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Page: 1 of 6

Document Number: PFS-0002797-B

Effective Date: 08/2007

Overview

Computed Radiography is a term used to describe a system that electronically records a

radiographic image. Computed Radiographic systems use unique image receptors to capture an analog image and sophisticated readers to process the image and convert the information into a digital format. Since Computed Radiography (CR) utilizes digital technology, images may be electronically manipulated to adjust contrast and density. The computer-generated images obtained with CR can be displayed

electronically and/or on film.

Historical Perspective

Electronic imaging technologies and image management systems offer the capabilities to attain needed efficiencies. Many digital imaging technologies are presently utilized such as Computed

tomography (CT) and diagnostic medical sonography, however, general radiography (a predominantly analog process), represents 60 - 80% of all diagnostic radiography examinations. To meet this need, Computed Radiography was introduced in 1981 by FUJIFILM at the International Congress of Radiography in Brussels and at the Radiological Society of North America in Chicago. The FCR 101 was the first

available clinical system and was released in 1983.

However, widespread adoption of Computed Radiography lagged behind other computer-driven modalities, primarily because digitization of analog data produced reductions in the quality and quantity of information. As such, technological improvements were needed to meet the quality standards essential for the performance of highly detailed, general radiographic examinations. Subsequently, Fuji focused on CR system improvements in key clinical areas: Improved processing speed, higher spatial resolution, reducing patient exposure, and the augmentation of data storage and transmission to provide timely retrieval and communication through the use of industry standards such as DICOM.

What is a Digital Image?

Digital images are described in terms of numeric values displayed in an array of rows and columns or Pixels (picture elements); this array of pixels is termed a Matrix. The pixel is the smallest component of the matrix and the quantity of information in each pixel is determined by the number of bits (binary digits) of information per pixel. Corresponding to a specific anatomical location, each pixel represents the x-ray intensity by a numeric value corresponding to a particular area on the image.

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Document Number: PFS-0002797-B

Effective Date: 9/17/2007

Introduction to Fuji Computed Radiography (CR)

Computed Radiography (CR) refers to the use of Photostimulable Storage Phosphors (PSP) for projection of X-ray imaging. In lieu of conventional screen/film, an imaging plate (IP) is used within a specially

designed cassette.

Imaging Plate

The IP is comprised of multiple layers. The top layer is a protective layer and is a thin, transparent layer used to guard against damage caused by handling. The photostimulable phosphor layer serves as the functional layer of the IP by storing energy absorbed from the x-ray exposure. Information obtained through the initial stimulus or primary excitation (x-ray exposure) is stored in the phosphor and later “read out” when light or a secondary stimulus is applied to the phosphor layer. This phenomenon is called a photostimulable luminescence and makes energy storage possible within the crystal. The phosphor layer is comprised of barium fluorohalide in combination with a small amount of europium. The europium acts as an activator replacing some of the barium atoms and creating a “luminescence-center” in the crystal that becomes ionized by the incident radiation and is the site where energy (information) is stored as a latent image. The latent image is formed within the crystal following the transfer of energy by a photoelectric interaction. During image processing, a secondary stimulation created by a laser beam scan of the IP causes the crystal to emit blue-violet light proportionate in intensity to the x-ray energy absorbed. The electroconductive layer provides a certain amount of flexible rigidity to the IP; it also protects the phosphor layer from extraneous forces and shocks. There are additional support and light shielding layers added for additional protection and to inhibit reflection of the laser light. For some plate types, a backing layer is employed, and a barcode label is attached to identify each imaging plate. For Dual Side reading FCR devices, the shielding and backing layers are replaced with a transparent backing layer that allows for the collection of PSL from both sides of the IP simultaneously.

Imaging Plates synopsis:

• The IP is used to capture the image

• It is very important to note that the IP is more sensitive to all types of radiation than conventional intensifying screen phosphors.

o Direct o Scatter

o Natural Background Radiation

Ambient radiation can increase mottle, lower contrast, and have an affect on image quality. Any IP not used within 48 hours should be erased before use. The IP is housed within a special cassette that looks very similar to a conventional screen/film cassette.

• Latches

• Barcode Window

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Document Number: PFS-0002797-B

Effective Date: 9/17/2007

CR Imaging Process

1. Using standard X-ray equipment, the IP (within the cassette) is exposed. The x-ray photons pass through the subject and strike the IP to form the latent image.

2. The IP is typically bar-coded at an Image and Information Processing (IIP) station to ensure proper processing.

3. The Cassette is then inserted into the CR Reading Unit and the IP is mechanically removed for processing.

4. The IP is transported through the system where it is scanned by a laser beam. The stored energy is released from the IP in the form of light, known as Photostimulable Luminescence (PSL).

5. The PSL is collected and passed through a photomultiplier, then converted to a digital signal.

6. Data recognition processes occur to meet the specified diagnostic need. The signals are

reconstructed for output with a specified set of image processing parameters applied. The image can be sent to another Computer and/or Laser printer.

7. After the readout and image processing is completed, the IP is exposed to high intensity light erasing any latent image.

8. The IP is then returned to the cassette, ready to be used for another image acquisition.

Motor A/D Converter A/D Converter 110010010010110 110010010010110

CR Reading System

CR Reading System

• As a laser scans the IP, light is emitted where X-ray stimulated the phosphor during exposure

LASER BEAM

OPTICAL

SCANNER PHOTOMULTIPLIER TUBE

IMAGING PLATE

EDR (Exposure Data Recognizer)

EDR is an automatic image adjustment function that provides optimum density and contrast even when the exposure conditions vary. A histogram is created based upon menu selection, centering/positioning, and collimation/scatter. The size and shape of the histogram will determine the appearance of the image. The proper EDR mode should be selected based upon the imaging conditions as described in the following information. AUTO Mode is the default mode and will work for the majority of the exams. The EDR mode can be selected/modified at the IIP after the menu has been selected and study started, prior to inserting the cassette into the CR Reader Unit.

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Document Number: PFS-0002797-B

Effective Date: 9/17/2007

EDR AUTO MODE (Centering/positioning important)

Density and Contrast will be automatically applied based upon the Default processing parameters for the menu selected.

AUTO

♦ Collimation recognition ♦ Complete Histogram analysis

EDR SEMI MODE (Use for tightly collimated images)

Centering must be precise. Density only will be automatically Applied.

Fixed “L” value ♦ Small reading area

♦ No collimation detection done

Proper kVp must be used to maintain

subject contrast

EDR-SEMI-X (Use when centering is not possible)

Fixed “L” value

♦ Area of interest is Selected ♦ Same precautions as Semi-Mode ♦ Must know where the Green stripe is in relation to AOI.

Helpful in cross-table exams

EDR – FIXED MODE

The Fixed Mode will give the image a light or dark appearance base on the amount of exposure used. This is similar to screen/film system when a manual technique is used. The Fixed Mode is best used for the problem image, for example:

X-Table Hips C7-T1 Laterals

Any Image with a lot of Metal Hardware Images that cannot be centered properly

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Document Number: PFS-0002797-B

Effective Date: 9/17/2007

Fuji Computed Radiography FAQs

Question: Why are we switching to Computed Radiography (CR)?

Answer: CR has been shown to improve department efficiency and workflow, reduce image retakes due to

exposure errors, and is a key technology enabling the adoption of PACS.

Question: What is the System Speed of FCR?

Answer: FCR should be considered a multi-speed system. The imaging plate employs a linear capture of

exposure exceeding the capabilities of film/screen systems. FCR is not density or contrast limited but is noise limited.

Question: Can I use the same techniques as before?

Answer: For some exams the exposure factors will be the same. This is highly dependent on the currently

deployed film/screen system speed.

Question: Can I continue to use phototiming with FCR?

Answer: Yes. A requirement for the use of phototiming with FCR is that calibration must be completed

before using CR Cassettes and Imaging Plates. When a phototimer is used, the resulting mAs can change depending upon the type of cassette and detector (due to the absorption and backscatter characteristics of the cassette/detector). As the density of the image is controlled by the FCR processing, this calibration must be completed as described in the “Fuji CR Users Guide”

Question: Can I acquire multiple images on the same Cassette/IP?

Answer: Yes*. Collimated borders are detected as part of the Exposure Data Recognizer (EDR)

processing. For best results, the collimated borders should be sharp and well defined. This ensures that unnecessary information, such as scatter; outside the collimated edges will be eliminated from the analysis. This process is often referred to as PRIEF (Pattern Recognizer for Irradiated Exposure fields). See the “CR Users Guide” for guidelines in exposure patterns.

Note* when delivering images to PACS, multiple images obtained on a single cassette will

limit the individual control of image enhancements and must be taken into consideration. For that reason, many facilities that have employed PACS prefer that only one image is acquired per cassette/IP.

Question: When should multiple views not be done on the same cassette?

Answer: When the thickness of the anatomy varies such as an AP and Lateral. The CR Reader Unit will average both images and poor quality will result.

Question: What is the significance of the green stripe on my CR cassettes?

Answer: The green stripe is used as a reference for image orientation and should be placed at the

cephalic/top of the image in the portrait orientation. For landscape orientation (crosswise) the green stripe should be toward the patient’s right side. Incorrect image orientation should be corrected prior to sending images to PACS or the Laser Printer.

Question: What is the significance of the “S” Value?

Answer:The Sensitivity number, so-called “S” Value is an indicator of the Photostimulable Luminescence (PSL) given off by the imaging plate (IP) while being scanned by the laser. The values are inversely proportional to the amount of radiation that strikes the IP.

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Document Number: PFS-0002797-B

Effective Date: 9/17/2007

Question: What is the significance of the “L” value?

Answer: The Latitude value, so called “L” value is as important as the “S” Value when critiquing a CR

image. For most clinical imaging, “L” values typically range between 1.6 and 2.3. When “L” values are outside this range, the result can also be an abnormal “S” Value.

Question: Is radiation exposure the only factor that affects the “S” Value?

Answer: No. The following factors can affect the “S” Value:

• Scatter

• Positioning and centering.

• Distance – SID and OFD • Proper use of Grids • Collimation

• Improper Exam selection at the IIP

• Failure to erase IP if it has not been used for 48 hours or longer • Delay in processing from time of exposure

Question: If my “S” number is out of the recommended range, should I change it to be within the recommended range?

Answer: In most cases it is NOT recommended. The “S” Value should not be altered unless the image

data is compromised due to an over correction of the Exposure Data Recognizer (EDR). For example, this can occur when the “S” Value goes below 25 and “L” Value is greater than 2.0. These images typically appear completely whitened out after the EDR is applied; however, the image details were present during the initial plate reading.

Question: What are the differences between the NETWORK list, TODAY list, ALL list, DELIVERED list, and the LOCAL WL?

Answer: Network list contains the patients to be done. This will link to the procedure ordered at the RIS/HIS system.

Today list shows patients completed today.

All list shows all the patients completed, including today and prior to today.

Delivered list shows all the patients completed with the study delivered to any destination such as a printer and/or PACS.

Local list shows patients that have been registered at the IIP with menus picked and suspended or reserved waiting for the exam to be performed.

References

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