Functional Evaluation of Transplanted Kidneys in Normal Function and Acute Rejection Using BOLD MR Imaging

Overview

Journal Eur J Radiol

Specialty Radiology

Date 2011 Mar 12

PMID 21392910

Citations 13

Authors

Wenbo Xiao

Jingjing Xu

Qindong Wang

Ying Xu

Minming Zhang

Affiliations

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Abstract

In this study, we evaluated a large number of subjects using BOLD MRI to provide more information about oxygen metabolism in the normal function of transplanted kidneys and to distinguish acute graft rejection from normal function kidneys. This study included 122 subjects (20 volunteers, 72 patients with normal functioning transplants, and 21 patients with acute rejection), and 9 patients had normal function grafts received examination while grafts dysfunction occurred within 6 months during the follow-up. The R2 (1/s) values in the cortex and medulla as well as the R2 ratio of the medulla to cortex (R2 ratio of M/C) were recorded. The R2 values of the medulla were higher than those of the cortex in the normal function group and the volunteers which have a steep R2 ratio of M/C. All the R2 values in the acute rejection group were lower than those in the normal function grafts group (P<0.001). Moreover, in the 9 patients as normal function, the R2 values of the cortex and medulla were different from the normal function grafts, which was lower in 5 patients and was higher in the 4 remaining patients. Conversely, the R2 ratios of M/C of the 9 patients were similar to those in the normal function group. BOLD MRI shows that decreased R2 values of the cortex and medulla and R2 ratio of M/C suggest acute renal graft rejection; furthermore, a steep R2 ratio of M/C (>1.1) is an important reason for keeping clinical normal function.

Citing Articles

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MRI for diagnosis of post-renal transplant complications: current state-of-the-art and future perspectives.

Schutter R, Lantinga V, Borra R, Moers C MAGMA. 2019; 33(1):49-61.

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Renal Allograft Rejection: Noninvasive Ultrasound- and MRI-Based Diagnostics.

Jehn U, Schuette-Nuetgen K, Kentrup D, Hoerr V, Reuter S Contrast Media Mol Imaging. 2019; 2019:3568067.

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Noninvasive evaluation of renal tissue oxygenation with blood oxygen level-dependent magnetic resonance imaging early after transplantation has a limited predictive value for the delayed graft function.

Slawinska A, Serafin Z, Zawada E, Bialecki M, Wypych K, Woderska A Pol J Radiol. 2019; 83:e389-e393.

PMID: 30655915 PMC: 6334089. DOI: 10.5114/pjr.2018.78622.

Renal blood oxygenation level-dependent magnetic resonance imaging to measure renal tissue oxygenation: a statement paper and systematic review.

Pruijm M, Mendichovszky I, Liss P, Van der Niepen P, Textor S, Lerman L Nephrol Dial Transplant. 2018; 33(suppl_2):ii22-ii28.

PMID: 30137579 PMC: 6106642. DOI: 10.1093/ndt/gfy243.