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INTAKE: September
Munster Technological University (MTU) offers a cutting-edge BEng in Biomedical Engineering program, which combines the principles of engineering with medical and biological sciences to develop solutions for healthcare challenges. This program is designed to provide students with the technical expertise and innovative mindset needed to work in the rapidly advancing biomedical field. Graduates will be prepared to contribute to the design, development, and implementation of medical devices, diagnostic tools, and treatment systems that improve patient care and medical outcomes.
Curriculum: The BEng in Biomedical Engineering at MTU features a comprehensive curriculum that blends core engineering principles with specialized biomedical topics. The program includes foundational studies in mathematics, physics, and engineering mechanics, alongside advanced modules in areas such as biomaterials, medical imaging, biomechanics, and bioinstrumentation. Students also gain practical experience through laboratory work, projects, and the application of engineering principles to real-world healthcare scenarios. The curriculum ensures that students not only understand the theoretical aspects of biomedical engineering but also gain hands-on experience in developing practical solutions for the healthcare industry.
Research Focus: MTU’s BEng in Biomedical Engineering program emphasizes research that addresses the evolving needs of the healthcare sector. Research focuses on areas such as medical device innovation, tissue engineering, and the integration of robotics in healthcare. Faculty and students collaborate on projects that explore the development of new diagnostic tools, rehabilitation devices, and technologies that enhance patient care. The program’s research-driven approach encourages students to engage with the latest advancements in biomedical technology and contribute to groundbreaking developments in the field.
Industry Engagement: The BEng in Biomedical Engineering program at MTU maintains strong connections with the biomedical and healthcare industries, offering students numerous opportunities for internships, industry placements, and collaborative projects. These industry links provide students with invaluable exposure to real-world applications of biomedical engineering, ensuring that they are prepared to tackle the practical challenges of the profession. Additionally, MTU partners with leading companies in the biomedical sector, enabling students to engage with industry experts, work on live projects, and gain insights into current trends and innovations.
Global Perspective: The BEng in Biomedical Engineering at MTU takes a global approach by addressing international healthcare challenges and fostering global collaboration in biomedical research. Students are encouraged to explore case studies from various regions, focusing on global health issues, medical device standards, and healthcare delivery. The program also offers opportunities for international study exchanges and collaborations with leading institutions, giving students a broader understanding of how biomedical engineering is applied across different healthcare systems and cultures.
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IELTS 6
€ 13500
Undergraduate Entry Requirements
Academic Qualifications: Applicants for undergraduate programs typically require a minimum academic achievement of 65% or above in their previous academic qualifications.
English Language Proficiency:
Students must provide:
It's important to note that entry requirements can vary by program and may change over time. Additionally, some programs may have additional requirements, such as interviews, portfolios, or work experience.
Munster Technological University (MTU) is dedicated to providing financial support to international students through a variety of scholarship programs.
MTU International Scholarships: MTU offers a limited number of International Scholarships for students from outside the European Union (EU). These scholarships are typically awarded based on academic merit and are designed to make studying at MTU more affordable for international students. The scholarships may cover a portion of tuition fees, reducing the overall cost of the program.
Country-Specific Scholarships: MTU has specific scholarships tailored to students from certain countries or regions. These scholarships are designed to attract high-achieving students from diverse backgrounds and often provide a financial incentive to apply. Depending on the student’s home country, the scholarship amounts and eligibility criteria may vary.
External Scholarships and Funding Opportunities: In addition to MTU’s internal scholarship offerings, international students may also be eligible for funding from external organizations, government agencies, or their home country. Scholarships from international bodies such as the Irish Government or various international development agencies may be available for students from specific regions. MTU’s International Office can provide information on these external scholarships and assist students in applying for them.
Graduates of the BEng in Biomedical Engineering program at Munster Technological University (MTU) are equipped with the skills and expertise to pursue a wide range of career opportunities in the biomedical, healthcare, and engineering sectors. The combination of engineering principles with medical and biological sciences opens up numerous career paths.
Biomedical Engineer: Designing, testing, and maintaining medical devices and equipment, such as prosthetics, diagnostic tools, and surgical instruments.
Medical Device Designer: Developing innovative medical devices, ensuring that they meet safety standards and enhance patient care.
Biomaterials Engineer: Specializing in the design and development of materials used in medical implants and devices, such as artificial joints, stents, and tissue scaffolds.
Clinical Engineer: Working within hospitals or healthcare facilities to ensure that medical equipment is functioning properly and meets regulatory standards.
Regulatory Affairs Specialist: Managing compliance with health and safety regulations for medical products, ensuring they meet the required legal standards for use in healthcare environments.
Rehabilitation Engineer: Designing and improving assistive technologies and devices that support people with disabilities, enhancing their mobility and quality of life.
Research and Development (R&D) Engineer: Working in the research and development of new biomedical technologies, such as advanced imaging systems, wearable health devices, or regenerative medicine solutions.
Quality Control Engineer: Ensuring that biomedical devices and equipment meet strict quality and performance standards before they reach the market.
Healthcare Consultant: Advising healthcare organizations on the integration and management of biomedical technologies to improve patient outcomes and operational efficiency.
Biomechanics Specialist: Analyzing the physical aspects of human movement to design medical devices or systems that assist in rehabilitation or improve physical performance.