Education

Best Biomedical Engineering Degree Programs of 2022

Learn more about the top Biomedical Engineering programs, what to expect, job prospects, and how to choose the program that’s right for you.

Biomedical engineering is the application of engineering principles to the medical field. Biomedical engineers work on a variety of projects, including the development of new medical devices, the improvement of existing medical devices, and the design of new medical treatments.

Biomedical engineering is a growing field, as more and more companies are looking for ways to improve the safety and efficacy of their products. Biomedical engineers are in demand in a wide variety of settings, including hospitals, research laboratories, and manufacturing facilities.

Biomedical engineering degrees can prepare students for a variety of careers in biomedical engineering, including research, product development, and project management. Students in biomedical engineering degree programs learn about the different aspects of the medical field, and how to apply engineering principles to solve problems in medicine.

How to Choose the Right Biomedical Engineering Program

When it comes to choosing the right biomedical engineering bachelors degree program, there are a few key factors that prospective students need to keep in mind. The first is the cost of the program, as tuition rates can vary significantly from school to school. Other important factors to consider include the length of the program, the curriculum, and the location of the school.

Prospective students should also research the accreditation status of the program they are interested in, as this can impact the quality of the education they receive. Finally, students should consider their career goals and make sure that the program they choose will help them meet those goals.

Best Bachelor’s in Biomedical Engineering Programs

The best programs for Biomedical Engineering 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.

Rank 1
Johns Hopkins University
Baltimore, MD

Johns Hopkins University’s Bachelor of Arts in Biomedical Engineering program requires 120 credits. The program provides a solid foundation in the principles of biomedical engineering, with courses covering topics such as structural biology, biochemistry, statistical physics, and linear and nonlinear signals and systems. Students will also have the opportunity to choose from a range of electives in areas such as neuroengineering, cell and tissue engineering, immunoengineering, and nucleic acid sequencing.

Rank 2
Georgia Institute of Technology
Atlanta, GA

The Bachelor of Science in Biomedical Engineering from Georgia Institute of Technology is a degree that integrates engineering and the life sciences. The curriculum includes a foundation in fundamental engineering, mathematics, and sciences – biology, chemistry, and physics – as well as grounding in humanities, social sciences, and communication skills. A unique aspect of the curriculum is the incorporation of problem-based learning (PBL) methodologies to foster development of both self-directed learning skills and problem-solving skills in a team-based environment.

Rank 3
The University of Texas
Austin, TX

The University of Texas offers a Bachelor of Science in Biomedical Engineering. The program is designed to provide students with a thorough understanding of the fundamentals of engineering science, design, and biology. The curriculum incorporates principles of vertical integration, leading to the choice of a technical area (biomedical imaging and instrumentation, cellular and biomolecular engineering, computational biomedical engineering, or biomechanics), and culminates in a team capstone design experience.

Rank 4
University of Wisconsin
Madison, WI

The University of Wisconsin’s Bachelor of Science in Biomedical Engineering, Bachelor of Science in Biomedical Engineering degree is a four-year program that emphasizes engineering design. The program is unique in that it includes a seven-semester design curriculum. This curriculum gives students a balanced education by incorporating clinical and biomedical industry experience.

Rank 5
Boston University
Boston, MA

The Bachelor of Science in Biomedical Engineering from Boston University is a broad, interdisciplinary field that applies the science and technology of engineering to problems in biology, medicine, and biotechnology. The undergraduate program provides students with integrated and rigorous training in engineering, mathematics, and the basic sciences. The curriculum begins with a broad foundation in engineering, mathematics, chemistry, physics, and biology. Foundational work is followed by more advanced engineering coursework and laboratory experiences.

Rank 6
Rockhurst University
Kansas City, MO

The Bachelor of Science in Biomedical Engineering degree from Rockhurst University is designed for students interested in medical engineering, medical school, graduate school, biomechanics, and even non-clinical careers in the health care industry. The program emphasizes medical engineering and physics, and also provides students with the problem-solving, critical thinking and communication skills that are in high demand within today’s health care industry

Rank 7
Pennsylvania State University
University Park, PA

The Bachelor of Science in Biomedical Engineering from Pennsylvania State University offers four specialized degree options: biochemical engineering, biomaterials, medical imaging and devices, and biomechanics. Each option provides a tailored academic plan, allowing students to focus on key areas. This degree is particularly suitable for engineering students seeking careers in health-related professions.

Rank 8
Clemson University
Clemson, SC

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.

Rank 9
University at Buffalo
Buffalo, NY

The Bachelor of Science in Biomedical Engineering from University at Buffalo is a 128 credit hour program that is designed to prepare students for a career in biomedical engineering. The program is accredited by the Association to Advance Collegiate Schools of Business. The program includes coursework in engineering, math, and science.

Rank 10
New Jersey Institute of Technology
Newark, NJ

The Bachelor of Science in Biomedical Engineering from New Jersey Institute of Technology is a interdisciplinary degree that combines the study of fundamental biological and physiological processes with engineering methods. The curriculum is divided into specific areas of interest, allowing students to specialize and acquire in-depth knowledge within this field. Students can choose to concentrate in areas such as biomechanics, biomaterials, biofluid mechanics, or tissue engineering. The degree culminates in a capstone design project.

What to Expect From a Bachelor’s in Biomedical Engineering Program

Students in a biomedical engineering program can expect to take classes in biology, chemistry, physics, and math, as well as engineering courses. The engineering courses will focus on topics such as biomechanics, biomaterials, and medical device design. Students will also have the opportunity to participate in lab work and clinical rotations.

A bachelor’s degree in biomedical engineering typically takes four years to complete. However, some schools offer accelerated programs that allow students to complete the degree in three years.

Prospective students should be aware that a bachelor’s in biomedical engineering is a highly competitive degree. In addition to having strong grades, students should also be prepared to take the GRE.

Common Biomedical Engineering Courses

Biomedical engineering degree programs often include a mix of engineering, biology, and medicine courses. The table below provides examples of common classes for biomedical engineering majors.

Cell Biology

This course covers the structure and function of cells with an emphasis on mammalian cells. Topics include cell membranes, cell organelles, intracellular transport, cell signaling, and cell cycle. Emphasis is placed on the relationship between cell structure and function at the molecular level. Upon completion, students should be able to explain the structure and function of cells and cell organelles, and describe the cell cycle and cell signaling.

Biochemistry

This course covers the basic principles of biochemistry with an emphasis on their application to the study of human physiology and disease. Topics include water and pH, carbohydrates, lipids, amino acids and proteins, enzymes, nucleic acids, metabolism, and nutrition. Upon completion, students should be able to apply the principles of biochemistry to the understanding of human physiology and disease.

Materials in Biomedical Engineering

This course covers the structure, properties, and selection of materials used in biomedical engineering applications. Topics include metals, ceramics, polymers, composites, and biomaterials. Emphasis is placed on the mechanical, physical, and biological properties of materials, and their effects on the design and performance of biomedical devices and systems. Upon completion, students should be able to apply the principles of materials science to the selection and characterization of materials used in biomedical engineering applications.

Engineering Analysis

This course covers the application of engineering principles to the analysis of biomedical systems. Topics include mathematical modeling, computer simulation, and experimental testing. Emphasis is placed on the use of engineering analysis to solve problems in physiology, medicine, and biology. Upon completion, students should be able to apply engineering analysis to solve problems in physiology, medicine, and biology.

Biomechanics

This course covers the application of mechanical principles to the study of biological systems. Topics include an introduction to the field of biomechanics, linear and nonlinear mechanics of solids, fluid mechanics, and transport phenomena. Emphasis is placed on the analysis of biological systems using mathematical modeling, computer simulations, and experimental measurements. Upon completion, students should be able to apply the principles of mechanics to the study of biological systems and use mathematical modeling, computer simulations, and experimental measurements to analyze these systems.

Career Options for Biomedical Engineering Graduates

Graduates of biomedical engineering 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 Engineer

Biomedical engineers work at the intersection of engineering, medicine, and biology. They use their skills in engineering to solve medical problems and improve patient care. Biomedical engineers may work in a variety of settings, including hospitals, research laboratories, and pharmaceutical companies. They may work on developing new medical devices, such as artificial organs, or on improving existing ones. They may also work on developing new therapies or on improving existing ones.

Medical Writer

Medical writers produce content for a variety of medical and scientific communications, including patient education materials, journal articles, marketing collateral, and grant applications. They work with a team of healthcare professionals, including doctors, nurses, and pharmacists, to ensure that the content they produce is accurate and up-to-date. Medical writers typically have a background in science or healthcare, and strong writing and editing skills.

Clinical Specialist

Clinical specialists are medical professionals who focus on a particular area of medicine, such as cardiology or oncology. They typically work in hospitals or other healthcare settings and provide direct patient care as well as education and support to patients and their families. Clinical specialists may also conduct research, develop new treatments, or provide consulting services to other medical professionals.

Research and Development Engineer

Research and development engineers are responsible for developing and improving products and processes. They work in a variety of industries, including healthcare, automotive, aerospace, and manufacturing. In the healthcare industry, for example, R&D engineers may work on developing new medical devices or improving existing ones. In the automotive industry, they may work on developing new car models or improving the manufacturing process. R&D engineers typically have a bachelor’s degree in engineering and several years of experience in their field.

Medical Equipment Sales

Medical equipment sales representatives sell products and equipment to hospitals, clinics, and other healthcare facilities. They work with doctors, nurses, and other medical staff to find the best products for their patients and meet the needs of the facility. Medical equipment sales representatives typically have a background in the medical field, which can be helpful in understanding the products and the needs of the customers.

Insights From a Biomedical Engineering Graduate

Jessie Abbott is a Biomedical Engineer at Boston Scientific. She has a bachelor’s degree in biomedical engineering from Northeastern University. Jessie has over 3 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?

Jessie Abbott: I would recommend that students get involved in extracurricular activities, such as clubs and organizations related to their field of study. For example, I was involved in the Biomedical Engineering Society (BMES) and the American Institute of Chemical Engineers (AIChE) while I was in college. These activities not only look great on a resume, but they also allow you to network with other students and professionals in your field.

In addition, I would recommend completing at least one internship in your field of study before you graduate. Internships are a great way to gain experience and to make connections in your industry.

ClimbtheLadder: What are the most rewarding aspects of your career? What are the most challenging aspects of your career?

Jessie Abbott: The most rewarding aspect of my career is seeing the positive impact that my work has on people’s lives. I work on developing new medical devices that can improve the quality of life for patients. It is very gratifying to see the results of my work and know that I am making a difference.

The most challenging aspect of my career is keeping up with the ever-changing technology. In the medical device industry, there is always something new and innovative being developed. It can be difficult to keep up with the latest trends and make sure that you are using the best technology available.

ClimbtheLadder: What misconception(s) do people have about a Biomedical Engineering degree, and what would you tell them?

Jessie Abbott: A lot of people think that a biomedical engineering degree is only for people who want to be doctors. However, that is not the case. There are many different types of careers that a biomedical engineering degree can lead to.

For example, you could become a biomedical engineer, a medical device sales representative, a research scientist, or even a professor. There are many different options, and it really depends on what you are interested in.

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