- Which of the following changes in the exposure indicator values does NOT represent a doubling of radiation exposure to the IR?
a. S number (Fuji) changing from 200 to 400
b. S number (Fuji) changing from 400 to 200
c. EI (Carestream) changing from 1200 to 1500
d. EI (Carestream) changing from 1500 to 1800
a. S number (Fuji) changing from 200 to 400
In that the S number is inversely related to exposure to the IR, changing from 200 to 400 indicates that the IR was exposed to one half the amount of radiation exposure.
REF: p.89
- Which of the following exposure indicators has an inverse relationship with exposure to the IP?
a. EI (Carestream)
b. IgM (Agfa)
c. S number (Fuji)
d. All have an inverse relationship.
c. S number (Fuji)
Fuji’s S number has an inverse relationship with IP exposure. The higher the S number, the lower the exposure to the IR.
REF: p.89
- A value that reflects the difference between the desired or target exposure to the IR and the actual exposure to the IR is the:
a. EI (Carestream).
b. IgM (Agfa).
c. S number (Fuji).
d. deviation index (DI).
d. deviation index (DI).
The DI is created as a standard exposure indicator and is a value that reflects the difference between the desired or target exposure to the IR and the actual exposure to the IR.
REF: p.90
- The __________ provides a method of altering the image to change the display of the digital image.
a. histogram
b. lookup table
c. exposure indicator
d. matrix
b. lookup table
The lookup table allows alteration of the digital image to display it differently.
REF: p.90
- Because digital IRs have a linear exposure response and wide dynamic range, raw data images appear:
a. very bright.
b. very dark.
c. with low contrast.
d. with high contrast.
c. with low contrast.
All raw data, ranging from very low to very high exposures, result in an image with very low contrast.
REF: p.90
- Soft copy viewing means that the image is being viewed:
a. at a computer.
b. on a soft piece of film.
c. in a soft light environment.
d. none of the above.
a. at a computer.
Soft copy viewing means that the image is being viewed on a computer monitor.
REF: p.93
- A CRT type monitor:
a. has a fluorescent screen.
b. uses an electron gun.
c. scans in lines.
d. all of the above.
d. all of the above.
The CRT type monitor uses an electron gun to scan across a fluorescent screen, line by line, to produce a light image.
REF: p.94
- LCD stands for:
a. liquid cathode display.
b. liquid crystal display.
c. logarithmically created digitization.
d. layered components diagram.
b. liquid crystal display.
LCD stands for liquid crystal display and is a type of monitor.
REF: p.94
- Which of the following passes light through liquid crystals to display the image on the glass faceplate?
a. Cathode ray tube monitor
b. Liquid crystal display monitor
c. Plasma display panel monitor
d. Thin-film transistor monitor
b. Liquid crystal display monitor
LCD monitors pass light through liquid crystals to
b. Liquid crystal display monitor
LCD monitors pass light through liquid crystals to display the image on the glass faceplate.
REF: p.94
- The monitor matrix size should be __________ the image matrix size.
a. smaller than
b. at least as large as
c. five times larger than
d. ten times larger than
b. at least as large as
The monitor matrix size needs to be at least as large as the image matrix size. If it is smaller, there will be details that won’t be seen. Having the monitor matrix five or ten times larger is unnecessary and very expensive.
REF: p.96
- Diagnostic interpretation should be done at a high-resolution __________ display monitor.
a. 1 megapixel
b. 2 megapixel
c. 5 megapixel
d. 15 megapixel
c. 5 megapixel
Diagnostic interpretation should be done at a high-resolution 5-megapixel (2048 × 2560 pixels) display monitor.
REF: p.96
- The DICOM GSDF is used to evaluate the:
a. display monitor.
b. film processor.
c. histogram analysis.
d. digital imaging system.
a. display monitor.
The DICOM Grayscale Standard Display Function (GSDF) is used to evaluate the display monitor.
REF: p.96
- The distracting area of increased brightness surrounding a collimated image can be removed from the displayed digital image by:
a. masking.
b. shuttering.
c. electronic collimation.
d. all of the above.
d. all of the above.
Masking, shuttering, and electronic collimation are all terms that describe the ability to limit the area of an image to be viewed.
REF: p.98
- Decreasing the window level will result in an image with:
a. lower contrast.
b. higher contrast.
c. decreased brightness.
d. increased brightness.
c. decreased brightness.
A lower window level results in an image with decreased brightness.
REF: p.98
- Increasing the window width will result in an image with:
a. lower contrast.
b. higher contrast.
c. decreased brightness.
d. increased brightness.
a. lower contrast.
Increasing window width results in a digital image with lower contrast.
REF: p.99
- This post processing technique reduces the visibility of image noise.
a. Smoothing
b. Contrast enhancement
c. Edge enhancement
d. Subtraction
a. Smoothing
Smoothing reduces the visibility of image noise.
REF: p.102
- This post processing technique improves the visibility of small, high contrast structures.
a. Smoothing
b. Contrast enhancement
c. Edge enhancement
d. Subtraction
c. Edge enhancement
Edge enhancement makes structures more visible.
REF: p.102
- The communication standard for medical information is:
a. PACS.
b. HL7.
c. DICOM.
d. RIS.
b. HL7.
HL7 is the communication standard for medical information, while DICOM is the standard for images.
REF: p.105
- The computer system designed to distribute, store, and display digital images is:
a. PACS.
b. HL7.
c. DICOM.
d. RIS.
a. PACS.
PACS (picture archival and communication system) distributes, stores, and allows the display of digital images.
REF: p.104
- The communication standard for information sharing between PACS and imaging modalities is the:
a. JPG.
b. HL7.
c. DICOM.
d. RIS.
c. DICOM.
The Digital Imaging and Communications in Medicine (DICOM) is the communication standard for information sharing between PACS and imaging modalities.
REF: p.105
1 T/F Once the data is in digital format, there is no difference between image processing and display between CR and DR.
True
Once the digital data is sent to the computer, there is no difference between CR and DR imaging.
REF: p.75
2 T/F There is no light produced with CR when radiation interacts with the IP.
False
There is a small amount of light emission when x-rays first interact with the CR imaging plate phosphor. However, this is not part of image formation.
REF: p.75
3 T/F The quality of the CR latent image will remain the same for up to 6 h after exposure.
False
Exposed CR IPs should be processed within 1 h after exposure to prevent latent image deterioration.
REF: p.76
4 T/F Both CR and DR are electronic detectors that combine image capture and image readout.
False
Only DR combines image capture and readout. CR requires the image to go through a separate reader unit following image capture.
REF: p.81
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Chapter 142
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Chapter 2 - 132
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Chapter 2 - 234
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Chapter 3 - 134
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Chapter 3 - 234
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Chapters 4 - 134
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Chapter 4 - 234
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Chapter 4 - 333
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Chapter 5 - 150
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Chapter 6 - 134
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Chapter 6 - 233
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Ch 754
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Ch 9 - 02 - film screen imaging34
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Ch 857
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Ch 9 - 01 - film screen imaging35
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Ch 10 - 01 - Flouroscopy39
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Ch 10 - 02 - Fluoroscopy39
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Josi Study Guide33
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Useful Info1
