Augmented Quadruple-Phase Contrast Media Administration and Triphasic Scan Protocol Increases Image Quality at Reduced Radiation Dose during Computed Tomography Urography

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2018-4244.pdf (305.93 KB)

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2018

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Lippincott Williams and Wilkins

Abstract

Purpose The aim of this article was to investigate the opacification of the renal vasculature and the urogenital system during computed tomography urography by using a quadruple-phase contrast media in a triphasic scan protocol. Materials and Methods A total of 200 patients with possible urinary tract abnormalities were equally divided between 2 protocols. Protocol A used the conventional single bolus and quadruple-phase scan protocol (pre, arterial, venous, and delayed), retrospectively. Protocol B included a quadruple-phase contrast media injection with a triphasic scan protocol (pre, arterial and combined venous, and delayed), prospectively. Each protocol used 100 mL contrast and saline at a flow rate of 4.5 mL. Attenuation profiles and contrast-to-noise ratio of the renal arteries, veins, and urogenital tract were measured. Effective radiation dose calculation, data analysis by independent sample t test, receiver operating characteristic, and visual grading characteristic analyses were performed. Results In arterial circulation, only the inferior interlobular arteries in both protocols showed a statistical significance (P < 0.05). Venously, the inferior vena cava, proximal and distal renal veins demonstrated a significant opacification reduction in protocol B than in protocol A (P < 0.001). Protocol B showed a significantly higher mean contrast-to-noise ratio than protocol A (protocol B: 22.68 ± 13.72; protocol A: 14.75 ± 5.76; P < 0.001). Radiation dose was significantly reduced in protocol B (7.38 ± 2.22 mSv) than in protocol A (12.28 ± 2.72 mSv) (P < 0.001). Visual grading characteristic (P < 0.027) and receiver operating characteristic (P < 0.0001) analyses demonstrated a significant preference for protocol B. Conclusions In computed tomography urography, augmented quadruple-phase contrast media and triphasic scan protocol usage increases the image quality at a reduced radiation dose. © 2017 Wolters Kluwer Health, Inc. All rights reserved.

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Computed tomography urography, Image quality, Reduced radiation, Triphasic scan protocol, Contrast media, Humans, Image processing, computer-assisted, Prospective studies, Radiation dosage, Radiographic image enhancement, Reproducibility of results, Retrospective studies, Tomography, x-ray computed, Urinary tract, Urography, Computerized tomography, Dosimetry, Grading, Radiation, Radiology, Contrast medium, Contrast-to-noise ratio, Opacification, Phase-contrast, Receiver operating characteristics, Tri-phasic, Abdominal aorta, Arterial circulation, Artery, Article, Computer assisted tomography, Contrast enhancement, Contrast to noise ratio, Controlled study, Diagnostic test accuracy study, Effective dose (radiation), Female, Hematuria, Human, Image analysis, Inferior cava vein, Inferior interlobular artery, Kidney artery, Kidney blood flow, Kidney blood vessel, Kidney collecting tubule, Kidney cortex, Kidney medulla, Kidney parenchyma, Kidney pelvis, Kidney vein, Major clinical study, Male, Priority journal, Prospective study, Radiation attenuation, Radiation dose reduction, Renovascular disease, Retrospective study, Sex ratio, Superior interlobular artery, Systemic circulation, Ureter, Urogenital system, Diagnostic imaging, Image enhancement, Image processing, Procedures, Radiation dose, Reproducibility, X-ray computed tomography

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http://hdl.handle.net/10938/29655

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Diagnostic Radiology

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