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Improved precision of noise estimation in CT with a volume-based approach

Hendrik Joost Wisselink, Gert Jan Pelgrim, Mieneke Rook, Ivan Dudurych, Maarten van den Berge, Geertruida H. de Bock, Rozemarijn Vliegenthart

2021European Radiology Experimental10 citationsDOIOpen Access PDF

Abstract

Abstract Assessment of image noise is a relevant issue in computed tomography (CT). Noise is routinely measured by the standard deviation of density values (Hounsfield units, HU) within a circular region of interest (ROI). We explored the effect of a spherical volume of interest (VOI) on noise measurements. Forty-nine chronic obstructive pulmonary disease patients underwent CT with clinical protocol (regular dose [RD], volumetric CT dose index [CTDIvol] 3.04 mGy, 64-slice unit), and ultra-low dose (ULD) protocol (median CTDIvol 0.38 mGy, dual-source unit). Noise was measured in 27 1-cm 2 ROIs and 27 0.75-cm 3 VOIs inside the trachea. Median true noise was 21 HU (range 17-29) for RD-CT and 33 HU (26-39) for ULD-CT. The VOI approach resulted in a lower mean distance between limits of agreement compared to ROI: 5.9 versus 10.0 HU for RD-CT (−40%); 4.7 versus 9.9 HU for ULD-CT (−53%). Mean systematic bias barely changed: −1.6 versus −0.9HU for RD-CT; 0.0 to 0.4HU for ULD-CT. The average measurement time was 6.8 s (ROI) versus 9.7 (VOI), independent of dose level. For chest CT, measuring noise with a VOI-based instead of a ROI-based approach reduces variability by 40-53%, without a relevant effect on systematic bias and measurement time.

Topics & Concepts

Hounsfield scaleMedicineNuclear medicineStandard deviationImage noiseRegion of interestNoise (video)NeuroradiologyUltrasoundComputed tomographyRadiologyMathematicsStatisticsComputer scienceArtificial intelligenceImage (mathematics)NeurologyPsychiatryRadiation Dose and ImagingAdvanced X-ray and CT ImagingMedical Imaging Techniques and Applications
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