Overview
NFQ Level 9, Major Award
(Joint Degree Between Munster Technological University and University College Cork)
Exit Award only
Students on the MSc in Medical Device Development who successfully complete taught modules to the value of 60 credits may choose to exit the programme and be awarded a Postgraduate Diploma in Medical Device Development.
UCC and MTU Codes
| UCC Code |
MTU Code |
Module Run by |
Module Title |
Credit |
| AN6050 |
TBD |
UCC |
Principles of Human Anatomy |
5 |
| AN6051 |
TBD |
UCC |
Human Biomechanics |
5 |
| AN6052 |
TBD |
UCC |
Anatomy for Biomedical Devices - Cardiovascular & Neurovascular Systems |
10 |
| AN6053 |
TBD |
UCC |
Anatomy for Biomedical Devices – Orthopaedics & Musculoskeletal System |
10 |
| AN6054 |
TBD |
MTU |
Design Innovation |
5 |
| AN6055 |
TBD |
MTU |
Biomaterials for Medical Device Development |
10 |
| AN6056 |
TBD |
MTU |
Mechanics for Medical Device Development |
5 |
| AN6057 |
TBD |
MTU |
Integrated Product and Process Design |
10 |
Programme Requirements
For information about modules, module choice, options and credit weightings, please go to Programme Requirements.
Programme Requirements
Module List
| Code |
Title |
Credits |
| |
| AN6050 | Principles of Human Anatomy | 5 |
| AN6051 | Human Biomechanics | 5 |
| AN6052 | Anatomy for Biomedical Devices - Cardiovascular and Neurovascular Systems | 10 |
| AN6053 | Anatomy for Biomedical Devices - Orthopaedics and the Musculoskeletal System | 10 |
| AN6054 | Design Innovation | 5 |
| AN6055 | Biomaterials for Medical Device Development | 10 |
| AN6056 | Mechanics for Medical Device Development | 5 |
| AN6057 | Integrated Product and Process Design | 10 |
Examinations
Full details and regulations governing Examinations for each programme will be contained in the Marks and Standards Book and for each module in the Book of Modules.
Programme Learning Outcomes
Programme Learning Outcomes for Postgraduate Diploma in Medical Device Development (NFQ Level 9, Major Award)
On successful completion of this programme, students should be able to:
- A systematic understanding of the design and engineering principles required to develop a medical device to meet a clinical need based on an understanding of the anatomy of the human body, including changes associated with pathologies and aging.
- A critical awareness of the clinical needs and a knowledge of the application of tools for developing ideas and concepts, whilst considering the engineering and material science-based principles to select appropriate technologies required to manufacture the solutions.
- Mastery of a range of design tools and methods of analysis in the field of clinical anatomy, material science and medical device development.
- The ability to select and apply appropriate advanced skills and analytical techniques including the ability to develop new skills in emerging techniques, as required in medical device development. The ability to undertake analysis of a design, receive feedback, analyse and iterate, while ensuring strong rationales for decisions throughout a particular design process.
- The ability to act at a variety of professional levels; to empathise with users, to act with curiosity and to seek new perspectives; ability communicate key concepts to a multidisciplinary audience to promote design solutions and request feedback.
- The technical competence necessary to take significant responsibility for the own work and group deliverables; lead and initiate activity in the development of a medical device.
- The ability to evaluate their own learning, to reflect, identify knowledge gaps, learn from observing others, and take responsibility for the pursuit of academic professional development pathways.
- The ability to assume personal responsibility for fostering a collaborative and innovative culture within a multidisciplinary project environment. And demonstrate the ability to technically evaluate the societal, environmental and technical impact of the life cycle of a design solution.
