Correct Patient Centering Increases Image Quality without Concomitant Increase of Radiation Dose during Adult Intracranial Computed Tomography

Abstract Purpose To evaluate the impact of patient centering and radiation dose during intracranial computed tomography (ICT) on quantitative and qualitative image quality. Materials and methods A total of 500 consecutive patients who underwent ICT were retrospectively reviewed using a 128-slice CT scanner (Definition AS+, Siemens, Germany). Patients were subjected in equal numbers to one of two positioning protocols: group A, poorly centered; and group B involved accurate centering before imaging. Gray-white matter (GWM) conspicuity, contrast-to-noise ratio (CNR), and signal-to-noise ratio (SNR) in each group were calculated. Qualitative image quality in terms of GWM differentiation, distinctness of posterior fossa contents, and overall diagnostic acceptability were evaluated by 2 neuroradiologists. The dose length product, CNR, SNR, and noise were measured between each group and data generated were compared using Mann–Whitney U nonparametric statistics. Visual grading characteristic and Kappa analyses were performed. Results The mean noise index was significantly lower in group B (2.61 ± 0.29) compared with A (2.66 ± 0.21; P P P P P > .05). Mean dose length product demonstrated no significance between each group (A, 1312.03 ± 133.92; B, 1298.11 ± 130.61). The qualitative analyses demonstrated significant increases in visual grading characteristic for each reader ( P Conclusions Correct patient centering increases the CNR and SNR in both GWM in the left and right hemispheres of the brain during ICT.