| Study Location | Kyiv |
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| Academic Field | G22 Biomedical Engineering - G Engineering, Manufacturing and Construction |
| Type | Undergraduate, Full time (on-line study is available) |
| Nominal Duration | 4 years (240 ECTS) |
| Study Language | English |
| Awards | Bachelor of Biomedical Engineering |
| Entry qualification | Start your studies with a Certificate of Completed Secondary Education and the entrance exam. A valid invitation is required — documents in English are accepted, otherwise provide official translations. For enrollment, bring original, legalized documents translated into Ukrainian with notary certification. After admission, your documents undergo nostrification to be officially recognized in Ukraine. |
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| Territory requirements | Citizens of the Russia, Iran, Belarus and North Korea are not allowed. |
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| Language Requirements | English (B1/B2) |
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Entrance Exam Description
Subjects of the exam: English Language, specialty exam.
Program Structure
1. Foundation Studies
Establish essential engineering and science knowledge: Mathematics and Physics fundamentals; Technical and professional English; Introduction to engineering principles; Biological and medical basics (e.g., anatomy, physiology) in engineering context.
These courses build a strong platform for advanced biomedical topics.
2. Core Professional Training
The program’s heart, focusing on engineering methods and medical technologies: Biomedical analysis, measurement and signals; Design and engineering of medical equipment; Biomaterials and prosthetics technologies; Medical imaging and diagnostics systems; Software for biomedical systems; Telemedicine and computer networks in healthcare.
This cycle equips students with competencies to work with both hardware and software components of modern medical systems.
3. Practical Labs & Projects
Hands-on experience is a key part of learning: Laboratory work with medical and engineering equipment; Project design and prototyping; Simulation and modelling of biomedical systems; Practical exercises in multidisciplinary teams.
These activities mirror real-world challenges in biomedical engineering, ensuring practical readiness.
4. Elective & Specialized Courses
Students can deepen expertise through electives in areas such as: Biomechanics; Prosthetics and rehabilitation engineering; Medical information systems; Biomedical signal and image processing.
This flexibility lets students tailor the program toward specific interests and career goals.
5. Final Degree Project
In their final year, students complete a capstone project that synthesizes theoretical knowledge and practical skills, often addressing real biomedical engineering problems through design, implementation and analysis.
Overview
The program combines engineering principles with biological and medical technologies. Students gain the knowledge and skills needed to design, develop, operate and evaluate medical devices, equipment and systems, as well as biomedical software and data solutions.
The curriculum focuses on the intersection of engineering and health sciences, preparing graduates to apply technical, analytical and problem-solving methods in healthcare-related environments.
Career Opportunities
Graduates are ready for diverse technical and engineering roles in healthcare, industry, research and innovation. Potential career paths include:
- Biomedical Equipment Engineer – design and maintain medical devices;
- Medical Devices Developer – develop, test and optimize health technologies;
- Healthcare Systems Integrator – combine engineering solutions with clinical needs;
- Biomedical Data and Software Specialist – create software and systems for diagnostics and data processing;
- Clinical Technology Consultant – provide technical expertise in medical facilities;
- Quality and Compliance Technician – ensure equipment meets regulatory and safety standards.
This interdisciplinary background enables graduates to work at the interface of engineering, health care, life sciences and emerging medical technologies.