Low-Dose High-Resolution CT of the Chest in Children and Young Adults: Dose, Cooperation, Artifact Incidence, and Image Quality

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Low-Dose High-Resolution CT of the Chest in Children and Young Adults

Dose, Cooperation, Artifact Incidence, and Image Quality

Javier Lucaya¹^,2, Joaquim Piqueras¹, Pilar García-Peña¹, Goya Enríquez¹, Maribel García-Macías¹ and Jesús Sotil³

^¹ Radiology Department, HMI-Vall d'Hebron Hospitals, ps. Vall d'Hebron 119-129, 08035 Barcelona, Spain.
^² Institute of Diagnostic Imaging, Vall d'Hebron Hospitals, 08035 Barcelona, Spain.
^³ Radiation Protection Department, Vall d'Hebron Hospitals, 08035 Barcelona, Spain.

OBJECTIVE. The radiation dose, artifact incidence, and imagequality of high-resolution chest CT examinations performed withstandard and low doses and patient cooperation were investigatedin children and young adults.

SUBJECTS AND METHODS. Three successive controlled studies were conductedin different groups of children and young adults, totaling 203 patients.Dosimetry of high-resolution CT was performed at 180, 50, and34 mAs in three groups of 25 patients. Streak artifact incidenceusing alternating 50- and 34-mAs slices was assessed and correlatedwith patient compliance with breath-holding commands in 44 children.Image quality was evaluated in scans obtained with 34 versus180 mAs in cooperative patients (n = 42) and in scans obtainedwith 50 versus 180 mAs in noncooperative patients (n = 42).Artifacts and image quality were assessed by controlled repeatedinterpretations.

RESULTS. Radiation dose was 5.4 ± 1.6 mSv for 180 mAs,1.5 ± 0.5 mSv for 50 mAs, and 1.1 ± 0.3 mSv for34 mAs. Cooperation was obtained in 66% of the patients. Artifactswere more frequently seen in scans of noncooperative patients(30%) and in 34-mAs scans (47%); the highest incidence was foundusing 34 mAs in noncooperative patients (60%, p = 0.02). Nodifferences in image quality scores were seen in scans obtainedwith 50 mAs versus those obtained with 180 mAs in noncooperativepatients (p < 0.05), and small differences were found inscans obtained with 34 mAs versus those obtained with 180 mAsin cooperative patients for fissures (p = 0.005) and peripheralstructures (p = 0.02).

CONCLUSION. Low-dose high-resolution CT provided a significant reductionin radiation dose (72% for 50 mAs and 80% for 34 mAs) and good-qualityimages of the lung when performed with 50 mAs in noncooperative and34 mAs in cooperative pediatric and young adult patients.

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