Biomedical Engineering Undergraduate Programs

Biomedical Engineering merges engineering ingenuity with medical and biological sciences to tackle healthcare challenges. Our program equips you to apply engineering principles and design thinking to create innovative solutions, from advanced diagnostics to life-changing treatments. We prepare graduates for careers with medical device and biotech companies, research labs, governmental agencies, and hospitals. Our program also serves as a launchpad for those aiming to pursue advanced degrees in engineering, medicine, and law.

Why Study Biomedical Engineering?

Biomedical engineers are problem-solvers who combine engineering with biology and other sciences to create innovative solutions for healthcare. Biomedical engineers design medical equipment, from artificial organs to diagnostic machines, and ensure they function properly through installation, maintenance, and support. They collaborate across disciplines with manufacturers, doctors, and scientists. Their work can involve research to explore how engineering can improve biology, and data analysis using models and simulations. These well-rounded engineers excel at communication and working with others.

BS or BA?

At USC, you can choose between a Bachelor of Science (BS) degree or a Bachelor of Arts (BA) degree in Biomedical Engineering. We can help you choose the degree that’s right for you.

Career Paths:

BS: Graduates are well-prepared for entry-level positions in the biomedical engineering industry, research and development labs, medical device companies, or pursue graduate studies in the field. The BS can meet the educational requirements for pursuing licensure as a Professional Engineer (PE).
BA: Career paths are broader, potentially involving roles that combine some engineering knowledge with other areas like science policy, science communication, project management, or technical sales.
Both can set you up for admission to medical, law, and other professional schools.

Skills Developed:

BS: Strong foundation in math, science, engineering principles, problem-solving, design thinking, and data analysis.
BA: Fundamental engineering and science knowledge alongside a broader range of skills, including critical thinking, entrepreneurship, communication and writing.

Choosing Between Them:

Career Goals: If you aim for a traditional engineering role in the biomedical industry or research, a BS is the standard path.
Interests: If you're interested in engineering but also value a broader education that aligns with your career aspirations, consider the BA.

Curricula

The BS and BA programs both provide a solid foundation in biomedical engineering and the science behind it. The BS curriculum includes more engineering analysis and design with a stronger mathematical basis. The BA includes the opportunity to take more non-technical coursework, potentially combining engineering with other fields. Both programs include liberal arts and Carolina Core coursework to provide you with a well-balanced education, and both include the option to focus electives in a medical, biomechanics, or bimolecular track. Expand below for more details on the BS and BA curricula.

The biomedical engineering Bachelor of Science curriculum will provide you with a thorough grounding in engineering, mathematics, chemistry, physics and biology. You will learn to apply these concepts in biomedical engineering fundamental and advanced courses such as:

Introduction to Biomedical Engineering
Fundamentals of Biomedical Systems
Cellular and Molecular Biology with Engineering Applications
Introduction to Biomaterials
Biochemistry with Engineering Applications
Human Anatomy and Physiology for Biomedical Engineers
Introduction to Biomechanics
Thermodynamics of Biomolecular Systems
Professional Development and Ethics in Biomedical Engineering
Biomonitoring and Electrophysiology
Biotransport
Biomedical Instrumentation
Kinetics in Biomolecular Systems
Modeling and Simulation of Biomedical Systems
Control Systems in Biomedical Engineering

BS and BA students alike can tailor the curriculum with biomedical engineering electives such as:

Tissue Engineering
Drug Delivery
Immunoengineering
Injury Biomechanics
Medical Microbiology for Biomedical Engineers
Biometric Measurements in Healthcare and Wearables
Biosensing
And many more

BS biomedical engineering students solve real-world problems in hands-on laboratory and capstone design courses. The capstone design experience is a two-semester course sequence for seniors that pairs a student team with an industry partner on a project to design an engineering solution to a biomedical problem. Examples of recent biomedical engineering capstone design projects comprise:

A Functional Prosthetic Arm for Children with Transhumeral Amputations
Electric Field Cancer Therapy
C-Section O-Retractor
Pharmaceutical Formulation Tank Cleaning System
An Iontophoretic Transdermal Drug Delivery Device
Flexible Surgical Lighting
In-surgery Bone Density Sensor
PPG Neonatal Blood Pressure Sensor
Virtual Model of a Pharmaceutical Cleanroom
Premature Infant Monitoring System
Predictive Modeling Software for Stroke Patient Outcome
PTFE Membrane Biological Nanopore
Fabrication for Protein Sequencing
Arterial Bleeding Simulator as a Training Model for Hemorrhage Control
Strain Responsive Polymer Co-Networks for Localized Drug Delivery

Visit Undergraduate Curricula and Courses for additional details.

The biomedical engineering Bachelor of Arts curriculum will provide you with a solid foundation in engineering and the supporting sciences, such as biology, chemistry, computing, and physics. While the BA mathematics and science requirements are somewhat lighter than the BS, you will still learn the fundamentals of biomedical engineering through core courses such as:

Introduction to Biomedical Engineering
Cell and Molecular Biology with Engineering Applications
Human Anatomy and Physiology for Biomedical Engineers
Materials in Medicine
Biomedical Analysis
Professional Development and Ethics in Biomedical Engineering
Biochemistry with Engineering Applications
Biomedical Instrumentation

The BA program provides a unique opportunity to develop expertise outside of but relevant to biomedical engineering. Over 20% of basic program requirements can be met with courses from diverse areas, including:

Biology, Genetics and Neuroscience
Business and Entrepreneurship
Chemistry, Environmental Science and Physics
Computer Science and Statistics
Chemical, Civil, Electrical and Mechanical Engineering
Education
Public Health and Exercise Science
Psychology and Sociology

BA and BS students alike can tailor the curriculum with biomedical engineering electives such as:

Tissue Engineering
Drug Delivery
Immunoengineering
Injury Biomechanics
Medical Microbiology for Biomedical Engineers
Biometric Measurements in Healthcare and Wearables
Biosensing
And many more

Visit Undergraduate Curricula and Courses for additional details.

Extracurriculars

Biomedical Engineering students participate in a variety of clubs including our student chapters of:

Hands on Prosthetic Engineering (HOPE)
Biomedical Engineering Society (BMES)
Alpha Eta Mu Beta, Biomedical Engineering Honor Society

Undergraduate research opportunities in the areas of biomechanics, tissue engineering, drug delivery, biomonitoring, and biomaterials are available on a volunteer, course credit, or paid position basis. With other undergraduates, biomedical engineering students take full advantage of living-learning communities, mentorship opportunities, study abroad, intramurals, internships, just hanging out with friends, and more.

Visit Student Experience to learn more.

Molinaroli College of Engineering and Computing