Registry

Module Specifications

Current Academic Year 2012 - 2013
Please note that this information is subject to change.

Module Title Bioinstrumentation & Rehab. Engineering
Module Code MM505
School School of Mechanical and Manufacturing Engineering
Online Module Resources

Module Co-ordinatorSemester 1: Caitriona Lally
Semester 2: Caitriona Lally
Autumn: Caitriona Lally
Module TeacherCaitriona Lally
NFQ level 8 Credit Rating 7.5
Pre-requisite None
Co-requisite None
Compatibles None
Incompatibles None
Description
To familiarise the students with technology currently used to improve the quality of life of individuals with disabilities, and those recovering from trauma

Learning Outcomes
1. Identify, formulate, analyse and solve numerical models to represent the musculoskeletal system and apply these models to the development of prosthetics/orthotics used in rehabilitation engineering.
2. Demonstrate the fundamental principles and design considerations of medical instruments currently in use for rehabilitation, e.g. EMG, ECG, EEG electrodes.
3. Describe extensive applications of medical instruments for rehabilitation.
4. Describe the technology currently used for physiotherapy and rehabilitation purposes, e.g. back braces, wheelchairs etc.
5. Devise new concepts and/or designs, through application of this technology, to engineer devices which aid rehabilitation..
6. Describe and/or perform experiments to assess rehabilitation device designs fulfilment of design constraints.
7. Describe in detail various types of physical and sensory disabilities of a temporary and permanent nature and be familiar with the devices and technology used to diagnose and improve such disabilities.
8. Write and present a well organised project report.



Workload Full-time hours per semester
Type Hours Description
Lecture36No Description
Laboratory6Lab based basic biomedical circuits
Tutorial6No Description
Independent learning time140No Description
Total Workload: 188

All module information is indicative and subject to change. For further information,students are advised to refer to the University's Marks and Standards and Programme Specific Regulations at: http://www.dcu.ie/registry/examinations/index.shtml

Indicative Content and Learning Activities
Content.
• Introduction to rehabilitation engineering• Modelling and simulation applied to biomechanics of the musculoskeletal system and prosthetics/orthotics• Wheelchairs and personal transportation• Wheelchair design• Wheelchair safety, standards and testing• Wheelchair support and seating• Rehabilitation engineering technologies: Principles and applications• Bioamplifiers - principles and design• ECG, EMG, EEG, EOG measurements - electrode principles and design• Stimulating electrodes• Design of medical instruments used in rehabilitation engineering• Defibrillators• Pacemakers• Sensory augmentation and substitution.

Assessment Breakdown
Continuous Assessment0% Examination Weight100%
Course Work Breakdown
TypeDescription% of totalAssessment Date
LaboratoryLaboratory based exam bsaed on amplifiers10%Week 9
Report (s) (written / oral)Written report examining patents 30%30%Week 12
PresentationFinal Presentation on project report10%Week 12
Reassessment Requirement
Resit arrangements are explained by the following categories;
1 = A resit is available for all components of the module
2 = No resit is available for 100% continuous assessment module
3 = No resit is available for the continuous assessment component
This module is category 1
Indicative Reading List
  • Nigg BM and Herzog W.: 1999, Biomechanics of the Musculo-Skeletal System, Wiley,
  • Cooper RA.: 1995, Rehabilitation Engineering Applied to Mobility and Manipulation, Institute of Physics,
  • Webster JG: 1998, Medical Instrumentation; Application and Design, Wiley,
  • Teodorescu H-NL and Jain LC: 2001, Intelligent Systems and Technology in Rehabilitation Engineering, The CRC International Series on Computational Intelligence,
  • Hedman G.: 1990, Rehabilitation Technology, Haworth Press,
  • Carr JJ and Brown JM.: 2000, Introduction to Biomedical Equipment Technology, Prentice Hall,
  • Bronzino JD: 2000, The Biomedical Engineering Handbook, Edition 2, vol 2, A CRC Handbook published in cooperation with IEEE Press,
  • Malmivuo J and Plonsey R: 1995, Bioelectromagnetism - Principles and Applications of Bioelectric and Biomagnetic Fields, Oxford University Press, New York, http://www.bem.fi/book/index.htm,
  • Cooper RA, Ohnanbe JH, Hobson DA: 2006, An Introduction to Rehabilitation Engineering, Taylor & Francis,
Other Resources
None
Array
Programme or List of Programmes
BSSAStudy Abroad (DCU Business School)
BSSAOStudy Abroad (DCU Business School)
CAMGGDip C.A. Mechanical & Manufacturing Eng
CAMMMSc. C.A. Mechanical & Manufacturing Eng
ECSAStudy Abroad (Engineering & Computing)
ECSAOStudy Abroad (Engineering & Computing)
HMSAStudy Abroad (Humanities & Soc Science)
HMSAOStudy Abroad (Humanities & Soc Science)
SHSAStudy Abroad (Science & Health)
SHSAOStudy Abroad (Science & Health)
Timetable this semester: Timetable for MM505
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