AbstractObjective—To compare comput

Abstract
Objective—To compare computed tomography dose and noise arising from use of an automatic
exposure control (AEC) system designed to maintain constant image noise as patient size varies
with clinically accepted technique charts and AEC systems designed to vary image noise.
Materials and Methods—A model was developed to describe tube current modulation as a
function of patient thickness. Relative dose and noise values were calculated as patient width
varied for AEC settings designed to yield constant or variable noise levels and were compared to
empirically derived values used by our clinical practice. Phantom experiments were performed in
which tube current was measured as a function of thickness using a constant-noise-based AEC
system and the results were compared with clinical technique charts.
Results—For 12-, 20-, 28-, 44-, and 50-cm patient widths, the requirement of constant noise
across patient size yielded relative doses of 5%, 14%, 38%, 260%, and 549% and relative noises
of 435%, 267%, 163%, 61%, and 42%, respectively, as compared with our clinically used
technique chart settings at each respective width. Experimental measurements showed that a
constant noise–based AEC system yielded 175% relative noise for a 30-cm phantom and 206%
relative dose for a 40-cm phantom compared with our clinical technique chart.
Conclusions—Automatic exposure control systems that prescribe constant noise as patient size
varies can yield excessive noise in small patients and excessive dose in obese patients compared
with clinically accepted technique charts. Use of noise-level technique charts and tube current
limits can mitigate these effects.