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