Biomedical Imaging Systems Lecture No.1 Dr. Yousif Mohamed Yousif Abdallah PHYSICAL PRINCIPLES OF COMPUTED TOMOGRAPHY RADIOGRAPHY LIMITATIONS SUPERIMPOSITION DIFFICULTY IN DISTINGUISHING BETWEEN HOMOGENOUS OBJECTS OF NON-UNIFORM THICKNESS. SUPERIMPOSITION TISUE DIFFERENCE SENSITIVITY 5%-10% TOMOGRAPHY ( CONVENTIONAL) It eliminates tissue Superimposition It increases contrast of low subject contrast tissues TOMOGRAPHY TOMOGRAPHY TOMOGRAPHY CT ADVANTAGES LIMITATIONS OF CT Unable to differentiate between tissues with slight contrast differences < 1%. GOALS OF CT Minimal superimposition Image Contrast improvement Small tissue Difference recording CT DATA AQUISITION SLIP RINGS SEQUENTIAL-SLICE BY SLICE SCANNING SCANNING TRANSMISSION Relative Transmission =Io/I ATTENUATION DATA AQUSITION GEOMETRIES Continuous Stationary CONTINUOUS STATIONARY CT 120-140 KVP REDUCED DEPENDENCY ON ATTENUATION COEFFICIENT REDUCED CONTRAST INCREASED PHOTON FLUX ORIGINAL CLINICAL CT SCANS COMPOSED OF 80 X 80 MATRIX PIXELS 6400 X Y Z ISOCENTER SCAN FOV SFOV DETECTORS SCAN FOV-SMALL SFOV DETECTORS SFOV - HEAD TOO SMALL OF SFOV – OUT OF FIELD ARTIFACT SCAN FOV-RESOLUTION SFOV RECONSTRUCTION Ц RECONSTRUCTION CT# SCAN FOV-RESOLUTION SFOV DISPLAY FOV vs SCANNING FOV DFOV CAN BE EQUAL OR LESS OF SFOV SFOV – AREA OF MEASUREMENT DURING SCAN DFOV - DISPLAYED IMAGE PIXEL SIZE PIXEL SIZE= FOV (mm)/ MATRIX SIZE MOST SCANNERS PIXEL SIZE 1 TO 10mm EXAMPLE: FOV= 40 CM= 40 X 10 MM=400 mm MATRIX= 512 X 512 = 5122 400/512 = 0.78 mm 0.8 mm EACH PIXEL IN CT HAS RANGE OF GRAY SHADES 2 8 = 256 SHADES 2 12 = 4096 SHADES = -100 TO 3095 SHADES OF GRAY PIXEL vs VOXEL PIXEL VOXEL PIXEL SIZE DEPENDS ON: MATRIX SIZE FOV VOXEL SIZE DEPENDS FOV MATRIX SIZE SLICE THICKNESS IMAGE DISPLAY GRAY SCALE DISPLAY MONITOR RESOLUTION IS RELATED TO THE SIZE OF THE PIXEL MATRIX 64 X 64 128 X 128 256 X 256 512 X 512 1024 X 1024 2048 X 2048 (HIGH PERFORMANCE MONITORS) MATRIX PIXEL MATRIX IN CT DIGITAL RECONSTRUCTED IMAGE IS CONVERTED IMAGE IS CONVERTED INTO A GRAY SCALE IMAGE. DIGITAL DAC ANALOG The high performance video display of the microcomputer is connected to the system via an interface board. The video display is a form of cathode ray tube sometimes referred to as a raster display. The term raster describes the technique of producing the picture or text which is formed by a beam of electrons that repeatedly scans across the screen to form a uniform pattern of closely spaced, horizontal lines (the raster), covering the entire screen. The screen consists of a phosphor that converts the energy of the electron beam into visible light. A picture is formed by "turning on and off" the electron beam at appropriate points in the scanning of the screen surface. CRT OPERATION IMAGE FORMATION ON THE MONITOR IMAGE FORMATION ON THE MONITOR CT NUMBER LINEAR ATTENUATION COEFFICIENT ( cm-1) BONE BLOOD G. MATTER W. MATTER CSF WATER FAT AIR 0.528 0.208 0.212 0.213 0.207 0.206 0.185 0.0004 CT # vs BRIGHTNESS LEVEL + 1000 -1000 CT # 1000 CT # - 500 CT # OF CYST 5 CT # OF LIPOMA ( FATTY TUMOR) -100 W 120 L 40 W 80 L 40 DATA FLOW IN CT REFERENCE DETECTOR REFERENCE DETECTOR PREPROCESSOR ADC COMPUTER RAW DATA PROCESSORS RECONSTRUCTED DATA DISK TAPE BACK PROJECTOR CONVOLVED DATA DAC CRT DISPLAY CT ADVANTAGES AND DISADVANTAGES EXCELLENT LOW CONTRAST RESOLUTION WINDOWING- IMAGE MANIPULATION TAILORED TO OBSERVER NEEDS SPIRAL CT-SINGLE BREATH HOLD STUDIES ( CTA, MPR, VIRTUAL REALITY CT, CT ENDOSCOPY) CT ASISST IN RADIATION THERAPY BONE SCAN PACKAGE XENON CT PERFUCION CT DIGITAL PROCESSING ABILITY