Career Outcomes — MSc in Medical Devices, Regulatory Affairs & Health Information Technologies

Transform your career in biomedical engineering and medical device development

Program Objective

The Master of Science in Medical Devices, Regulatory Affairs, and Health Information Technologies provides students with knowledge of modern engineering principles to analyze and solve complex problems in biology, medicine, and engineering. Through this program, you will gain practical tools and theoretical knowledge for making meaningful impact in biomedical engineering and health technology sectors.

Program Structure:

30 credit hours of advanced coursework
3 specialized concentrations to choose from
Hands-on laboratory and design projects
Industry-relevant research opportunities
Professional networking and mentorship

What You’ll Be Able to Do

Upon completion of the program, you will have developed the following core competencies:

Engineering Problem-Solving

Apply engineering principles, mathematics, and science to solve complex challenges in biology and medicine, from conceptualization to implementation.

Experimental Design & Validation

Design, execute, and analyze biomedical engineering experiments with rigorous methodology and scientific validity in laboratory and clinical settings.

Medical Device Development

Work effectively on the design and development of innovative medical devices including prosthetics, pacemakers, imaging systems, and advanced surgical instruments.

Holistic Design Thinking

Design biomedical components and systems while considering political, ethical, regulatory, and social factors that impact healthcare and patient outcomes.

Learning Outcomes

The program develops expertise across six key areas essential for success in biomedical engineering:

Biomedical Engineering Fundamentals

Master core principles of biomechanics, bioinstrumentation, biomaterials, and tissue engineering that form the foundation of modern medical device development.

Regulatory Requirements & Compliance

Understand FDA regulations, international standards (ISO, CE marking), and quality management systems essential for bringing medical devices to market successfully.

Communication & Interpersonal Skills

Develop ability to communicate technical concepts effectively to diverse audiences including clinicians, regulators, and patients through written reports and presentations.

Research & Innovation Skills

Conduct independent research, analyze scientific literature critically, and contribute novel insights to advance biomedical engineering and health technology fields.

Professionalism & Ethics

Apply ethical principles to biomedical challenges, practice professional responsibility, and understand the societal impact of medical devices and health technologies.

Health Information Technologies

Leverage digital health platforms, data analytics, and health IT systems to improve clinical workflows, patient care, and medical device integration in healthcare settings.

Career Opportunities

Our graduates pursue diverse, rewarding careers across the biomedical and medical device industries:

Biomedical Engineer

Design and develop medical devices and equipment, conducting testing and troubleshooting to ensure safety and efficacy. MSc graduates lead innovation in prosthetics, imaging systems, and diagnostic devices.

Quality Assurance Engineer

Develop and implement quality standards and testing protocols for medical devices. Your advanced training enables you to ensure regulatory compliance and drive continuous improvement in manufacturing.

Product Manager

Guide medical device products from conception through commercialization, bridging engineering, regulatory, and marketing teams. MSc expertise positions you to manage complex portfolios and launch innovations successfully.

Research & Development Engineer

Lead research initiatives to develop next-generation medical technologies and devices. Your advanced degree enables independent research and collaboration with clinical institutions to translate innovation into practice.

Clinical Engineer

Serve as the bridge between medical devices and clinical teams in hospitals and healthcare systems. Manage medical device implementation, training, and optimization for improved patient care and operational efficiency.

Biomechanical Engineer

Specialize in developing prosthetics, orthotic devices, and rehabilitation equipment using biomechanical principles. Your skills enable you to improve mobility and quality of life for patients with disabilities.

Industries Where Graduates Work

MSc Medical Devices graduates build careers across multiple sectors in the global healthcare and biomedical industry:

Pharmaceutical Companies

Biotechnology Firms

Medical Device Manufacturers

Government Agencies (FDA, NIH)

Contract Research Organizations

Hospitals & Healthcare Systems

Management Consulting Firms

Academic & Research Institutions

Salary & Job Outlook

Competitive Compensation

Biomedical engineers with advanced degrees command strong salaries in the job market. Based on general Bureau of Labor Statistics data, the median salary for biomedical engineers is over $100,000 annually, with experienced professionals and those in specialized roles earning significantly higher compensation. Your MSc positions you for senior positions with enhanced earning potential.

Strong Job Growth

The biomedical engineering field is experiencing robust growth driven by aging populations, technological innovation, and increased healthcare spending globally. Job outlooks for biomedical engineers consistently show growth rates above the national average, with particularly strong demand in medical device development, regulatory affairs, and health technology sectors where MSc graduates specialize.

Note: Salary and job outlook figures are based on general industry data from the U.S. Bureau of Labor Statistics and broader market trends. Individual salaries vary based on location, experience, specialization, and employer.

Frequently Asked Questions

What types of jobs can I get with an MSc in Medical Devices?
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Our graduates pursue diverse roles across the medical device and biomedical engineering industries, including biomedical engineer, quality assurance engineer, product manager, R&D engineer, clinical engineer, and biomechanical engineer. Many also transition into regulatory affairs, healthcare consulting, and medical device sales. The degree prepares you for roles requiring both technical expertise and business acumen.

What is the typical salary range for graduates?
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Based on industry data, biomedical engineers with master’s degrees typically earn median salaries of $100,000 or more, depending on location, specialization, and experience level. Senior positions, management roles, and specialists in high-demand areas like regulatory affairs may earn significantly more. Your specific salary will depend on employer, geographic location, and your chosen career path.

Do I need prior work experience to enroll?
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No, prior professional experience is not required for admission. However, applicants should have a strong foundation in engineering, science, or related disciplines. We welcome both recent graduates and professionals with work experience. Many students balance the program with part-time work or internships, which can enhance your learning and career prospects.

Can I work internationally with this degree?
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Yes, the MSc in Medical Devices is recognized internationally and positions you for global career opportunities. Medical device companies operate worldwide, and knowledge of both U.S. FDA and international regulatory frameworks (ISO, CE marking, Health Canada) opens doors internationally. Graduates work in Europe, Asia, and other regions. However, professional licensure requirements vary by country, so research opportunities in your target location.

Start Your Career in Biomedical Engineering

Join a community of innovators advancing healthcare through medical device development and regulatory excellence.

Apply Now

MSc Medical Devices – Career Outcomes