MSc in Sport Performance Practice
The MSc in Sport Performance Practice at Atlantic Technological University is a meticul...
Letterkenny
INTAKE: September
The Bachelor of Engineering (Hons) in Biomedical Engineering program at Atlantic Technological University (ATU) in Ireland offers students a comprehensive education at the intersection of engineering, biology, and healthcare. This program is designed to equip students with the knowledge and skills necessary to develop innovative medical technologies, devices, and systems that improve patient care and healthcare outcomes. Through a combination of theoretical learning, hands-on laboratory experiences, and clinical placements, students learn about biomedical instrumentation, medical imaging, biomaterials, biomechanics, and regulatory standards, preparing them for careers in the dynamic field of biomedical engineering.
Curriculum: The curriculum of the Bachelor of Engineering (Hons) in Biomedical Engineering program covers a broad range of topics relevant to biomedical engineering, including physiology, anatomy, electronics, mechanics, and materials science. Students study core engineering subjects such as mathematics, physics, and computer programming, as well as specialized biomedical engineering courses in medical device design, bioinstrumentation, signal processing, and tissue engineering. The curriculum integrates theoretical knowledge with practical skills development through laboratory experiments, design projects, and clinical case studies, allowing students to apply engineering principles to solve real-world healthcare challenges.
Research Focus: ATU's Bachelor of Engineering (Hons) in Biomedical Engineering program emphasizes research as a fundamental aspect of biomedical engineering education and innovation. Faculty members and students engage in research activities that explore cutting-edge technologies, biomedical devices, and medical therapies. Research projects may include investigations into wearable health monitoring devices, implantable medical sensors, or regenerative medicine techniques. Through research-led teaching and experiential learning, students develop critical thinking skills, research methodology, and the ability to apply engineering principles to advance healthcare technology and improve patient care.
Industry Engagement: Atlantic Technological University maintains strong connections with the biomedical engineering industry, medical device companies, healthcare providers, and regulatory agencies, providing students with opportunities to engage with professionals, experts, and industry leaders. Industry partners contribute to curriculum development, ensuring that the program remains relevant and aligned with current industry needs and trends. Students benefit from guest lectures, industry seminars, and internships that expose them to the latest advancements in biomedical engineering, medical device development, and healthcare innovation. Additionally, clinical placements offer valuable hands-on experience and insights into healthcare delivery, enhancing students' understanding of patient needs and clinical requirements.
Global Perspective: ATU's Bachelor of Engineering (Hons) in Biomedical Engineering program promotes a global perspective, recognizing the international nature of biomedical engineering challenges and opportunities. Students learn about global healthcare systems, medical technologies, and regulatory frameworks, gaining insights into healthcare disparities and global health challenges. The program offers opportunities for international study exchanges, collaborative research projects with international partners, and participation in global health initiatives, allowing students to gain exposure to diverse healthcare settings and contribute to the development of innovative solutions to global health problems.
Letterkenny
IELTS 6
€ 10500
Undergraduate Entry Requirements
Academic Qualifications: Applicants for undergraduate programs typically require a minimum academic achievement of 70% 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.
Atlantic Technological University is dedicated to supporting international students in their pursuit of higher education. To this end, the university offers a range of scholarships and financial aid opportunities to help make studying in Ireland more affordable.
Merit-Based Scholarships: Atlantic Technological University offers merit-based scholarships for outstanding international students. These scholarships are awarded to students who have demonstrated exceptional academic performance and achievements.
Need-Based Financial Aid: The university provides financial aid to international students based on their financial needs. This assistance is designed to help students who may face financial challenges in pursuing their education.
Country-Specific Scholarships: Some scholarships may be available to students from specific countries. These scholarships are often established through government partnerships or institutional collaborations.
Research Scholarships: For students interested in research programs, Atlantic Technological University offers research scholarships that support research projects and endeavors. These scholarships can cover tuition fees, living expenses, and research-related costs.
Sports Scholarships: If you are a student-athlete with exceptional sporting talents, you may be eligible for sports scholarships. These scholarships can help you balance your academic and athletic pursuits.
External Scholarships: Atlantic Technological University encourages students to explore external scholarship opportunities provided by governments, foundations, and organizations in their home countries.
Graduates of the Bachelor of Engineering (Hons) in Biomedical Engineering program at Atlantic Technological University (ATU) in Ireland are well-equipped for a variety of exciting career opportunities in the field of biomedical engineering.
Biomedical Engineer: Biomedical engineers design, develop, and maintain medical devices, equipment, and systems used in healthcare settings. They work on a wide range of projects, including prosthetics, medical imaging devices, artificial organs, and diagnostic equipment. Biomedical engineers collaborate with healthcare professionals, researchers, and manufacturers to improve patient care and advance medical technology.
Clinical Engineer: Clinical engineers work in hospitals and healthcare facilities, where they are responsible for managing and maintaining medical equipment and technology. They ensure that medical devices are functioning properly, safe for patient use, and compliant with regulatory standards. Clinical engineers also provide training and support to healthcare staff on the use of medical equipment and technology.
Biomechanical Engineer: Biomechanical engineers study the mechanical aspects of biological systems, such as the human body, to design and develop medical devices and treatments. They work on projects related to orthopedic implants, rehabilitation devices, and sports equipment. Biomechanical engineers may also conduct research to understand how forces affect the human body and contribute to injury prevention and treatment.
Medical Device Developer: Medical device developers design and innovate new medical devices and technologies to address unmet clinical needs and improve patient outcomes. They conduct research, prototype development, and testing to bring new medical products to market. Medical device developers work for medical device companies, startups, research institutions, and regulatory agencies.
Regulatory Affairs Specialist: Regulatory affairs specialists ensure that medical devices and technologies comply with regulatory requirements and standards. They are responsible for preparing and submitting regulatory submissions to government agencies, such as the Food and Drug Administration (FDA) or the European Medicines Agency (EMA). Regulatory affairs specialists also provide guidance on regulatory compliance and assist with quality management processes.
Biomedical Researcher: Biomedical researchers conduct scientific studies and experiments to advance knowledge in the field of biomedical engineering and healthcare. They may work in academic institutions, research laboratories, or pharmaceutical companies, studying diseases, developing new treatments, and evaluating the safety and efficacy of medical devices and therapies.
Rehabilitation Engineer: Rehabilitation engineers design and develop assistive devices and technologies to help individuals with disabilities improve their mobility, independence, and quality of life. They work on projects such as wheelchairs, prosthetics, and adaptive technology for communication and daily living activities. Rehabilitation engineers collaborate with healthcare professionals and individuals with disabilities to customize solutions to meet individual needs.
Biomedical Sales Engineer: Biomedical sales engineers promote and sell medical devices, equipment, and technology to healthcare providers, hospitals, and clinics. They educate customers on product features, benefits, and applications, and provide technical support and training as needed. Biomedical sales engineers work for medical device manufacturers, distributors, and sales agencies, helping healthcare organizations choose the right products for their needs.
Quality Assurance Engineer: Quality assurance engineers ensure that medical devices and technologies meet quality standards and regulatory requirements throughout the manufacturing process. They develop and implement quality control procedures, conduct inspections and audits, and investigate product non-conformities and complaints. Quality assurance engineers work closely with manufacturing teams and regulatory agencies to maintain product quality and safety.
Healthcare Technology Consultant: Healthcare technology consultants provide strategic advice and expertise to healthcare organizations on the selection, implementation, and optimization of medical devices and technology solutions. They assess organizational needs, evaluate technology options, and develop implementation plans to support healthcare delivery and patient care. Healthcare technology consultants work for consulting firms, healthcare providers, and technology vendors, helping organizations leverage technology to improve healthcare outcomes.