Exposures II- IR Exposure and Contrast
exposure refers to the:
# of photons striking the IR
conversion factor for nongrid
1
A radiograph that demonstrates a large difference between gray levels would be considered: 1- Short Scale 2- Low Contrast 3- Increased contrast
1 and 3
2 factors that cause exposure to the IR to increase when kVp is increased
1. higher kVp= higher energy electrons have a greater chance of interactions occurring, more photons produced 2. higher energy photons produced have greater penetrability power
why does higher kVp result in lower contrast?
1. photons produced have a wide range of energies, each different energy level produces its own shade of gray = lots of shades of gray 2. more Compton scatter interactions occur
lgm range
1.9 - 2.5
conversion factor for 5:1 grid
2
conversion factor for 6:1 grid
3
If a satisfactory exposure is obtained using 20 mAs, 70 kVp and an 8:1 grid, what mAs is required to maintain exposure to the IR with a 16:1 grid?
30 mAs
conversion factor for 8:1 grid
4
conversion factor for 10:1/12:1 grid
5
conversion factor for 16:1 grid
6
If a satisfactory exposure is obtained using 20 mAs at 40" SID, what mAs would be required to maintain exposure to the IR at 72" SID?
64.8 mAs
If one goes from a technique of 25 mAs and 75 kVp to a 25 mAs and 50 kVp, which of the following will be affected? - exposure to the IR - contrast - distortion - exposure to the IR AND contrast
Exposure to the IR and contrast
T or F. Going from a single-phase generator to a high frequency generator without changing technical factors will decrease exposure to the image receptor.
False
Which of the following will NOT contribute to the underexposure of a radiograph? - mA set too low - kVp set too low - SID set too high - focal spot size is too large
Focal spot size is too large
Which of the following has an inverse relationship with exposure to the IR? - mAs - kVp - film/screen speed - SID
SID
Which of the following may be the cause of an overexposed radiograph? - developer temperature too low - OID too high - SID too low - grid ratio too high
SID too low
T or F. Decreasing grid ratio while keeping all other factors equal, will increase exposure to the IR.
True
T or F. Increasing receptor speed while keeping all other factors equal, will increase radiographic exposure to the image receptor.
True
T or F. Utilizing an increased OID will decrease the exposure to the image receptor.
True
intensity of the beam is less towards the _____ side
anode
Decreasing field size will cause a ______ in exposure to the IR
decrease
If one changes from a 6:1 grid ratio to a 12:1 ratio, how will this affect the exposure to the IR?
decrease
If one goes from using a 10x12 field size to a 14x17 field size, how will this affect the contrast on the radiograph?
decrease
Increasing atomic # will cause a ______ in exposure to the IR
decrease
Increasing tissue thickness will cause a ______ in exposure to the IR
decrease
as OID increases, exposure to the IR will ________
decrease
as SID increases, exposure to the IR will _______
decrease
as filtration increases, exposure to the IR will _____
decrease
as grid ratio increases, exposure to the IR will _____
decrease
decreasing grid ratio will _____ contrast
decrease
increasing atomic part density/ atomic number will _____ the exposure to the IR
decrease
increasing kVp will _____ contrast
decrease
increasing part thickness will _____ exposure to the IR
decrease
increasing tissue thickness will _____ contrast
decrease
increasing window width=
decreased contrast
as field size increases, contrast ______
decreases
as filtration increases, contrast _____
decreases
as part thickness increases, contrast ______
decreases
Which changes would double the exposure to the image receptor?
doubling the mAs; increasing kVp by 15%
lgm
exposure indicator number
when there are large differences between atomic number/tissue density of adjacent structures, the ______ the contrast will be
higher
contrast resolution
how close 2 shades of gray can be and be able to distinguish between them
If one changes from a 5:1 grid ratio to a 6:1 grid ratio, how will this affect the contrast on a radiograph?
increase
Increasing kVp will cause a ______ in exposure to the IR
increase
as IR speed increases, exposure to the IR will ______
increase
as field size increases, exposure to the IR will ______
increase
decreasing field size will ______ contrast
increase
if a grid is added, contrast will _____
increase
if grid ratio is increased, contrast will _____
increase
increasing kVp will _____ exposure to the IR
increase
increasing mAs will _______ exposure to the IR
increase
increasing the generator frequency will ______ exposure to the IR
increase
If you take an original radiograph and want to decrease the contrast along with doubling the exposure, what would be the best choice to accomplish this when repeating your image?
increase the kVp by 15%
as OID increases, contrast _____
increases
Which of the following would decrease exposure to the image receptor with all other factors remaining the same? - increasing mAs - increasing kVp - increasing field size - increasing grid ratio
increasing the grid ratio
Which of the following would increase the contrast on an image? - increasing field size - increasing grid ratio - increasing kVp - increasing part thickness
increasing the grid ratio
additive pathologies
less exposure to the IR
increasing SID and more collimation with make the anode heel effect
less prominent
other terms for low contrast
long scale, lots of shades of gray, wide window width
A radiograph that demonstrates very little difference between gray levels would be considered:
low contrast
higher kVp = ______ contrast
lower
What is our controlling factor of exposure?
mAs
single phase to high frequency
mAs x 0.5
single phase to 3 phase, 6 pulse
mAs x 0.6
3 phase, 6 pulse to single phase
mAs x 1.6
high frequency to single phase
mAs x 2
a higher lgm number means
more exposure (higher mAs); image will be darker
destructive pathologies
more exposure to the IR
underexposed images will appear
more grainy/mottled
the smaller the anode angle, the _______ the anode heel effect
more prominent
Decreasing focal spot size will cause a ______ in exposure to the IR
no change
adjusting the focal spot size will ______ exposure to the IR
not affect
changing IR speed will _____ contrast
not affect
changing SID will ____contrast
not affect
changing from a small focal spot to a large focal spot will ______ contrast
not affect
changing mAs will _____ contrast
not affect
focal spot size will ______ contrast
not affect
the anode heel effect will ______ contrast
not affect
formula for IR speed
old mAs / new mAs = new speed / old speed
grid conversion formula
old mAs / new mAs = old GCF / new GCF
window width
post processing technique with digital systems to adjust contrast
window width manipulations are
post processing techniques
processing that adjusts contrast automatically based on certain anatomy selected
pre-processing (re-scaling)
dynamic range
range of gray levels capable of being represented in an image
what is the purpose of filtration?
remove lower energy photons from the beam
other terms for high contrast
short scale, more black and white, few shades of gray, narrow window width
grid ratio refers to
the amount of lead in the grid
focal spot size affects
the sharpness/detail of an image
purpose of a grid
to absorb scatter photons before they hit the IR
overexposed images will appear
very dark if extremely overexposed; if only a little overexposed a good image will still be produced, just exposes the pt more
Focal spot blooming occurs when
very high technical factors are used
