Carlton: IR Exposure "Green Box"
kilovoltage
Directly proportional ↑kVp = ↑exposure ↓kVp = ↓exposure Kilovoltage (kVp) alters the intensity of the beam reaching the IR in two ways. Kilovoltage controls the energy and therefore the strength of the electrons striking the target of the x-ray tube for any given mAs. More important, kilovoltage controls the average energy of the x-ray photons produced at the anode target. Therefore, a change in kilovoltage alters the intensity of the beam when the mAs and other factors remain the same. Kilovoltage also affects the production of scatter radiation. Because of this, a change in kilovoltage alters the intensity of the beam after it enters the subject (or object) but before it reaches the IR.
Additive/destructive pathological conditions
Inversely proportional ↑additive = ↓exposure ↓destructive = ↑exposure
beam restriction/collimation
Inversely proportional ↑collimation = ↓exposure ↓collimation = ↑exposure
distance
Inversely proportional ↑distance = ↓exposure ↓distance = ↑exposure
filtration
Inversely proportional ↑filtration = ↓exposure ↓filtration = ↑exposure
grid ratio
Inversely proportional ↑grid ratio = ↓exposure ↓grid ratio = ↑exposure
anatomical part thickness or tissue type
Inversely proportional ↑thickness = ↓exposure ↓thickness = ↑exposure
milliamperage-seconds
Primary Influencing Factor: Directly proportional ↑mAs = ↑exposure ↓mAs = ↓exposure mAs increases quantity of particles released by the tube.
Using radiolucent/radiopaque contrast media
↑radiolucent = ↑exposure ↓radiopaque = ↓exposure
