Erschienen in:
01.10.2014 | Physics
Automatic exposure control in CT: the effect of patient size, anatomical region and prescribed modulation strength on tube current and image quality
verfasst von:
Antonios E. Papadakis, Kostas Perisinakis, John Damilakis
Erschienen in:
European Radiology
|
Ausgabe 10/2014
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Abstract
Objectives
To study the effect of patient size, body region and modulation strength on tube current and image quality on CT examinations that use automatic tube current modulation (ATCM).
Methods
Ten physical anthropomorphic phantoms that simulate an individual as neonate, 1-, 5-, 10-year-old and adult at various body habitus were employed. CT acquisition of head, neck, thorax and abdomen/pelvis was performed with ATCM activated at weak, average and strong modulation strength. The mean modulated mAs (mAsmod) values were recorded. Image noise was measured at selected anatomical sites.
Results
The mAsmod recorded for neonate compared to 10-year-old increased by 30 %, 14 %, 6 % and 53 % for head, neck, thorax and abdomen/pelvis, respectively, (P < 0.05). The mAsmod was lower than the preselected mAs with the exception of the 10-year-old phantom. In paediatric and adult phantoms, the mAsmod ranged from 44 and 53 for weak to 117 and 93 for strong modulation strength, respectively. At the same exposure parameters image noise increased with body size (P < 0.05).
Conclusions
The ATCM system studied here may affect dose differently for different patient habitus. Dose may decrease for overweight adults but increase for children older than 5 years old. Care should be taken when implementing ATCM protocols to ensure that image quality is maintained.
Key Points
• ATCM efficiency is related to the size of the patient’s body.
• ATCM should be activated without caution in overweight adult individuals.
• ATCM may increase radiation dose in children older than 5 years old.
• ATCM efficiency depends on the protocol selected for a specific anatomical region.
• Modulation strength may be appropriately tuned to enhance ATCM efficiency.