ANNA UNIVERSITY CHENNAI: CHENNAI – 600 025
B.E DEGREE PROGRAMME BIOMEDICAL ENGINEERING
(Offered in Colleges affiliated to Anna University)
CURRICULUM AND SYLLABUS – REGULATIONS – 2004
B.E DEGREE PROGRAMME BIOMEDICAL ENGINEERING
(Offered in Colleges affiliated to Anna University)
CURRICULUM AND SYLLABUS – REGULATIONS – 2004
BM1010 MEDICAL IMAGING TECHNIQUES 3 0 0 100
AIM
• To have a clear understanding of concept and components of medical imaging techniques.
• To have an exposure on Quality assurance tests for X-rays, MRI.
• To understand the principles of 3D image and its clinical applications.
• To have a clear understanding of concept and components of medical imaging techniques.
• To have an exposure on Quality assurance tests for X-rays, MRI.
• To understand the principles of 3D image and its clinical applications.
OBJECTIVES
• To understand need for Quality assurance and Quality assurance tests for radiography, methods of recording sectional images.
• To study the functioning of radioisotopic imaging equipments.
• To know about MRI, image acquisition and reconstruction and MRI safety.
• To understand the mathematical concept needed in image processing.
• To study 3D image display techniques and its clinical applications.
• To understand need for Quality assurance and Quality assurance tests for radiography, methods of recording sectional images.
• To study the functioning of radioisotopic imaging equipments.
• To know about MRI, image acquisition and reconstruction and MRI safety.
• To understand the mathematical concept needed in image processing.
• To study 3D image display techniques and its clinical applications.
1. DIFFERENT MODES OF MEDICAL RECORDING 9
Quality assurance and image improvement in diagnostic radiology with X-Rays, specific Quality assurance tests for X-rays, need for sectional images, principles of sectional images recording, computer tomography with different trajectories.
Quality assurance and image improvement in diagnostic radiology with X-Rays, specific Quality assurance tests for X-rays, need for sectional images, principles of sectional images recording, computer tomography with different trajectories.
2. RADIOISOTOPIC IMAGES 9
Radio isotopic imaging equipments, radiation detectors, radionuclide for imaging, static and dynamic planar scintillography.
Radio isotopic imaging equipments, radiation detectors, radionuclide for imaging, static and dynamic planar scintillography.
3. NUCLEAR MAGNETIC RESONANCE IMAGING 9
Development of NMR, relaxation processes and their measurements, MRI-Image acquisition and reconstruction, MRI safety.
Development of NMR, relaxation processes and their measurements, MRI-Image acquisition and reconstruction, MRI safety.
4. MATHEMATICS OF IMAGE FORMATION AND IMAGE PROCESSING 9
Concept of object and image, general image processing problem, discrete fourier representation and models for imaging, image restoration, image sampling, perception of moving images.
Concept of object and image, general image processing problem, discrete fourier representation and models for imaging, image restoration, image sampling, perception of moving images.
5. COMPUTER REQUIREMENT FOR IMAGING SYSTEM 9
Single/ multi user system, transferring of images, processing speed, display of medical images, 3-D image display and its clinical applications.
Single/ multi user system, transferring of images, processing speed, display of medical images, 3-D image display and its clinical applications.
TOTAL : 45
TEXT BOOK
1. Steve Webb, “The physics of medical imaging”, Adam Hilger, Bristol, England, Philadelphia, USA, 1988.
TEXT BOOK
1. Steve Webb, “The physics of medical imaging”, Adam Hilger, Bristol, England, Philadelphia, USA, 1988.
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