Magnetic resonance elastography (MRE) detects medullary renal fibrosis

Abstract

MRE is a noninvasive novel MRI modality that detects changes in tissue viscoelastic properties by imaging shear wave propagation. Renal artery stenosis (RAS) induces kidney fibrosis, yet we have previously shown that concomitant reductions in renal perfusion pressure mask an increase in cortical stiffness. We hypothesized that due to its lower vascular volume and turgor, change es in medullary elasticity in RAS would be detectable by MRE. MRE 3D elastograms were obtained in pigs after 10 weeks of RAS or matched controls (n=6 per group), and contrast‐enhanced computed tomography images obtained in the same pigs guided selection of MRE medullary regions of interest (Fig 1). Trichrome staining was used for computer‐aided quantification of medullary fibrosis ex‐vivo. The renal medulla was significantly more fibrotic (5.96±0.19 vs. 1.82±0.49%, p<0.001) and stiffer (10.9±0.84 vs. 7.88±0.26 kPa, p<0.05) in RAS compared to controls (Fig 1 and 2). The histological degree of medullary fibrosis directly correlated with MRE‐derived stiffness (R2=0.55, p<0.05, Fig 3). This study therefore suggests that renal medullary MRE may be useful for detection of chronic kidney fibrosis in RAS.Grant Funding Source: NIH DK73608, HL77131, HL085307, and EB001981