmission. Topics include DNA replication, transcription, translation, genetic code, and mutations. Emphasis is placed on the role of genes in the development and function of living organisms. Upon completion, students should be able to explain the structure and function of DNA and RNA, apply the principles of Mendelian genetics, and use basic genetic engineering techniques.
This course covers the principles and methods of creating technical drawings used in the engineering field. Topics include orthographic projection, pictorials, dimensioning, tolerancing, fasteners, and welding symbols. Emphasis is placed on the use of industry-standard software to create technical drawings. Upon completion, students should be able to create technical drawings using industry-standard software.
This course covers the application of mechanical principles to the analysis of biological systems. Topics include an introduction to the field of biomechanics; linear and nonlinear mechanics; fluid mechanics; solid mechanics; and biological systems. Emphasis is placed on the analysis of biological systems including the musculoskeletal, cardiovascular, and respiratory systems. Upon completion, students should be able to apply the principles of mechanics to the analysis of biological systems.
This course covers the basic principles that govern the function of cells, tissues, and organs at the molecular, cellular, and systems level. Topics include an overview of physiological systems, cell physiology, membrane transport, muscle physiology, endocrine physiology, and integrative physiology. Emphasis is placed on the application of engineering principles to the study of physiological systems. Upon completion, students should be able to apply the principles of physiology to the analysis and design of physiological systems.
Graduates of bioengineering programs work in a variety of industries, including healthcare, pharmaceuticals, and biotechnology. They may also work in fields such as research and development, product development, and marketing.
Biomedical engineers apply engineering principles to the medical field. They might design artificial organs, develop new medical imaging devices and software, work on regenerative tissue projects, and create systems to monitor patients’ vital signs. Biomedical engineers often work in teams with other engineers, scientists, and medical personnel, so good communication and collaboration skills are essential. The work can be both challenging and rewarding, as it often requires finding creative solutions to complex problems that can have a direct and positive impact on people’s lives.
Sales engineers are responsible for technical support during the sales process. They work with sales teams to identify and qualify new opportunities, develop and deliver product demonstrations and presentations, create and deliver proposals, and provide post-sales support as needed. Sales engineers typically have a background in engineering or a related technical field, as well as experience in sales or a related customer-facing role.
Bioinformatics specialists use computers to store, process, and analyze biological data, such as DNA sequences and protein structures. They develop algorithms, software, and databases to help solve biological problems. Bioinformatics specialists often work in teams with biologists, computer scientists, and other professionals. They may also collaborate with researchers in other fields, such as medicine, agriculture, and environmental science.
Pharmaceutical researchers develop new drugs and medications. They work in laboratories and use a variety of scientific techniques to develop new medicines to treat diseases and disorders. Pharmaceutical researchers typically have a background in chemistry, biology, or another scientific discipline. They use their knowledge of science and medicine to design experiments, analyze data, and develop new medications.
R&D scientists conduct research to develop new products or improve existing ones. They work in a variety of industries, including pharmaceuticals, food and beverage, cosmetics, and more. R&D scientists typically have a bachelor’s degree in a scientific discipline, such as chemistry, biology, or physics. They use their knowledge of science and research to develop new products or improve existing ones. R&D scientists typically work in a laboratory setting, where they conduct experiments and tests. They may also work in an office setting, where they develop research proposals and plans.
Nico Compton is a Senior Biomedical Engineer at Boston Scientific. He has a bachelor’s degree in bioengineering from the University of California, Berkeley. Nico has over 10 years of experience in the medical device industry.
ClimbtheLadder: What would you recommend that students do in addition to their degree program, in order to stand out to employers?
Nico Compton: I would recommend that students get involved in research projects and/or internships in order to gain experience in the field. Employers are always looking for candidates with experience, so this is a great way to make yourself more attractive to potential employers.
ClimbtheLadder: What should students interested in Bioengineering be good at?
Nico Compton: In order to be successful in bioengineering, students should be good at critical thinking and problem solving. They should be able to apply engineering principles to biological systems. In addition, they should have a strong foundation in math and science.
ClimbtheLadder: What misconception(s) do people have about a Bioengineering degree, and what would you tell them?
Nico Compton: I think the biggest misconception about a bioengineering degree is that it is only for people who want to be doctors. There are so many different paths that you can take with a bioengineering degree. You can be a medical device engineer, a research scientist, a sales representative, or even work in the business side of the medical industry.
The possibilities are endless. If you are interested in the medical field and helping people, then a bioengineering degree is a great choice.