All degree programs

Undergraduate programs

Student researcher uses a pipette while mentors observe in a biomedical laboratory.

Biomedical engineering, BSE

Turn a bold idea into a device that could save lives.

What if the health solution the world needs is sitting in your head right now?

With ASU’s biomedical engineering, BSE program, you’ll master both engineering and life sciences, then fuse them together to engineer real, working prototypes of biomedical devices that end up in hospitals, labs, and lives.

Available online

Degree details

Researcher works at a microscope station while his mentor supervises in the laboratory.

Biomedical engineering (biological devices), BSE

If you’re fascinated by life at the cellular level, this concentration puts that curiosity to work.

You’ll develop deep expertise in cell biology and learn to apply it to real engineering challenges in medicine, synthetic biology, and beyond — designing solutions in areas like immunohistochemical diagnostics, blood-contacting materials, and controlled-release therapeutics.

Degree details

Faculty researcher and student hold a device in a biomedical engineering laboratory.

Biomedical engineering (biomedical devices), BSE

Got a health solution brewing in your head? This concentration gives you the knowledge to actually build it.

You may have an idea, or you may just want to see what we are up to, but either way, you’ll bridge engineering and life sciences to take an idea all the way from concept to working prototype, developing the skills to tackle real health challenges in ways that are both ethical and sustainable.

Degree details

Graduate degree options

We offer a suite of graduate and doctoral programs in biomedical and health‑focused engineering, including the MS in Artificial Intelligence Engineering (Intelligent Biomedical Systems Engineering), MS in Biomedical Engineering, PhD in Biomedical Engineering, MS in Innovations in Medical and Patient Care Technologies, MS in Medical Engineering, and the MS in Robotics and Autonomous Systems (Biomedical Engineering).

Researcher examines a microscope slide at a laboratory bench.

Biomedical engineering, PhD

Push the boundaries of medicine through research that could change how people live, heal and thrive.

In this program, you will collaborate on interdisciplinary research in areas like biomaterials, biomedical imaging and neural engineering while preparing to lead innovation in health care and industry.

Degree details

Researcher uses a pipette inside a fume hood in a laboratory.

Biomedical engineering, MS

What if the skills you gain today could help create faster diagnoses, smarter medical devices or more personalized treatments tomorrow?

With ASU’s biomedical engineering, MS program, you will study emerging areas such as biomedical imaging, biomaterials and neural engineering while preparing to lead innovation in research labs, health care organizations and technology companies.

Degree details

A female student working with her faculty mentor in a lab.

Medical engineering, MS

What if you could combine engineering, artificial intelligence and clinical insight to improve how patients are diagnosed, treated and cared for?

With ASU’s medical engineering, MS program, advanced study in digital health technologies, medical robotics and AI-driven health care systems prepares graduates to solve real clinical challenges alongside experts in engineering and medicine.

Attend a webinar

Degree details

Man in black quarter-zip sweater interacting with brain images on a screen.

Artificial intelligence engineering (intelligent biomedical systems), MS

Design AI-powered health technologies that could change how people live and heal. What happens when artificial intelligence meets biomedical engineering?

Learn to build intelligent systems that support real-world health care solutions — from robotic surgery and wearable devices to personalized treatment plans and advanced diagnostics. Master high-demand AI tools like machine learning, computer vision and natural language processing while gaining deep expertise in biomedical engineering so you can help shape the future of medicine.

Degree details

Male student in a lab working with a manufacturing robotic arm.

Robotics and Autonomous Systems (Biomedical Engineering), MS

Build intelligent technologies that could redefine the future of health care.

Learn to combine robotics, autonomous systems and biomedical engineering to create advanced technologies that support diagnostics, rehabilitation and patient care. Develop expertise in robotics, artificial intelligence and intelligent systems while designing innovations that help doctors treat patients more precisely and improve lives in meaningful ways.

Degree details

Want to know more? We'll contact you!

We are looking for exceptional students who want to impact the future of health care.

The Master of Science in Innovations in Medical and Patient Care Technologies, or IMPACT MS, is a full-time, in-person, two-semester and a session graduate program offered through the School of Biological and Health Systems Engineering as part of the Mayo Clinic and Arizona State University Alliance for Health Care. Graduates will earn a Master of Science in Innovations in Medical and Patient Care Technologies from ASU in collaboration with Mayo Clinic. In addition, after completing their clinical immersion at Mayo Clinic, graduates will earn a 3-credit Clinical Innovation Graduate Certificate from the Mayo Clinic College of Medicine and Science.

This unique educational program is grounded in the biodesign innovation process and includes clinical immersion at Mayo Clinic, hands-on experiential learning, and personalized mentorship throughout the medtech innovation process. The curriculum was developed in collaboration with the Stanford Mussallem Center for Biodesign as a part of their Program Development Associates Initiative.

The IMPACT MS is designed for engineers eager to deepen their expertise in the rapidly evolving field of healthcare innovation. This program focuses on the entire Biodesign process, equipping students with the skills needed to develop needs-based solutions and successfully implement innovations into real-world practice. Graduates will gain a comprehensive understanding of how to navigate the complexities of medical technology development, from concept to execution, preparing them to drive impactful advancements in healthcare.

Young woman works in mechanical laboratory.

Innovations in medical and patient care technologies, MS

The IMPACT MS will train students with an undergraduate degree in one of several engineering disciplines) to identify challenges in healthcare and develop innovative product-based solutions. This new master’s degree will also address the workforce needs of Arizona’s current and emerging biomedical industry.

Degree details