Comprehensive ultrasonographic evaluation of normal and fibrotic kidneys in a mouse model with an ultra-high-frequency transducer.

IF 4.6 Q2 MATERIALS SCIENCE, BIOMATERIALS

ACS Applied Bio Materials Pub Date : 2024-09-01 Epub Date: 2024-06-21 DOI:10.14366/usg.24024

Myoung Seok Lee, Jeong Yeon Cho, Min Hoan Moon, Jeonghwan Lee, Jung Pyo Lee, Nayeon Shin, Wencheng Jin, Ara Cho

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引用次数: 0

Abstract

Purpose: This study aimed to establish baseline morphological and functional data for normal mouse kidneys via a clinical 33 MHz ultra-high-frequency (UHF) transducer, compare the data with the findings from fibrotic mice, and assess correlations between ultrasonography (US) parameters and fibrosis-related markers.

Methods: This retrospective study aggregated data from three separate experiments (obstructive nephropathy, diabetic nephropathy, and acute-to-chronic kidney injury models). Morphological parameters (kidney size, parenchymal thickness [PT]) and functional (shear-wave speed [SWS], stiffness, resistive index [RI], and microvascular imaging-derived vascular index [VI]) were assessed and compared between normal and fibrotic mouse kidneys. Semi-quantitative histopathologic scores were calculated and molecular markers (epithelial cadherin), Collagen 1A1 [Col1A1], transforming growth factor-β, and α-smooth muscle actin [α-SMA]) were evaluated using western blots. Correlations with US parameters were explored.

Results: Clinical UHF US successfully imaged the kidneys of the experimental mice. A three-layer configuration was prevalent in the normal mouse kidney parenchyma (34/35) but was blurred in most fibrotic mouse kidneys (33/40). US parameters, including size (11.14 vs. 10.70 mm), PT (2.07 vs. 1.24 mm), RI (0.64 vs. 0.77), VI (22.55% vs. 11.47%, only for non-obstructive kidneys), SWS (1.67 vs. 2.06 m/s), and stiffness (8.23 vs. 12.92 kPa), showed significant differences between normal and fibrotic kidneys (P<0.001). These parameters also demonstrated strong discriminative ability in receiver operating characteristic curve analysis (area under the curve, 0.76 to 0.95; P<0.001). PT, VI, and RI were significantly correlated with histological fibrosis markers (ρ=-0.64 to -0.68 for PT and VI, ρ=0.71-0.76 for RI, P<0.001). VI exhibited strong negative correlations with Col1A1 (ρ=-0.76, P=0.006) and α-SMA (ρ=-0.75, P=0.009).

Conclusion: Clinical UHF US effectively distinguished normal and fibrotic mouse kidneys, indicating the potential of US parameters, notably VI, as noninvasive markers for tracking fibrosis initiation and progression in mouse kidney fibrosis models.

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利用超高频换能器对小鼠模型的正常肾脏和纤维化肾脏进行全面超声评估。

目的：本研究旨在通过临床 33 MHz 超高频（UHF）换能器建立正常小鼠肾脏的基线形态和功能数据，将这些数据与纤维化小鼠的研究结果进行比较，并评估超声造影（US）参数与纤维化相关标记物之间的相关性：这项回顾性研究汇总了三个独立实验（阻塞性肾病、糖尿病肾病和急性至慢性肾损伤模型）的数据。对形态参数（肾脏大小、实质厚度[PT]）和功能参数（剪切波速度[SWS]、硬度、电阻指数[RI]和微血管成像衍生血管指数[VI]）进行了评估，并对正常肾脏和纤维化小鼠肾脏进行了比较。计算半定量组织病理学评分，并使用 Western 印迹法评估分子标记物（上皮凝集素）、胶原 1A1 [Col1A1]、转化生长因子-β 和 α 平滑肌肌动蛋白 [α-SMA]）。结果：结果：临床超高频 US 成功地对实验小鼠的肾脏进行了成像。正常小鼠肾实质中普遍存在三层结构（34/35），但在大多数纤维化小鼠肾脏（33/40）中却很模糊。US参数，包括大小（11.14 vs. 10.70 mm）、PT（2.07 vs. 1.24 mm）、RI（0.64 vs. 0.77）、VI（22.55% vs. 11.47%，仅针对非梗阻性肾脏）、SWS（1.67 vs. 2.06 m/s）和硬度（8.23 vs. 12.92 kPa）在正常肾脏和纤维化肾脏之间存在显著差异（P<0.001）。在接收者操作特征曲线分析中，这些参数也显示出很强的鉴别能力（曲线下面积，0.76 至 0.95；P<0.001）。PT、VI 和 RI 与组织学纤维化标记物有显著相关性（PT 和 VI 的 ρ=-0.64 至 -0.68，RI 的 ρ=0.71 至 0.76，P<0.001）。VI与Col1A1（ρ=-0.76，P=0.006）和α-SMA（ρ=-0.75，P=0.009）呈强负相关：结论：临床超高频 US 能有效区分正常肾脏和纤维化小鼠肾脏，这表明 US 参数（尤其是 VI）有可能成为追踪小鼠肾脏纤维化模型中纤维化发生和发展的无创标记物。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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来源期刊

ACS Applied Bio Materials Chemistry-Chemistry (all)

CiteScore

9.40

自引率

2.10%

发文量

464