digital radiographic imaging 101. digital radiography (dr), image receptors, film digitizer, noise,...
TRANSCRIPT
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Digital Radiographic Imaging 101
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Digital radiography (DR), image receptors, film digitizer, noise, signal to noise ratio, area beam, xenon gas detectors, scintillation detectors, fan beams, pre and post patient collimation,slit radiography, translation, interrogation time, attenuation profile,extinction time, Computed radiography (CR), photostimulablephosphor image plate, barium fluorohalide, europium, IP reader,photomultiplier (PM) tube, photocathode, photoemission, dynode, CR workstation, linear energy response, duel image format,charged couple devices (CCD), amorphous silicon & selenium image receptors, thin film transistor (TFT), active matrix array (AMA),direct radiography.
Terms
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Similar to a paper scanner,only for film
Film is read by a laser and the image file is sent to a designated secondary device
Digital Acquisition Methods
1. Digitize radiographs with a film digitizer
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Advantages* Inexpensive* Easy to use* Small
Uses* Converts films to digital files* Teleradiology* Teaching files and presentations
Disadvantages* Conversion of analog to digital adds a step that degrades image quality* Impractical for converting large archives
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2. Digitize the video signal with an ADC
Advantages: Inexpensive Easy to install
Disadvantages: Noisy cameras Poor signal-to-noise ratio (SNR) Area beam (Scatter) Small matrix size (525)
Digital Acquisition Methods
1. Digitize radiographs with a film digitizer
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Digital Acquisition Methods
2. Digitize the video signal
* Greatly reduces the area of the beam, and scatter* Replaces the camera with detectors
3. Scan projection radiography (SPR)
Fan shapedbeam
Depth of beammay be a cm, orsmaller
1. Scan radiographic films
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Xenon Gas Detector From a CT Scanner
Xenon gas chamber
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Ring of Xenon Detectors in a CT Scanner
Detectors
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SPR used for CT Scout Films
StationaryX-ray tube
Detectors
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CT Scout Views
Acquired by SPR, to produce a digital radiograph
Scatter radiation is greatly reduced
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Detectors
1. Xenon Gas
2. Scintillation
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Detectors
1. Xenon Gas
2. Scintillation
CrystalPhotomultiplier
(PM tube)
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Digital Acquisition Methods
2. Digitize the video signal
3. Scan projection radiography (SPR)
4. Computed Radiography (CR)
Barium Fluorohalide doped with Europium
Photostimulable image plate (IP) technology
1. Scan radiographic films
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CR AdvantagesUses existing radiographic hardware
So is relatively inexpensive to purchase
Filmless capture
Reduced number of repeats
Increased latitude
The CR IP lookslike a conventionalintensifying screen,and is housed in aconventional lookingcassette.
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300 RSV
Only one speed (no detail or high speed)
Laser Film – wet or dry processing
CR Facts
Standard film sizes
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Computed Radiography
Step 1. Make the exposure like any other radiographic exposure, only use an IP instead of film.
IP
*Remnant photons strike plate
*Photoelectric interaction causes barium fluorohalide to fluoresce as electron is ejected.
*Electrons (that are of no more use in film radiography) are trapped in the energy traps created by the europium
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Reading the IP Converting the stored energy to an electric current, point by point.
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CR Workstations
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Problems Inherent to Conventional Chest Radiography
Under-exposed
Posterior bases obscuredby diaphragm on PA
Retrocardiac clear-space overexposed
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CR Film
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Latitude
Logarithmic responseof film
Linear response of CR
Yet to respond
Maxed out
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Analog is continuous.Image is fixed in film
Digital is discrete.
Image may be manipulated
1
15 15
1
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CR Postprocessing & Characteristic Curves
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Histogram
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Processing Algorithms
Poorly exposed image plates may be corrected by software to some extent
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Patient Dose Calculated and displayedTotal energy absorbed by IP
Fuji S number (200 ave) Low number = high exposure
Kodak (1800-2200) Low number = low exposure
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Cassetteless Readers
Chest units.
In table
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Laser, Dry Image Hardcopy Devices
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Digital Acquisition Methods
2. Digitize the video signal
3. Scan projection radiography (SPR)
4. Computed Radiography (CR)
5. Charge Coupled Devices (CCD)
1. Scan radiographic films
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Charge-Coupled Device (CCD)
CCD’s havereplaced theVidicon tubein camcorders
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Charge-Coupled Device (CCD)
Read-out row
Photoelectric detectorsembedded in layers ofsilicon
Each pixel is 6 to 25 microns in size, and can store 10,000to 50,000 electrons.
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Charge-Coupled Device (CCD)
Incident light createsa charge in the pixels
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Charge-Coupled Device (CCD)
A shutter closes to stop furtherinteraction of lighton the pixels
The frame is readyfor reading
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Charge-Coupled Device (CCD)
Charges shift fromone pixel to anotheras they move tothe readout row
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Charge-Coupled Device (CCD)
Charges shift fromone pixel to anotheras they move tothe readout row
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Charge-Coupled Device (CCD)
Charges movealong the readout row, and exit thechip.
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Charge-Coupled Device (CCD)
Charges movealong the readout row, and exit thechip.
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Charge-Coupled Device (CCD)
Charges movealong the readout row, and exit thechip.
Question: When the chargesleave the CCD chip, wheredo they go?
Answer: If the CCD was functioning as a camera, they could be sent directlyto an analog monitor as the video signal, or...
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or...they could be sent to an ADC, on to RAM, displayed on a digital monitor, and stored ina secondary memory device
ALU
CUPrimaryMemory
SecondaryMemory
(RAM)
ADCDAC
Charge-Coupled Device (CCD)
DACADC
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Digital Acquisition Methods
2. Digitize the video signal
3. Scan projection radiography (SPR)
4. Computed Radiography (CR)
6. Flat Panels Amorphous Silicon & Amorphous Selenium
5. Charged Couple Devices
1. Scan radiographic films
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Thin film transistors (TFT) in an Active Matrix Array (AMA), are incorporated in a “flat panel” detector that is used in place of a film cassette.
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Thin Film Transistors (TFT)
139 microns (halfa hair)
Diodes connectedto rows
Current flows out columns
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Amorphous Silicon
Cesium iodide (CsI) scintillatorconverts X-rays to light
Light is converted to a charge by a photodiode at a TFT junction.
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Amorphous Selenium(called Direct Radiography)
Electrode with a bias voltage+ + + + + + + +
- - - - - - - - - - -
Photoconductor material
TFT
Photon in
Interaction createselectron-hole pairs
Positive charge
Negative charge
Signal out
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Receptor Reader* Energy Comment Transformations
Video Target of camera Electron gun x-ray to light to Use limited by charged globules noise of camera to video signalSPR Xenon Interrogations of x-ray to ionized Dedicated cxr successive detectors electrons and CT scouts Scintillation Interrogations of x-rays to light successive detectors to currentCR Photostimulable Helium-neon x-ray to light to Only portable phosphorIP laser to trapped electrons receptor to light to currentCCD IC Point by point discharge x-ray to light to Potential next of photoelectric trapped electrons generation of IIs detectors (pixels) to currentAmorphous TFT AMA point by point discharge x-ray to light Called direct silicon Flat panel of TFTs to current radiography
Amorphous TFT AMA point by point discharge x-ray to current Called direct selenium Flat panel of TFTs radiography
* Method by which the stored, latent electronic image is discharged
Digital Radiography (DR)