AI-based automatic estimation of single-kidney glomerular filtration rate and split renal function using non-contrast CT

肾功能 肾积水 医学 神经组阅片室 一致相关系数 核医学 线性回归 泌尿科 分割 对比度(视觉) 一致性 放射科 数学 内科学 人工智能 泌尿系统 统计 计算机科学 神经学 精神科
作者
Yiwei Wang,Feng Xu,Qiu-Yue Han,Daoying Geng,Xin Gao,Bin Xu,Wei Xia
出处
期刊:Insights Into Imaging [Springer Nature]
卷期号:16 (1)
标识
DOI:10.1186/s13244-025-01959-x
摘要

Abstract Objectives To address SPECT’s radioactivity, complexity, and costliness in measuring renal function, this study employs artificial intelligence (AI) with non-contrast CT to estimate single-kidney glomerular filtration rate (GFR) and split renal function (SRF). Methods 245 patients with atrophic kidney or hydronephrosis were included from two centers (Training set: 128 patients from Center I; Test set: 117 patients from Center II). The renal parenchyma and hydronephrosis regions in non-contrast CT were automatically segmented by deep learning. Radiomic features were extracted and combined with clinical characteristics using multivariable linear regression (MLR) to obtain a radiomics-clinical-estimated GFR (rcGFR). The relative contribution of single-kidney rcGFR to overall rcGFR, the percent renal parenchymal volume, and the percent renal hydronephrosis volume were combined by MLR to generate the estimation of SRF (rcphSRF). The Pearson correlation coefficient ( r ), mean absolute error (MAE), and Lin’s concordance coefficient (CCC) were calculated to evaluate the correlations, differences, and agreements between estimations and SPECT-based measurements, respectively. Results Compared to manual segmentation, deep learning-based automatic segmentation could reduce the average segmentation time by 434.6 times to 3.4 s. Compared to single-kidney GFR measured by SPECT, the rcGFR had a significant correlation of r = 0.75 ( p < 0.001), MAE of 10.66 mL/min/1.73 m 2 , and CCC of 0.70. Compared to SRF measured by SPECT, the rcphSRF had a significant correlation of r = 0.92 ( p < 0.001), MAE of 7.87%, and CCC of 0.88. Conclusions The non-contrast CT and AI methods are feasible to estimate single-kidney GFR and SRF in patients with atrophic kidney or hydronephrosis. Critical relevance statement For patients with an atrophic kidney or hydronephrosis, non-contrast CT and artificial intelligence methods can be used to estimate single-kidney glomerular filtration rate and split renal function, which may minimize the radiation risk, enhance diagnostic efficiency, and reduce costs. Key Points Renal function can be assessed using non-contrast CT and AI. Estimated renal function significantly correlated with the SPECT-based measurements. The efficiency of renal function estimation can be refined by the proposed method. Graphical Abstract

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