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Engineering - Biomedical Engineering

Postgraduate
110259

The M.Sc. in Biomedical Engineering provides advanced training and education to the next generation of biomedical engineers. The course brings students to exciting new developments in biomedical engineering, ranging from development of new materials for use in cardiac therapeutics, designing innovative next generation medical devices, in silico design and modelling, to growing and regenerating new tissues for tissue replacement and in vitro disease modelling.

Award Name Degree - Masters (Level 9 NFQ)
NFQ Classification Major
Awarding Body University of Dublin
NFQ Level Level 9 NFQ
Award Name Postgraduate Diploma (Level 9 NFQ)
NFQ Classification Major
Awarding Body University of Dublin
NFQ Level Level 9 NFQ
Award Name NFQ Classification Awarding Body NFQ Level
Degree - Masters (Level 9 NFQ) Major University of Dublin Level 9 NFQ
Postgraduate Diploma (Level 9 NFQ) Major University of Dublin Level 9 NFQ
Course Provider:
Trinity College Dublin
Location:
Dublin City Centre
Attendance Options:
Full time, Daytime
Qualification Letters:
MSc/P.Grad.Dip
Apply to:
Course provider
Number of credits:
The Masters programme is worth 90 ECTS. Candidates take 50 ECTS in taught modules and must complete a research dissertation worth 40 ECTS. A Postgraduate Diploma may be awarded where a student has completed 60 ECTS of taught modules.

Duration

1 year full-time.

Entry Requirements

Admission Requirements
Applicants must hold a minimum of an upper second-class honours degree (2.1) or higher in Engineering, Biomedical Technology, or a cognate discipline.

Shortlisted candidates will be invited for an online interview with the Course Director. Outcomes of the interviews will be made known to candidates shortly after the interviews.

English Language Requirements
All applicants to Trinity are required to provide official evidence of proficiency in the English language. Applicants to this course are required to meet Band B (Standard Entry) English language requirements. For more details of qualifications that meet Band B, see the English Language Requirements page.

Careers / Further progression

Career Opportunities
The programme provides in-depth training and experience for those looking to further their career in biodiversity and its conservation, including in a range of international non- governmental organisations (NGOs), government departments and environmental consultancies. Graduates can also pursue further postgraduate research in this area.

Course Web Page

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Further information

Next Intake: September 2025

18

Apply Online

Postgraduate Fees

Closing Date: 31st March 2025

Course Overview
The M.Sc. in Biomedical Engineering provides advanced training and education to the next generation of biomedical engineers. The course brings students to exciting new developments in biomedical engineering, ranging from development of new materials for use in cardiac therapeutics, designing innovative next generation medical devices, in silico design and modelling, to growing and regenerating new tissues for tissue replacement and in vitro disease modelling.

The Biomedical Engineering programme equips candidates with the education, problem-solving and creative skills, and training necessary to address important clinical needs in the medical devices industry, or research and clinical institutes. Students receive lectures from international experts in biomedical engineering subjects, specifically tailored to the current needs of industry and carry out research in internationally recognised, state of the art research laboratories and facilities.

One of the most unique courses of its kind in Ireland, the M.Sc. in Biomedical Engineering has received a number of awards, including Engineers Ireland: Excellence in Education Award (2012) and Best Postgraduate Course of the Year in Engineering (Winner 2012, Runner up 2016).

Is This Course For Me?
The M.Sc. in Biomedical Engineering at Trinity College Dublin is a postgraduate course designed for students who have a background in engineering or a related discipline and are interested in applying their knowledge and skills to the field of biomedical engineering. This course is suitable for individuals who wish to pursue a career in the biomedical engineering industry, academic research or further study at Ph.D. level. It may also be of interest to practicing engineers who want to develop their expertise in the field of biomedical engineering.

Overall, the M.Sc. in Biomedical Engineering is a rigorous and challenging programme designed for students who are passionate about using their engineering skills to make a positive impact on society.

Course Content
The M.Sc. in Biomedical Engineering offers four distinct streams tailored to the background and previous experience of entrants.

The General Stream is designed to provide a solid and broad basis in biomedical engineering for entrants with no previous background in biomedical engineering. Core modules include: Biomaterials; Biomechanics; Design and Innovation; Experimental & Research Methods in Biomedical Engineering; and a Research Project. Elective modules may include: Basic Medical Sciences; Deep Learning and its Applications; Finite Element Analysis; Form and Function of the Nervous System; Medical Device Design Fundamentals; Tissue Engineering; Active Implanted Devices and Systems; Advanced Medical Imaging; and Introduction to Autonomous Mobile Robotics.

The Medical Device Design specialisation is designed to bring together clinicians, researchers and the medical device industry to produce new solutions for clinical needs. The field of medical device research is a fast-moving area which can offer students a rewarding career in the global medical device market. Students will gain a specific education of the key topics in medical device design process and a knowledge of medical device regulation.

The Neural Engineering specialisation is focused on signal processing of neuroimaging and electrophysiological data to solve specific clinical problems. Modules include: Active Implanted Devices and Systems; Data Science in Neuroimaging; Design and Innovation; Experimental & Research Methods in Biomedical Engineering; Form and Function of the Nervous System; Neural Engineering; Neural Signal Analysis; and a Research Project.

The Tissue Engineering specialisation provides students with a critical understanding of stem cell biology and its therapeutic applications. Core modules include: Biomaterials; Current Topics in Cell and Tissue Engineering; Design and Innovation; Experimental & Research Methods in Biomedical Engineering; Laboratory Techniques in Cell and Tissue Engineering; Research Project; Tissue Engineering. Elective modules may include: Basic Medical Sciences; Biomechanics; Finite Element Analysis; Medical Device Design Fundamentals; and Advanced Medical Imaging.

Get in Touch
Telephone Number
+353 (0)1 8962359
+353 (0)1 8963393

Email
Dr. Mark Aherne (course director): ahearnm@tcd.ie

International Students

Course Provider:
Trinity College Dublin
Location:
Dublin City Centre
Attendance Options:
Full time, Daytime
Qualification Letters:
MSc/P.Grad.Dip
Apply to:
Course provider
Number of credits:
The Masters programme is worth 90 ECTS. Candidates take 50 ECTS in taught modules and must complete a research dissertation worth 40 ECTS. A Postgraduate Diploma may be awarded where a student has completed 60 ECTS of taught modules.