Quantitative Prediction of Stone Fragility From Routine Dual Energy CT: Ex vivo proof of Feasibility
Rationale and objectives
Previous studies have demonstrated a qualitative relationship between stone fragility and internal stone morphology. The goal of this study was to quantify morphologic features from dual-energy computed tomography (CT) images and assess their relationship to stone fragility.
Material and Methods
Thirty-three calcified urinary stones were scanned with micro-CT. Next, they were placed within torso-shaped water phantoms and scanned with the dual-energy CT stone composition protocol in routine use at our institution. Mixed low- and highenergyimages were used to measure volume, surface roughness, and 12 metrics describing internal morphology for each stone. The ratios of low- to high-energy CT numbers were also measured. Subsequent to imaging, stone fragility was measured by disintegrating each stone in a controlled ex vivo experiment using an ultrasonic lithotripter and recording the time to comminution. A multivariable linear regression model was developed to predict time to comminution.
The average stone volume was 300 mm3 (range: 134-674 mm3). The average comminution time measured ex vivo was 32 seconds (range: 7-115 seconds). Stone volume, dual-energy CT number ratio, and surface roughness were found to have the best combined predictive ability to estimate comminution time (adjusted R2 = 0.58). The predictive ability of mixed dualenergy CT images, without use of the dual-energyCT number ratio, to estimate comminution time was slightly inferior, with an adjusted R2 of 0.54.
Dual-energy CT number ratios, volume, and morphologic metrics may provide a method for predicting stone fragility, as measured by time to comminution from ultrasonic lithotripsy.
Authors: Ferrero A, Montoya JC, Vaughan LE, Huang AE, McKeag IO, Enders FT, Williams JC Jr, McCollough CH.
Full text available at: Acad Radiol. 2016 Oct 4.