Grids & Contrast Practice Test
Grids are typically only used when the part measures more than ________ cm and ______ kVp is needed for the examination.
10 cm ; 60 kVp
If a tabletop exposure (no grid) of a humerus requires 2.5 mAs, how much mAs is needed if a 12:1 ratio grid is added? a. 0.21 mAs b. 0.5 mAs c. 12.5 mAs d. 30 mAs
12.5 mAs
What is the grid ratio if the lead strips are 2.4 mm high, 0.03 mm wide, and 0.2 mm apart?
12:1
Which of the following grids provides excellent scatter clean-up but requires close to perfect alignment to avoid cutoff? a. 5:1 ratio grid b. 8:1 ratio grid c. 12:1 ratio grid d. 16:1 ratio grid
16:1 ratio grid
If 24 mAs and a 6:1 grid results in an excellent radiograph, how much mAs is needed with a 5:1 grid? a. 16 mAs b. 20 mAs c. 28.8 mAs d. 36 mAs
24/x = 3/2 = 16mAs
If a shoulder examination is done using an 8:1 ratio grid and 12 mAs, how much mAs should be used if the examination must be done tabletop (no grid)? a. 1.5 mAs b. 3 mAs c. 48 mAs d. 96 mAs
3 mAs
A satisfactory radiograph is produced using 8 mAs at 85 kVp without a grid. A second film is requested using an 8:1 grid with a conversion factor of 4. What mAs is needed to produce the second radiograph?
32 mAs
If 22 mAs and a 5:1 grid results in an excellent radiograph, how much mAs is needed with a 12:1 grid? a. 8.8 mAs b. 9.2 mAs c. 52.8 mAs d. 55 mAs
55 mAs
What is the grid ratio if the grid frequency is 100 lines/inch, and the lead strips are 1.8 mm high and 0.3 mm apart?
6:1
What is the frequency of a grid with lead strips that are 33 micrometers thick and interspace material that is 310 micrometers thick?
74 lp/inch
Which kVp selection would result in the most scattered x-rays in the image-forming beam? a. 90 kVp b. 75 kVp c. 60 kVp d. 50 kVp
90 kVp
During the exposure, the grid in the bucky: a. reciprocates b. moves slightly from side to side c. moves slightly from top to bottom d. A and B
A and B
A grid with lead strips that run parallel to each other is a: a. parallel grid b. focused grid c. nonfocused grid d. A and C
A and C
The Moiré effect can be caused by: a. using a grid with a frequency similar to the CR laser scanning frequency b. using a focused grid upside down in the bucky c. using a grid cassette in the bucky d. A and C
A and C
The higher the grid ratio, the _____________ the scatter clean up and the _____________________ the radiographic contrast. a. better; higher b. worse; lower c. better; lower d. worse; higher
A. better, higher
Grid cutoff results in: a. reduced exposure to the IR b. a light film-screen image c. possible quantum mottle d. all of the above
All of the above
Which of the following factors need to be considered when determining the grid to be used for a specific examination? a. patient exposure b. level of contrast improvement needed c. focal range d. all of the above
All of the above
The grid is located: a. just below the x-ray tube window b. between the patient and IR c. just below the IR d. none of the above
B. Between the patient and IR
The reason the grid in the bucky reciprocates is to: a. absorb more scatter radiation b. allow more transmitted radiation to reach the IR c. blur out the grid lines d. all of the above
Blur out grid lines
Image-forming x-rays include those which have been _. a. transmitted without interaction b.scattered through Compton interaction c. absorbed through photoelectric interaction d. Both A and B
Both A & B
A linear grid: a. has lead strips that cross each other b. has lead strips that travel in one direction c. is the most common type of radiographic grid d. B and C
Both B & C
The grid is part of a device located just below the tabletop that also includes a tray to hold the IR. This device is the: a. wafer grid b. bucky c. grid cap d. grid cassette
Bucky
When imaging the pelvis, changing from 14 × 17 collimation to 8 × 10 collimation requires: a. an increase in kVp b. a decrease in kVp c. an increase in mAs d. a decrease in mAs
C. Increase in mAs
If all the convergent points were connected along the length of the grid they would form the: a. convergent line b. focal distance c. convergent point d. focal range
Convergent line
Restriction of the primary beam to the anatomy of interest: a. reduces patient exposure b. is a major cause of repeated images c. reduces the amount of scatter produced d. A and C
D. A and C
T/F: Beam-restricting devices are located just above the tube housing.
False
T/F: Grids absorb almost all of the scatter radiation and allow all of the transmitted photons to pass through to the IR.
False
T/F: It is safe to assume that the x-ray beam field size and the light field size are exactly the same.
False
T/F: The air gap technique is a frequently used method for reducing the amount of scatter radiation reaching the IR.
False
T/F: The grid limits the amount of scatter radiation produced in the patient.
False
T/F: The grid used for the air gap technique should be high frequency
False
T/F: When using automatic collimation, collimating to the anatomy of interest is an unnecessary waste of time; the beam is already collimated.
False
Scatter radiation increases as ___________________ increases. a. photoelectric absorption b. field size c. filtration d. contrast
Field size
The distance between the grid and the convergent line is the: a. convergent line b. focal distance c. convergent point d. focal range
Focal distance
The recommended SIDs that can be used with a focused grid is the: a. convergent line b. focal distance c. convergent point d. focal range
Focal range
The formula for the grid conversion factor is: a. GCF = mAs without grid / mAs with grid b. GCF = mAs with grid - mAs without grid c. GCF = mAs with grid / mAs without grid d. GCF = mAs without grid - mAs with grid
GCF= mAs with grid / mAs without grid
The type of grid that includes a channel for the IR to slide into is the: a. wafer grid b. bucky c. grid cap d. grid cassette
Grid cap
An IR that has a grid permanently attached to its front surface is a: a. wafer grid b. bucky c. grid cap d. grid cassette
Grid cassette
To determine the amount of mAs to be increased when making grid changes, it is necessary to use the GCF, also known as the: a. grid constancy figure b. grid compensatory factor c. general compensation factuals d. grid conversion factor
Grid conversion factor
Absorption of transmitted photons by a grid caused by misalignment is: a. grid focus b. grid reduction c. grid cutoff d. transmission reduction
Grid cutoff
A short-dimension grid: a. is typically used for most examinations b. has lead strips running perpendicular to the long axis of the grid c. has lead strips running parallel to the long axis of the grid d. A and B
Has lead strips running perpendicular to the long axis of the grid
The formula to use when changing from one grid to another is: a. mAs1/mAs2 = GCF2/GCF1 b. mAs1/mAs2 = (GCF2)2/GCF1)2 c. mAs1/mAs2 = GCF1/GCF2 d. mAs1/mAs2 = (GCF1)2/GCF2)2
MAS1/mAs2=GCF1/GCF2
To compensate for the reduction of radiation reaching the IR when a grid is used, ___________ is typically increased. a. SID b. kVp c. mAs d. OID
MAs
The air gap technique reduces the amount of scatter radiation reaching the IR because: a. more scatter is absorbed in the air b. less scatter is produced in the patient c. more scatter misses the IR d. less scatter misses the IR
More scatter misses the IR
The air gap technique is based on creating a gap by increasing the ______. a. SID b. SOD c. OID d. all of the above
OID
When the x-ray beam is not lined up with the center of the grid you have _________ cutoff. a. upside-down focused b. off-level c. off-center d. off-focus
Off center
When the SID is above or below the focal range you have _________ cutoff. a. upside-down focused b. off-level c. off-center d. off-focus
Off focus
The only grid cutoff error that can occur with a parallel grid is: a. upside-down focused b. off-level c. off-center d. off-focus
Off level
When the x-ray beam is angled across the lead strips you have _________ cutoff. a. upside-down focused b. off-level c. off-center d. off-focus
Off level
Anyone in the room during an exposure must wear a lead apron to absorb the scatter radiation produced in the: a. table b. patient c. air d. beam
Patient
For a lateral lumbar spine, placing a lead shield on the table behind the area of exposure: a. reduces the scatter exiting the patient b. reduces the scatter reaching the IR c. A and B d. none of the above
Reduces the scatter reaching the IR
To compensate for some of the loss of recorded detail due to the large OID used with the air gap technique, the ________ should be increased as well. a. grid ratio b. SID c. focal spot size d. A and B
SID
A focused grid's lead strips are angled to match: a. the anode angle b. the angle of the x-rays in the primary beam c. the angle of the scattered photons leaving the patient d. the tube angulation
The angle of the x-rays in the primary beam
A portable radiograph is taken of a thick body part using a 10:1 stationary grid. The image produced demonstrates a contrast factor (K) of 1.7 . A second radiograph is taken with a different grid of unknown specifications, and the K-value is 2.2. What conclusion can you reach regarding the two grids?
The second grid is more likely a higher ratio grid as the change in contrast is greater. A greater K value indicates greater contrast improvement which is related to grid ratio, grid frequency, and lead content of the grid.
Linear grids are the most commonly used because: a. they are very inexpensive b. the tube can be angled in all directions c. the tube can be angled in the direction of the lead lines d. all of the above
The tube can be angled in the direction of the lead lines
T/F: Adding a grid or increasing grid ratio results in an increase in patient dose.
True
T/F: Focused grids are more effective than parallel grids in absorbing scatter radiation and allowing transmitted radiation to reach the IR.
True
T/F: Scatter radiation is of no value in radiographic imaging.
True
The cutoff that appears as a strip of appropriate density in the middle of the image and a significant loss of density on both sides is: a. upside-down focused b. off-level c. off-center d. off-focus
Upside-down focused
The x-rays that are transmitted through the patient without interaction contribute to ______________. a. useful information b. film fog c. image noise d. All of the above
Useful information
The two major factors that affect the amount of scatter radiation produced and exiting the patient are: a. kVp and mAs b. volume of tissue irradiated and mAs c. volume of tissue irradiated and kVp d. kVp and the use of a grid
Volume of tissue irradiated and mAs
The Moiré effect is also known as the _________ pattern. a. cheetah b. giraffe c. lion d. zebra
Zebra
The use of __________ improves contrast and reduces patient dose. a. collimation b. high kVp c. low kVp d. less filtration
collimation
The number of lead lines per inch or centimeter is the grid:
frequency
Which of the following is the formula used to determine grid ratio?
grid ratio = height of the lead strips / distance between the lead strips
Which of the following produces the greatest amount of scatter radiation exiting the patient?
high kVp and large field size
Lowering kVp ________ patient dose and _________ image contrast. a. lowers, decreases b. increases, decreases c. lowers, increases d. increases, increases
increases; increases
Decreasing the kVp will increase ___________. a. patient dose b. image noise c. Compton scatter d. optical density
patient dose
The material between the lead strips of a grid must be:
radiolucent
The relationship between the height of the lead strips and the distance between them is the grid:
ratio
Grids absorb scatter radiation because the scattered photons:
travel at an angle to the transmitted photons
How can you improve image contrast with a heavy patient without increasing patient dose?
use tight collimation
The type of grid that is usually taped to the front of an IR is the: a. wafer grid b. bucky c. grid cap d. grid cassette
wafer grid
