Program Overview
The University of Kansas offers an innovative Master of Engineering in Bioengineering designed for students seeking to advance their careers at the intersection of engineering and biology. masters in bioengineering provides advanced preparation for professionals who want to lead innovation in healthcare technology, medical device design, and biotechnology-driven solutions. Through a focused, practice-oriented curriculum, students develop the technical depth and applied problem-solving skills required in today’s evolving biomedical landscape.
As one of the region’s established masters in bioengineering programs, KU’s degree emphasizes real-world engineering application rather than a traditional research thesis. Students gain in-depth knowledge and practical experience to address complex challenges in medical technology, biomaterials, biomechanics, and translational bioengineering. The program builds on foundational engineering principles while integrating biological systems and clinical context to improve human health and well-being.
The masters in bioengineering curriculum is structured to equip students with both advanced theoretical understanding and hands-on experience. Whether your interests include medical device innovation, tissue engineering, biomechanics, or biomaterials, KU provides a collaborative and interdisciplinary platform to expand your expertise. The program is well suited for practicing engineers and recent graduates seeking professional advancement in industry.
As a professional master’s degree, this masters in biomedical engineering–focused pathway prepares students for leadership roles across biotechnology companies, healthcare organizations, medical device manufacturers, and regulatory environments. Coursework integrates engineering design, systems thinking, biological sciences, and applied analysis to ensure graduates can translate scientific insight into scalable, real-world solutions.
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For more information about the program, visit the program page below.
Bioengineering, ME/MSKU School of Engineering
The Masters in Bioengineering is part of the School of Engineering, where new technologies are developed to solve the problems facing the world.Master’s in Bioengineering Learning Outcomes
Upon completing the masters in bioengineering, graduates will be able to:
- Demonstrate advanced knowledge of bioengineering principles, quantitative methods, and applied engineering practices.
- Design and evaluate innovative solutions to complex biomedical engineering challenges.
- Apply engineering analysis and modeling techniques to biological systems and medical technologies.
- Integrate interdisciplinary knowledge from engineering and life sciences to address healthcare needs.
- Communicate technical findings and design solutions effectively to professional and stakeholder audiences.
These outcomes reflect the applied and interdisciplinary focus central to KU’s masters in bioengineering programs and align with expectations for advanced professional engineering practice.
What Careers Are Possible with a Master’s in Bioengineering?
Graduates of the masters in bioengineering are prepared for diverse career paths across biotechnology, medical devices, pharmaceuticals, healthcare systems, and regulatory environments. The degree supports advancement into engineering leadership, product development, and innovation-focused roles.
Common career paths include:
- Medical Device Engineer
- Biotech Research and Development Engineer
- Healthcare Technology Manager
- Biomedical Consultant
- Regulatory Affairs Specialist
According to Lightcast, professionals in bioengineering and biomedical engineering roles earn competitive wages, and national data indicates strong demand across medical device and healthcare technology sectors. Reported masters in bioengineering salary outcomes vary by region and experience level, but industry data consistently reflects strong earning potential compared to many other engineering-related occupations.
Tuition and Financial Aid
The University of Kansas offers a variety of financial aid options for graduate students in the bioengineering program, including scholarships, assistantships, and federal financial aid. Tuition rates are competitive, and students can explore funding opportunities to make their education more affordable. Visit KU Financial Aid & Scholarships for more information.Admission Requirements
To apply for the ME in Bioengineering at the University of Kansas, applicants must meet the following criteria:
- Bachelor’s Degree: A completed bachelor’s degree in bioengineering, biomedical engineering, or a related field from an accredited institution.
- GPA: A minimum GPA of 3.0 on a 4.0 scale.
- GRE Scores: The GRE is not required for admission to this program.
- Transcripts: Official transcripts from all post-secondary institutions attended.
- Letters of Recommendation: Two letters of recommendation from professionals or academics who can speak to your qualifications.
- Statement of Purpose: A personal statement outlining your academic and career goals, and your motivation for pursuing the MEng in Bioengineering.
For more information on the application process, visit KU Bioengineering.
Student Life and Learning Experiences
Students in the masters in bioengineering benefit from collaborative learning environments that connect engineering theory with applied biomedical challenges. Through project-based coursework and interdisciplinary engagement, students work alongside faculty and peers to solve problems in medical technology, biomaterials, biomechanics, and related fields.
The program’s integration within the School of Engineering encourages collaboration with other engineering disciplines, broadening students’ perspectives and strengthening cross-functional design skills. This interdisciplinary structure distinguishes KU’s masters in bioengineering programs by reinforcing both technical depth and systems-level thinking.
Master’s in Bioengineering Sample Courses
The masters in bioengineering curriculum blends core engineering coursework with specialized electives that support professional advancement. Sample courses may include:
- Medical Device Design and Innovation: Learn how to design and develop medical devices that address real-world clinical needs.
- Biomaterials and Biocompatibility: Study materials used in medical devices and implants and understand how they interact with human tissue.
- Biomechanics: Explore the mechanical behavior of biological tissues and how this knowledge can be applied to orthopedics and rehabilitation engineering.
- Systems Biology for Bioengineering: Understand the molecular and cellular systems that underpin bioengineering solutions.
Course offerings allow students to tailor their experience within the broader framework of KU’s masters in biomedical engineering-aligned professional engineering curriculum. For complete and current course descriptions, refer to KU’s Graduate Catalog.
Master’s in Bioengineering Frequently Asked Questions
When should I apply?
Priority deadline for application is May 1, final deadline is July 1.
How long will it take to complete the degree?
Students typically complete this degree in two years.