The importance of AIF ROI selection in DCE-MRI renography: Reproducibility and variability of renal perfusion and filtration

Abstract Purpose The aim of this study was to investigate (a) the effect the choice of the region of interest (ROI) defining the aortic input function (AIF) has on the estimation of renal perfusion and filtration in dynamic contrast-enhanced (DCE) magnetic resonance imaging (MRI) renography, and (b)...

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Bibliographic Details
Published in:European journal of radiology 2010-06, Vol.74 (3), p.e154-e160
Main Authors: Cutajar, M, Mendichovszky, I.A, Tofts, P.S, Gordon, I
Format: Article
Language:English
Subjects:
Adult
Algorithms
Aorta - physiology
Aortic input function analysis
Blood Flow Velocity - physiology
Computer Simulation
Diffusion Magnetic Resonance Imaging - methods
Female
Gadolinium
GFR
Humans
Image Enhancement - methods
Image Interpretation, Computer-Assisted - methods
Kidney - blood supply
Kidney - physiology
Magnetic Resonance Angiography - methods
Male
Models, Cardiovascular
Perfusion
Radioisotope Renography - methods
Radiology
Renal dynamic contrast-enhanced magnetic resonance imaging (DCE-MRI)
Reproducibility of Results
Reproducibility study
Sensitivity and Specificity
Three-compartment tracer kinetics model
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Summary:Abstract Purpose The aim of this study was to investigate (a) the effect the choice of the region of interest (ROI) defining the aortic input function (AIF) has on the estimation of renal perfusion and filtration in dynamic contrast-enhanced (DCE) magnetic resonance imaging (MRI) renography, and (b) the reproducibility of these parameters. Using renal DCE-MRI and a three-compartment model analysis, this work evaluated the effect two different AIFs, derived from variable sized ROIs in the aorta, has on calculating DCE-MRI renal perfusion and filtration values in a group of healthy adult volunteers who underwent two consecutive renal DCE-MRI studies. Methods Fifteen healthy volunteers underwent two DCE-MRI studies under similar physiological conditions. Oblique-coronal DCE-MRI data volumes were acquired on a 1.5 T Siemens Avanto scanner with a 3D-FLASH pulse-sequence (TE/TR = 0.53/1.63 ms, flip angle = 17°, acquisition matrix = 128 × 104 voxels, strong fat saturation, PAT factor = 2 (GRAPPA) and 400 mm × 325 mm FOV). Each dynamic dataset consisted of 18 slices of 7.5 mm thickness (no gap) and an in-plane resolution of 3.1 mm × 3.1 mm, acquired every 2.5 s for not less than 5 minutes. During the MR scan a dose of 0.05 mmol (0.1 mL) kg−1 body weight of dimeglumine gadopentetate (Magnevist) was injected intravenously (2 mL s−1 injection rate), followed by a 15 mL saline flush at the same rate, using a MR-compatible automated injector (Spectris). Two AIFs were defined for each volunteer by drawing two ROIs in the aorta for each study. Renal perfusion and glomerular filtration rate (GFR) values were then calculated for each of the AIFs using a modified Tofts Renal Model (TRM). Both renal perfusion and GFR were expressed in mL min−1 100 mL−1 of tissue. Results and conclusion Inter-individual reproducibility tests for renal perfusion and glomerular filtration rate showed that the size of AIF ROIs significantly affects calculated values of perfusion and GFR ( p -values 0.22). From our study we conclude that while DCE-MRI derived indices of renal function are reproducible in the same individual when imaged on different days, the size of the aortic ROI and hence the AIF has a significant influence on calculated renal perfusion and GFR values. Currently there is no accepted standard for drawing the aortic
ISSN:0720-048X
1872-7727
DOI:10.1016/j.ejrad.2009.05.041