Bachelor of Engineering (Biomedical)

College of Engineering & Informatics

What our lecturers say

What our lecturers say
Biomedical Engineering

What our students say

What our students say
Studying Biomedical Engineering

Course overview

Biomedical Engineering is a relatively new branch of engineering that involves the use of cutting-edge technologies to help improve human healthcare. Biomedical engineers are involved in the design and creation of medical devices, implants such as stents, instruments and materials for clinical use. They also apply their engineering skills to problems in human biology and are at the forefront of developments in human medicine in the 21st century, enabling the medicial profession to diagnose and treat disease, and repair or replace damaged living tissue.

This degree programme was developed as a result of the need within the biomedical industry for highly skilled personnel. Locally based biomedical companies, of which there is a significant cluster, were involved in its design. It therefore remains highly relevant to the needs of industry while giving students a full training in engineering design principles and their application to human biology in an interdisciplinary environment. Related, relevant subjects that are covered over the course of the degree programme include biomedical instrumentation, tissue engineering and biomechanics.

If you want an interesting career that involves the application of engineering principles to medicine and biology, this may suit you. Biomedical engineers assist clinicians to analyse and solve problems in biology and medicine, therby helping to sustain or improve life. Both traditional and modern engineering principles and new technology are used. Biomedical engineers are also challenged to ensure that advances in technology keep pace with the advances in medicine and that the diagnostic, life-support or life-enhancing tools they create remain compatible with the human body.

Key facts

Entry requirements

Minimum Grade Higher C3 in two subjects and passes in four other subjects at Higher or Ordinary Level in the Leaving Certificate including: Irish, English, Mathematics, a laboratory science subject (i.e. Chemistry, Physics, Biology, Physics with Chemistry (joint), Agricultural Science) or Technology and any two other subjects recognised for entry purposes.

Additional requirements

For Leaving Certificate - Students must obtain a minimum of Grade C3 in the Higher Level Leaving Certificate paper in Mathematics or alternatively obtain a pass in the Special Engineering Entrance Examination in Mathematics (held in the University).

For A-Levels -A minimum of Grade C in A-Level Mathematics is required.

Duration: 4 years

Next start date: September 2014

Entry points(2013): range 405 - 575

A Level Grades (2013): AAA (A-Level) or equivalent combination

Average intake: 18

Course outline

Year 1

  • Engineering Calculus
  • Engineering Mathematical Methods
  • Engineering Mechanics
  • Engineering Chemistry
  • Engineering Physics
  • Fundamentals of Engineering
  • Engineering Graphics
  • Engineering Design
  • Engineering Computing


Year 2

  • Human Body Structure
  • Introduction to Biomedical Engineering
  • Biomedical Electronics and Instrumentation
  • Engineering Calculus
  • Engineering Algebra
  • Engineering Statistics
  • Introduction to Fluid Mechanics
  • Strength of Materials
  • Theory of Machines
  • Engineering Drawing (CADD II)
  • Workshop Practice
  • Engineering Computing
  • Electronic Engineering Laboratories

Year 3

  • Biomaterials
  • Human Body Function
  • Biomedical Production and Environmental Services
  • Mechanical Analysis and Design
  • Fluid Dynamics
  • Thermodynamics and Heat Transfer
  • Metals and Metals Processing
  • Automated Systems
  • Design Office
  • Communications
  • Polymer Technologies Laboratory
  • Service Learning and Ethics

Year 4

  • Tissue Engineering
  • Finite Element Methods in Engineering Analysis
  • Medical Implant and Device Design
  • Biomechanics
  • Elements of Pathology
  • Surgical Practice
  • Professional Engineering Project (PEP)
  • Plus a choice from a number of other courses

Further education

Biomedical Engineering has a large research and development component, both in third-level institutions and in industry. The PhD and MEngSc degrees are obtained primarily through research work, with an optional minor taught element in the case of the MEngSc. Students specialise in one of the discipline's various areas of research, working with a high degree of independence, and becoming experts on their chosen topic. This work is usually presented at international conferences and published in journals.

Find out more

Mechanical & Biomedical Engineering
T +353 91 492 723
F +353 91 563 991
E mechbio.eng@nuigalway.ie
www.nuigalway.ie/mechbio/

CAO code

GY408

Fees for this course

EU (Total): €7,492 p.a. 2014/15 (Inclusive of Levy & SCC)
 - Tuition: €4,518 p.a. 2014/15
 - Student contribution: €2,750 p.a. 2014/15
 - Student levy: €224 p.a. 2014/15
Non-EU (Total): €13,750 p.a. 2014/15

EU Fees:
- Tuition: may be paid by the Irish Government on your behalf if you qualify for free tuition fees see - free fee initiative.
- Student Contribution: €2,750 - payable by all students but may by paid by SUSI if you apply and are deemed eligible for a means tested SUSI grant.
- Student Levy:  €224 - payable by all students and is not covered by SUSI.

Current Students

David Nolan

Year Three, BE (Biomedical Engineering)

"Biomedical Engineering is at the cutting edge of modern technology, making an impact on people's health through designing medical devices. The course here in NUI Galway is challenging but very rewarding, combining elements of traditional engineering with those of medical science. The medical device industry has a huge base in Galway and even now huge investments are being made by the government and medical device companies who have come to Galway because of the biomedical engineering expertise present. "