anode heel effect more examination date CMOS sampling frequency quantum noise (quantum mottle) additive increased magnification anatomically programmed techniques OID signal decrease increased contrast high tube filtration direct- capture DR wider indirect- capture DR absorb scatter & increase contrast increase DOB decreased spatial resolution time of day fill factor mAs decreased or narrow pixel pitch positive contrast agents CCD side marker attending physician pixel pitch high contrast decreased exposure reaching the IR increase in mAs variable kVp - fixed mAs technique chart ADC SNR dynamic range high subject contrast indirect- capture DR angling (tube, part, IR) beam restriction more window level patient age low contrast motion radiographer identification MTF institution's name kVp & mAs detectors fixed kVp - variable mAs technique chart increased pixel density more noise subject contrast patient factors DQE exposure adjustment fast (increase mA & decrease time) focal spot size patient's identification number low subject contrast filtration bit depth window width detector size or FOV no change decreased or small pixel size pixel density spatial resolution DELs contrast resolution large matrix grids large patient's name SID anode heel effect more examination date CMOS sampling frequency quantum noise (quantum mottle) additive increased magnification anatomically programmed techniques OID signal decrease increased contrast high tube filtration direct- capture DR wider indirect- capture DR absorb scatter & increase contrast increase DOB decreased spatial resolution time of day fill factor mAs decreased or narrow pixel pitch positive contrast agents CCD side marker attending physician pixel pitch high contrast decreased exposure reaching the IR increase in mAs variable kVp - fixed mAs technique chart ADC SNR dynamic range high subject contrast indirect- capture DR angling (tube, part, IR) beam restriction more window level patient age low contrast motion radiographer identification MTF institution's name kVp & mAs detectors fixed kVp - variable mAs technique chart increased pixel density more noise subject contrast patient factors DQE exposure adjustment fast (increase mA & decrease time) focal spot size patient's identification number low subject contrast filtration bit depth window width detector size or FOV no change decreased or small pixel size pixel density spatial resolution DELs contrast resolution large matrix grids large patient's name SID
(Print) Use this randomly generated list as your call list when playing the game. There is no need to say the BINGO column name. Place some kind of mark (like an X, a checkmark, a dot, tally mark, etc) on each cell as you announce it, to keep track. You can also cut out each item, place them in a bag and pull words from the bag.
anode heel effect
more
examination date
CMOS
sampling frequency
quantum noise (quantum mottle)
additive
increased magnification
anatomically programmed techniques
OID
signal
decrease
increased contrast
high
tube filtration
direct-capture DR
wider
indirect-capture DR
absorb scatter & increase contrast
increase
DOB
decreased spatial resolution
time of day
fill factor
mAs
decreased or narrow pixel pitch
positive contrast agents
CCD
side marker
attending physician
pixel pitch
high contrast
decreased exposure reaching the IR
increase in mAs
variable kVp - fixed mAs technique chart
ADC
SNR
dynamic range
high subject contrast
indirect-capture DR
angling (tube, part, IR)
beam restriction
more
window level
patient age
low contrast
motion
radiographer identification
MTF
institution's name
kVp & mAs
detectors
fixed kVp - variable mAs technique chart
increased pixel density
more noise
subject contrast
patient factors
DQE
exposure adjustment
fast (increase mA & decrease time)
focal spot size
patient's identification number
low subject contrast
filtration
bit depth
window width
detector size or FOV
no change
decreased or small pixel size
pixel density
spatial resolution
DELs
contrast resolution
large matrix
grids
large
patient's name
SID