PURPOSE: To compare different methods measuring abdominal aortic aneurysm (AAA) maximal diameter (Dmax) and its progression on multidetector computed tomography (MDCT) scan. MATERIALS AND METHODS: Forty AAA patients with two MDCT scans acquired at different times (baseline and follow-up) were included. Three observers measured AAA diameters by seven different methods: on axial images (anteroposterior, transverse, maximal, and short-axis views) and on multiplanar reformation (MPR) images (coronal, sagittal, and orthogonal views). Diameter measurement and progression were compared over time for the seven methods. Reproducibility of measurement methods was assessed by intraclass correlation coefficient (ICC) and Bland-Altman analysis. RESULTS: Dmax, as measured on axial slices at baseline and follow-up (FU) MDCTs, was greater than that measured using the orthogonal method (p = 0.046 for baseline and 0.028 for FU), whereas Dmax measured with the orthogonal method was greater those using all other measurement methods (p-value range: <0.0001-0.03) but anteroposterior diameter (p = 0.18 baseline and 0.10 FU). The greatest interobserver ICCs were obtained for the orthogonal and transverse methods (0.972) at baseline and for the orthogonal and sagittal MPR images at FU (0.973 and 0.977). Interobserver ICC of the orthogonal method to document AAA progression was greater (ICC = 0.833) than measurements taken on axial images (ICC = 0.662-0.780) and single-plane MPR images (0.772-0.817). CONCLUSION: AAA Dmax measured on MDCT axial slices overestimates aneurysm size. Diameter as measured by the orthogonal method is more reproducible, especially to document AAA progression.
PURPOSE: To compare different methods measuring abdominal aortic aneurysm (AAA) maximal diameter (Dmax) and its progression on multidetector computed tomography (MDCT) scan. MATERIALS AND METHODS: Forty AAA patients with two MDCT scans acquired at different times (baseline and follow-up) were included. Three observers measured AAA diameters by seven different methods: on axial images (anteroposterior, transverse, maximal, and short-axis views) and on multiplanar reformation (MPR) images (coronal, sagittal, and orthogonal views). Diameter measurement and progression were compared over time for the seven methods. Reproducibility of measurement methods was assessed by intraclass correlation coefficient (ICC) and Bland-Altman analysis. RESULTS: Dmax, as measured on axial slices at baseline and follow-up (FU) MDCTs, was greater than that measured using the orthogonal method (p = 0.046 for baseline and 0.028 for FU), whereas Dmax measured with the orthogonal method was greater those using all other measurement methods (p-value range: <0.0001-0.03) but anteroposterior diameter (p = 0.18 baseline and 0.10 FU). The greatest interobserver ICCs were obtained for the orthogonal and transverse methods (0.972) at baseline and for the orthogonal and sagittal MPR images at FU (0.973 and 0.977). Interobserver ICC of the orthogonal method to document AAA progression was greater (ICC = 0.833) than measurements taken on axial images (ICC = 0.662-0.780) and single-plane MPR images (0.772-0.817). CONCLUSION: AAA Dmax measured on MDCT axial slices overestimates aneurysm size. Diameter as measured by the orthogonal method is more reproducible, especially to document AAA progression.
Authors: Lorenzo Carlo Pescatori; Matteo Brambati; Carmelo Messina; Giovanni Mauri; Giovanni Di Leo; Enzo Silvestri; Francesco Sardanelli; Luca Maria Sconfienza Journal: Emerg Radiol Date: 2018-03-13
Authors: Muhammad Hammadah; Mohammed Qintar; Steven E Nissen; Julie St John; Saqer Alkharabsheh; Motunrayo Mobolaji-Lawal; Femi Philip; Kiyoko Uno; Yu Kataoka; Brett Babb; Roman Poliszczuk; Samir R Kapadia; E Murat Tuzcu; Paul Schoenhagen; Stephen J Nicholls; Rishi Puri Journal: Int J Cardiovasc Imaging Date: 2015-05-12 Impact factor: 2.357
Authors: Alex Bratt; Daniel J Blezek; William J Ryan; Kenneth A Philbrick; Prabhakar Rajiah; Yasmeen K Tandon; Lara A Walkoff; Jason C Cai; Emily N Sheedy; Panagiotis Korfiatis; Eric E Williamson; Bradley J Erickson; Jeremy D Collins Journal: J Digit Imaging Date: 2021-05-28 Impact factor: 4.903