X-Ray Tube Detector Array and Collimator
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Transcript X-Ray Tube Detector Array and Collimator
CT Scanner
Presented by:
Dr M A Oghabian
Medical Physics Department,
Tehran University of Medical
Sciences
Computed Tomography
CT uses a rotating x-ray tube, with the beam
in the form of a thin slice (about 1 - 10 mm)
The “image” is a simple array of x-ray
intensity (Projections), and many hundreds of
these are used to make the CT image, which
is a “slice” through the patient
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First generation CT Scanner
(Rotate/Translate Pencil beam)
180 translational movement
180 Rotary movement
160 parallel rays across a 24 cm FOV
Each 2 slices=4.5 min.
Processing time=1.5min.
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Second generation CT scanners
Rotate/Translate Narrow fan beam~10 degree
Narrow fan beam~10 degree
Linear array of 30 detectors
6 linear movement
6 rotary movement
Scan time~ 18 Sec.
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Third generation CT Scanners
(Rotate/Rotate , Wide fan beam)
Wide fan beam
More than 800 detectors
No translational motion
Scan time ~ 0.5 Sec.
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4th Generation CT Scanners
Rotate/Stationary
Fan beam geometry
More than 4800 detectors
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Electron Beam Computed Tomography
(EBCT)
- x-ray source is not x-ray
tube but a focused,
steered, microwaveaccelerated EB incident
on a tungsten target.
- It has no moving parts .
- Target covers one-half
of the imaging circle;
detector array covers
the other half.
- Images in less than
50ms.
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EBCT(CONT’D)
There are 4 targets and 4
detector arrays resulting in 4
contiguous images
simultaneously.
The detector array may
consists of two separate rings
Each solid -state detector
consists of a luminescent
crystal and cadmium
tungstate coupled with silicon
photodiodes.
Heat dissipation is no problem
in EBCT.
Developed for fast imaging.
Used for cardiac imaging
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A look inside a rotate/rotate CT
Detector
Array
and
Collimator
X-Ray
Tube
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Comparison of data acquisition for axial
and helical technologies.
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Reciprocating rotation (A) versus fast continuous rotation using
slip-ring technology (B)
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A Look Inside a Slip Ring CT
X-Ray
Tube
Detector
Array
Note:
how most
of the
electronics
is
placed on
the rotating
gantry
Slip Ring
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(A) Pitch =1
(B) Pitch = 2
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Comparison of the accuracy of 3D reconstruction for
conventional (A) and spiral/helical (B) CT scanning.
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More New CT Features:
Multislice Scanning
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Multislice
CT, where up to 64 variable
thickness slices can be collected
simultaneously
CT
fluoroscopy, where the patient is
stationary, but the tube continues to
rotate
3-dimensional
CT and CT endoscopy
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Clinical Benefits Of Multi-Slice
Multi-phase Organ Studies
Liver – Pancreas Arterial, Renal Nephrogram
Arterial Phase Scanning
Hypervascular Tumors
CT Angiography
Multi-Plane Reconstructions, Contrast Enhancement
New CT Applications
CT fluoroscopy
CT Colonography
Cardiac: morphology, function
Advanced Lung Analysis
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Detector Configurations
X-ray Tube Focal Spot
X-ray Beam Collimator
a
4 x 1.25 mm Detector Configuration
16-row Mosaic Detector
Flex Connector A
Flex Connector B
Diode
FET Switching Array
Detector Configurations
X-ray Tube Focal Spot
X-ray Beam Collimator
4 x 2.5 mm Detector Configuration
16-row Mosaic Detector
Flex Connector A
Flex Connector B
Diode
FET Switching Array
Detector Configurations
X-ray Tube Focal Spot
X-ray Beam Collimator
4 x 3.75 mm Detector Configuration
16-row Mosaic Detector
Flex Connector A
Flex Connector B
Diode
FET Switching Array
Detector Configurations
X-ray Tube Focal Spot
X-ray Beam Collimator
4 x 5.0 mm Detector Configuration
16-row Mosaic Detector
Flex Connector A
Flex Connector B
Diode
FET Switching Array
Multi slice CT collimation
5mm
2,5mm
1mm
0,5mm
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Speed: Single vs. 4 Slice
Single Slice
Chest
Coverage
Thickness
Time (s)
mA
Abdomen/Pelvis
Coverage
Thickness
Time (s)
mA
Scan Time (s)
Tube Load (mAs)
4 slice
235 mm
5 mm
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240
235 mm
5 mm
8
240
255 mm
5 mm
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300
255 mm
5 mm
9
300
65
17,720
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4,725
MULTISLICE SPIRAL CT
Introduced at the 1998.
They are based multiple
detector. rows ranging between 8,
16, 24, 32 and 64 depending on the
manufacturer.
The overall goal is to improve
the volume coverage speed
performance.
Complete x-ray tube/detector
array rotation in less than 1s.
Partial scan images can be
obtained in approximately
100ms.
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MULTISLICE IMAGING(CONT’D)
ADVANTAGES
Improved spatial resolution this advantage improved MPR,3D
images.
Reduction of radiation exposure.
Motion artifacts are greatly reduced.
Patient breathhold is much less demanding.
Imaging larger z-axis volume in less time is possible with MI.
Less contrast medium required.
Because of imaging speed, coronary artery is comparable
with EBCT.
Improved accuracy in needle placement CT fluoroscopy.
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CT Fluoroscopy
Real Time Guidance
Great Image Quality
Low Risk
Faster Procedures
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REAL-TIME CT FLUOLOROSCOPY
CT fluoroscopy acquire
dynamic images in real
time.
Fast continuous imaging,
fast image reconstruction &
continuous image display.
Patient movement is low
during Tube rotation.
Fast image Reconstruction
algorithm is required.
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CT ANGIOGRAPHY (CTA)
CTA allows maximum
visualization of the
pulmonary artery and its
segmental braches.
CTA requires low kVp
and MA, for example
90Kvp/100mA.
CTA employs MIP and
MPR to maximum
advantage.
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3D Stereo Imaging
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Enhanced 3D
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CT Endoscopy
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CT VIRTUAL REALITY IAMAGING
The use of virtual reality is
the creation the inner views
of tubular structures.
Offers both endoluminal and
extra luminal information.
It reduces complication (eg.
infection and perforation).
Four requirements:
data acquisition
image processing
3D rendering
image display and analysis.
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