subject contrast positive contrast agents increase in mAs tube filtration grids high subject contrast decreased or narrow pixel pitch low contrast increased contrast indirect- capture DR detector size or FOV anode heel effect direct- capture DR exposure adjustment contrast resolution SNR pixel pitch indirect- capture DR focal spot size patient age DOB high CMOS fixed kVp - variable mAs technique chart quantum noise (quantum mottle) CCD more high contrast attending physician low subject contrast institution's name mAs spatial resolution anatomically programmed techniques side marker more noise decreased or small pixel size radiographer identification pixel density more beam restriction time of day bit depth DQE patient's name increased pixel density DELs large angling (tube, part, IR) additive absorb scatter & increase contrast kVp & mAs fill factor increased magnification patient factors decreased spatial resolution MTF dynamic range examination date signal SID no change sampling frequency fast (increase mA & decrease time) decrease detectors window width wider window level filtration increase variable kVp - fixed mAs technique chart OID patient's identification number ADC decreased exposure reaching the IR large matrix motion subject contrast positive contrast agents increase in mAs tube filtration grids high subject contrast decreased or narrow pixel pitch low contrast increased contrast indirect- capture DR detector size or FOV anode heel effect direct- capture DR exposure adjustment contrast resolution SNR pixel pitch indirect- capture DR focal spot size patient age DOB high CMOS fixed kVp - variable mAs technique chart quantum noise (quantum mottle) CCD more high contrast attending physician low subject contrast institution's name mAs spatial resolution anatomically programmed techniques side marker more noise decreased or small pixel size radiographer identification pixel density more beam restriction time of day bit depth DQE patient's name increased pixel density DELs large angling (tube, part, IR) additive absorb scatter & increase contrast kVp & mAs fill factor increased magnification patient factors decreased spatial resolution MTF dynamic range examination date signal SID no change sampling frequency fast (increase mA & decrease time) decrease detectors window width wider window level filtration increase variable kVp - fixed mAs technique chart OID patient's identification number ADC decreased exposure reaching the IR large matrix motion
(Print)
subject contrast
positive contrast agents
increase in mAs
tube filtration
grids
high subject contrast
decreased or narrow pixel pitch
low contrast
increased contrast
indirect-capture DR
detector size or FOV
anode heel effect
direct-capture DR
exposure adjustment
contrast resolution
SNR
pixel pitch
indirect-capture DR
focal spot size
patient age
DOB
high
CMOS
fixed kVp - variable mAs technique chart
quantum noise (quantum mottle)
CCD
more
high contrast
attending physician
low subject contrast
institution's name
mAs
spatial resolution
anatomically programmed techniques
side marker
more noise
decreased or small pixel size
radiographer identification
pixel density
more
beam restriction
time of day
bit depth
DQE
patient's name
increased pixel density
DELs
large
angling (tube, part, IR)
additive
absorb scatter & increase contrast
kVp & mAs
fill factor
increased magnification
patient factors
decreased spatial resolution
MTF
dynamic range
examination date
signal
SID
no change
sampling frequency
fast (increase mA & decrease time)
decrease
detectors
window width
wider
window level
filtration
increase
variable kVp - fixed mAs technique chart
OID
patient's identification number
ADC
decreased exposure reaching the IR
large matrix
motion
