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Digital Radiography

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Digital Radiography DMI 50B Kyle Thornton What Does That Mean? Digital has a higher dynamic range than film The response is linear v. sigmoidal It provides more ... – PowerPoint PPT presentation

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Title: Digital Radiography


1
Digital Radiography
  • DMI 50B
  • Kyle Thornton

2
What Does That Mean?
  • Digital has a higher dynamic range than film
  • The response is linear v. sigmoidal
  • It provides more information at the low and high
    exposure levels

3
Digital v. Computed v. Direct Capture Radiography
  • Computed Radiography
  • Uses a cassette with an imaging plate
  • Digital Radiography
  • Uses a linear array of radiation detectors
  • Similar to Computed Tomography
  • Direct Capture
  • Uses a solid-state radiation detector device

4
Computed Radiography
  • A cassette is used
  • Contains a photostimulable phosphor imaging plate
  • Looks like an intensifying screen
  • Contains a layer of europium-doped barium
    fluorohalide crystals
  • When struck with x-rays, a new semistable state
    is produced
  • The latent image is stored on this plate

5
The Imaging Plate
  • Made up of multiple layers
  • A polyester support layer
  • The phosphor layer
  • A clear protective layer
  • Reflective layer
  • Conductive layer
  • Support layer
  • Backing layer
  • Bar code label on the bottom
  • Contains a number assigned to the image plate

6
The Imaging Plate
  • Very flexible
  • Can maintain a latent image for about 24 hours
  • Can be exposed to light
  • Some image degradation may occur with extended
    storage time and light exposure

7
The Image Reader
  • Converts the analog information from the latent
    image to a digital format
  • The image plate is scanned by laser
  • The portion of the plate struck by laser emits
    light
  • The light is directed to photomultiplier tubes
    that convert it to digital electric signals
  • Most modern readers can process 110 140 plates
    per hour

8
Terminology
  • Rotation/inversion
  • The ability to change the image presentation, or
    turn the image from a negative to positive
  • Anatomic measurements
  • The ability to measure certain areas of interest
  • Short-term database functions
  • Allows user to locate images, create lists of
    images, image interpretation, and maintain
    teaching files

9
More Terminology
  • Gradation Processing
  • Controls the range of densities used to display
    structures on the image
  • Spatial Frequency
  • Controls the sharpness of boundaries between two
    structures of different densities
  • Dynamic Range Control
  • Provides a wide diagnostic field
  • Allows for visualization of bone and soft tissue
    in a single image display

10
Even More Terminology
  • Magnification
  • Allows enlargement of a specific area to enhance
    viewing and diagnosis
  • Subtraction
  • Allows the user to enhance certain areas of
    interest while fading other areas from view
  • Enhancing from vascular detail while fading
    superimposing bony detail

11
Image Storage
  • Magnetic tape and optical disk
  • Each CR image contains app. 8 megabytes of data

12
CR Image Characteristics
  • Image resolution
  • Dimension of the crystals in the imaging plate
  • Size of the laser beam in the reader
  • The image reading matrix
  • CR images average 2 5 lp/mm
  • Standard film demonstrates 3 6 lp/mm

13
Digital Radiography
  • X-ray tubes for DR have a high heat capacity
  • In excess of 1 MHU
  • DR does not use cassettes
  • A radiation detector array is used
  • These detectors are gas-filled
  • The more detectors, the better the spatial
    resolution

14
Direct Capture Radiography
  • Image forming x-rays interact with cesium iodide
    phosphors
  • Patient dose is less with this approach
  • Or
  • They interact with a thin layer of selenium
  • There is no spreading of light and spatial
    resolution is improved

15
Digital Fluoroscopy
  • A computer and two video monitors are required
  • One video monitor is used to edit patient data
  • One monitor displays the image
  • The operating console is more complex
  • Allows for the input of patient data

16
Digital Fluoroscopy
  • The video monitor is often a 1000 line system as
    opposed to 525
  • The video signal is read in a progressive mode
  • The electron beam of the of the TV camera tube
    sweeps the target assembly continuously from top
    to bottom in 33 ms.
  • There is no interlace of fields
  • The image is sharper with less flicker

17
Digital Fluoroscopy and Dose
  • Static images are made with a lower dose rate
    than with 105mm spot film cameras
  • Most DF x-ray beams are pulsed
  • The dose to the patient is about half that of
    conventional image intensified fluoroscopy

18
PACS
  • Picture Archive and Communication System
  • Allows for the digitization of conventional
    radiographs
  • Allows for acquisition, interpretation, and
    storage of images

19
The Three Components of a PACS
  • Display System
  • Network
  • Storage System

20
Display System
  • This is a cathode ray tube monitor
  • Provides a workstation for the operator
  • Must be very high resolution
  • Ranges from 256 X 256 1024 X 1024
  • This is lower than the spatial resolution of film
  • The operator is able to subtract, use edge
    enhancement, window-level, highlight, pan, scroll
    and zoom on the monitor

21
The Image Matrix
  • A layout of cells in rows and columns
  • Each cell is a specific location in the matrix
  • Each cell is called a pixel
  • Each digital image consists of a matrix of cells
  • The matrix has various brightness levels
  • The level of brightness depends upon the atomic
    number and mass density of the tissue that has
    received x-rays

22
Network
  • A number of computers connected to one another
  • In a PACS, many people have access to an image
    for different purposes
  • Data from one unit to another is first digitized
  • Images can be transferred to another workstation
    for interpretation
  • This is known as teleradiology

23
Storage System
  • PACS is able to archive
  • Images are not lost
  • The file room is replaced by a magnetic or
    optical memory device
  • Electronically, images can be recalled to any
    workstation in seconds

24
Pitfalls and Acceptance of CR and DR
  • The acceptance of the system is increasing
  • This is the future and in many imaging
    departments, the future is now!
  • Department efficiency is increased
  • It does not provide a traditional format
  • Some resolution is lost
  • Edge enhancement artifacts may actually create
    pathology
  • Due to the increased latitude in image
    production, the patient may be exposed to too
    much radiation

25
CR DR and Patient Dose
  • If used correctly patient dose can be decreased
  • CXR 5 decrease
  • UGI 5 decrease
  • IVP 10 decrease
  • Pediatric examinations 15 30 decrease
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