OBJECTIVE: The aim of this study was to evaluate combined two-dimensional (2D) and three-dimensional (3D) dynamic MR urography with respiratory compensation in children with anomalies of the genitourinary tract, allowing for computation of split renal function and assessment of urinary tract obstruction. METHODS: Dynamic MR urography was performed in 53 children (3 months-16 years of age) with anomalies of the urinary tract. A protocol for dynamic MR urography and nephrography was implemented at 1.5 T using a navigator-triggered 2D TurboFLASH sequence. Split renal function and contrast-medium excretion were assessed after the bolus injection of 0.05 mmol kg(-1) body weight of gadolinium dimeglumine. In the excretory phase, a 3D gradient-echo data set with high spatial resolution was acquired. In all patients, mercaptoacetyltriglycine (MAG3) scintigraphy was obtained as a reference standard. RESULTS: In all children, dynamic MR nephrography and urography could be performed with excellent compensation of breathing artefacts providing region of interest analysis in nearly identical kidney positions. The assessment of contrast-medium excretion into the ureter allowed for discrimination of functional from non-functional stenosis. Split renal function assessed by MRI showed an excellent agreement with the MAG3 reference standard with a correlation coefficient r = 0.95. Additionally recorded 3D data sets offered good depiction of anatomical anomalies in all patients. CONCLUSION: The proposed protocol provides a robust technique for assessment of ureteral obstruction and split renal function with compensation of breathing artefacts, short post-processing time and excellent 3D spatial resolution. ADVANCES IN KNOWLEDGE: The combined protocol of 2D and 3D MR urography is an efficient technique for assessment of renal morphology and function.
OBJECTIVE: The aim of this study was to evaluate combined two-dimensional (2D) and three-dimensional (3D) dynamic MR urography with respiratory compensation in children with anomalies of the genitourinary tract, allowing for computation of split renal function and assessment of urinary tract obstruction. METHODS: Dynamic MR urography was performed in 53 children (3 months-16 years of age) with anomalies of the urinary tract. A protocol for dynamic MR urography and nephrography was implemented at 1.5 T using a navigator-triggered 2D TurboFLASH sequence. Split renal function and contrast-medium excretion were assessed after the bolus injection of 0.05 mmol kg(-1) body weight of gadolinium dimeglumine. In the excretory phase, a 3D gradient-echo data set with high spatial resolution was acquired. In all patients, mercaptoacetyltriglycine (MAG3) scintigraphy was obtained as a reference standard. RESULTS: In all children, dynamic MR nephrography and urography could be performed with excellent compensation of breathing artefacts providing region of interest analysis in nearly identical kidney positions. The assessment of contrast-medium excretion into the ureter allowed for discrimination of functional from non-functional stenosis. Split renal function assessed by MRI showed an excellent agreement with the MAG3 reference standard with a correlation coefficient r = 0.95. Additionally recorded 3D data sets offered good depiction of anatomical anomalies in all patients. CONCLUSION: The proposed protocol provides a robust technique for assessment of ureteral obstruction and split renal function with compensation of breathing artefacts, short post-processing time and excellent 3D spatial resolution. ADVANCES IN KNOWLEDGE: The combined protocol of 2D and 3D MR urography is an efficient technique for assessment of renal morphology and function.
Authors: R-H Ringert; H Riedmiller; H Rübben; A Rose; P F Hoyer; S Conrad; J Hoang-Böhm; D E Müller-Wiefel Journal: Urologe A Date: 2006-09 Impact factor: 0.639
Authors: Benjamin B McDaniel; Richard A Jones; Hal Scherz; Andrew J Kirsch; Stephen B Little; J Damien Grattan-Smith Journal: AJR Am J Roentgenol Date: 2005-12 Impact factor: 3.959
Authors: J Damien Grattan-Smith; Marcos R Perez-Bayfield; Richard A Jones; Stephen Little; Bruce Broecker; Edwin A Smith; Hal C Scherz; Andrew J Kirsch Journal: Pediatr Radiol Date: 2003-03-13
Authors: Dominik Świȩtoń; Małgorzata Grzywińska; Piotr Czarniak; Andrzej Gołȩbiewski; Agata Durawa; Jacek Teodorczyk; Mariusz Kaszubowski; Maciej Piskunowicz Journal: Front Pediatr Date: 2022-03-23 Impact factor: 3.418