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7/28/2019 Basics_of_CT Scan(Lovish Vij; Eic 2 ; 101285007)
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Basic Principles of
CT Scanning
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The basics of CT
CT imaging chain
System components
Acquisition methods Image quality
Applications
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X-ray: The beginning
X-Rays founded in 1895 by
Wilhelm Conrad Roentgen
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CT: The beginning
CT founded in 1970 by Sir Godfrey Hounsfield
Engineer with EMI, LTD.
first applications were in neuroradiology
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CT Scanner
X-Ray modality used to the body
in cross section
Used to determine extent of trauma
location and type of tumors
status of blood vessels
pre surgical planning
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CT System
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Basic CT scanner components
Gantry
X-Ray Tube
Detector Control Console
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Gantry
CT X-ray tube
High voltage generator
Detector array Data acquistion system
Slip ring
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The CT X-ray Tube
Anode heat capacity
3.5 MHU up to 28 MHU
Determines maximum mAs
Determines volume length
Dictates generator size
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Detector Elements
Capture energy that has not been
attenuated by the patient
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Control console
Set scan parameters kVp, mA, scan time, reconstruction
filter, etc.
Set scan mode Surview, Axial or Spiral
IRS (Image reconstructionSystem)
Review and archive images
Post-processing
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CT
CT - Computed Tomography
CAT Scan - Computerized Axial
Tomography
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Scanning methods
Surview AP,Lat
Surview, Scanogram , Topogram.
Conventional CT
Axial Start/stop
Volumetric CT Helical or spiral CT
Continuous acquisition
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Digital Projection
X-ray tube and detector remain stationary
Patient table moves continuously
With X-rays on
Produces an image covering a range of
anatomy Similar to a conventional X-ray image, e.g. flat
plate of the abdomen
Image used to determine scan location
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Axial CT
X-ray tube and detector rotate360
Patient table is stationary
With X-rays on
Produces one cross-sectionalimage
Once this is complete patient ismoved to next position
Process starts again at thebeginning
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Volume CT
X-ray tube and detector rotate 360
Patient table moves continuously
With X-rays on
Produces a helix of image information This is reconstructed into 30 to 1000 images
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Single Slice = One 10mm slice per rotationDual Slice = Two 5mm slices per rotation
Quad Slice = Four 2.5mm slices per rotation
Multislice Effectiveness
Everything is better
Resolution 2x 4x-8x
Speed same same
Volume same same
Power same same
Dual Quad
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. .
single detector arc dual detector arc
pre-patient collimation
post-patient collimation
x-ray tube focal spot
_ __
Mx8000
Dual Slice
Dual Slice Detector Optimized for2 Slice Acquisition
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Approximately 10%
more efficient than
matrix detectors
Variable Wide Area Detector
AsymmetrixVariable detector length Fixed detector length
Quad Detector Technology
variable wide area detector
Variable slice thickness
4 x 1mm
4 x 5mm
4 x 2.5mm
2 x 0.5mm
2 x 8mm
2 x 10mm
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8 Element
2-D array
4 Slices
Quad TechnologyHow it works
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CT
CT attenuation information
CT image quality
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Attenuation
X-ray beam passes through patient
Each structure attenuates X-ray beam
differentlyAccording to individual densities
Radiation received by detector varies
according to these densities
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Density information
Transferred from detector to CT computer
(A to D converter)
Reconstructed by computer into a cross-sectional image
Displayed on screen
Each pixel displayed on monitor has varying brightness
The greater the attenuation, the brighter the pixel
The less attenuation, the darker the pixel
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Density information
Density values
correspond to a
range of numbers
Hounsfield scale
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Window settings
Window width
Determines range of CT numbers displayed on an image
Values above this range = white
Values below this range = black
Window level
Sets the center CT number displayed on the monitor
Determines the location on the Hounsfield scale about which the
window width will be centered
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CT image quality
Spatial resolution
Ability to resolve small
objects in an image
Measured in lp/cm
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CT image quality
Spatial resolution
Ability to resolve small
objects in an image
Measured in lp/cm
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Isotropic Imaging
True 0.5mm Isotropic imaging
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CT image quality
Contrast resolution
Ability to differentiate small density differences in an image
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Post Processing Options
Visualization of
vasculature in
relation to pathology
Show course of vessels Show stent placement
Define vascular stricture
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Neuro-Angiography
Circle of Willis
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Thin-SliceSpiralLungs
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MIP4D-Angio
MasterCutPanoramic View
RenalArteries
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Ext. Spiral Acq.Spiral Acquisition
UltraFast 0.5 sec
Coverage 1400mm
Pitch 1.75
Acq. Time 41.5 secFOV 420 mm
ST2.5 mm
Rec. Incr. 1.6 mm
Std Res. 8 lp/cm
120 kV, 96 mAs
CTDI100w 7.3 mGy
CTDIFDAw 4.9 mGy
Extended Spiral Acquisition