Master of Medical Engineering Med Devices and Technologies
The University of Auckland, New Zealand, offers a cutting-edge Master of Medical Engine...
Auckland
INTAKE: Jul & Feb
The Master of Medical Engineering with a specialization in Biomechanical Engineering offered by the University of Auckland is a cutting-edge program designed to equip students with advanced skills and knowledge in the intersection of engineering principles and biomedical applications. This program delves into the intricacies of biomechanics, focusing on its applications within the medical field.
Curriculum: The curriculum of the Master of Medical Engineering - Biomechanical Engineering program at the University of Auckland is meticulously crafted to provide a comprehensive understanding of biomechanics and its applications in medical contexts. Students engage in coursework covering areas such as advanced biomechanics, medical device design, tissue engineering, biomaterials, and computational modeling. The program integrates theoretical learning with practical applications through laboratory work and research projects, ensuring a well-rounded educational experience.
Research Focus: The University of Auckland boasts a strong emphasis on research, and the Master of Medical Engineering - Biomechanical Engineering program aligns with this ethos. Students have access to cutting-edge research facilities and opportunities to engage in groundbreaking research initiatives. The program encourages students to explore innovative solutions in biomechanical engineering, contributing to advancements in healthcare technologies, rehabilitation techniques, and medical device development.
Industry Engagement: The University of Auckland maintains robust connections with industry leaders and healthcare institutions, providing students with invaluable opportunities for industry engagement. Collaborations with industry partners offer students internships, research projects, and exposure to real-world challenges, fostering a seamless transition into professional roles upon graduation.
Global Perspective: With a diverse student body and a global engagement, the University of Auckland fosters a rich multicultural environment. The Master of Medical Engineering - Biomechanical Engineering program encourages an international perspective, welcoming students from various backgrounds and promoting cross-cultural collaboration. This global outlook prepares graduates to thrive in an interconnected world and address healthcare challenges on a global scale.
Auckland
IELTS 6.5
NZD 48622
Postgraduate Entry Requirements
Academic Qualifications: Applicants for postgraduate programs usually need a bachelor's degree or an equivalent qualification from a recognized institution. The entry requirement may specify a minimum score of 60% or higher in the previous academic degree.
English Language Proficiency:
Students must provide:
Work experience: Some postgraduate courses may require relevant work experience in the field.
It is important to note that meeting the minimum entry requirements does not guarantee admission, as the university considers factors such as availability of places and competition for the program. Additionally, some courses may have higher entry requirements or additional selection criteria, such as interviews or portfolio submissions.
The University of Auckland offers various scholarships specifically designed to support and encourage international students in their academic pursuits. These scholarships aim to attract high-achieving students from around the world and provide financial assistance to help them achieve their educational goals at the university.
Merit-Based Scholarships: The University of Auckland offers merit-based scholarships recognizing academic excellence. These scholarships are awarded to students with outstanding academic achievements in their previous studies, supporting them throughout their undergraduate or postgraduate programs.
Need-Based Grants: For students facing financial challenges, the university provides need-based grants to assist with tuition fees or living expenses. These grants aim to ensure that deserving students have the opportunity to pursue their education without financial constraints.
Research Scholarships: The university also offers research scholarships for international students interested in pursuing research-based programs. These scholarships support students engaged in innovative research projects and contribute to the university's academic research endeavors.
Country-Specific Awards: Additionally, the University of Auckland provides scholarships specifically designated for students from certain countries. These awards aim to promote cultural diversity and international collaboration by attracting students from diverse geographical backgrounds.
Graduates from the Master of Medical Engineering - Biomechanical Engineering program at the University of Auckland possess a unique skill set that opens doors to various rewarding career paths in both the engineering and healthcare sectors.
Biomedical Engineer: Graduates can pursue roles as biomedical engineers, where they apply engineering principles to healthcare by designing and developing medical devices, equipment, and technologies. They may work on prosthetics, artificial organs, medical imaging devices, and rehabilitation equipment.
Biomechanics Specialist: With expertise in biomechanical engineering, graduates can specialize in analyzing human movement, mechanics, and forces to address issues related to injury prevention, sports performance enhancement, and ergonomics in industries such as sports science, orthopedics, or rehabilitation.
Medical Device Researcher/Developer: Graduates may work in research and development roles within the medical device industry, contributing to the creation of innovative products that enhance patient care. They could focus on improving existing devices or developing novel technologies to address specific medical needs.
Clinical Engineer: In this role, graduates can bridge the gap between clinical practice and technology. They may work in hospitals or healthcare facilities, maintaining medical equipment, ensuring safety standards, and advising on the procurement of new technologies.
Research Scientist/Academia: Pursuing further studies or a career in academia as a research scientist or lecturer allows graduates to delve deeper into biomechanical engineering. They can contribute to groundbreaking research, publish papers, and educate future engineers and scientists.
Regulatory Affairs Specialist: Graduates can work in regulatory bodies or within companies, ensuring that medical devices comply with government regulations and quality standards. They may be involved in the approval process for new medical technologies.
Healthcare Consultant: Leveraging their expertise, graduates can work as consultants for healthcare organizations, advising on technology implementation, process improvement, and innovative solutions to enhance patient care and efficiency.
Entrepreneur/Start-up Founder: Some graduates may opt to start their ventures, developing and commercializing their ideas in the medical technology space. They could create startups focusing on biomechanical innovations or consultancy services catering to healthcare and engineering sectors.