计算得出的肾小管特征的临床相关性:微小病变性肾病/局灶节段性肾小球硬化症中肾小管间质瘢痕形成的空间关系及发展
Clinical Relevance of Computationally Derived Tubular Features: Spatial Relationships and the Development of Tubulointerstitial Scarring in MCD/FSGS.
作者信息
Fan Fan, Liu Qian, Zee Jarcy, Ozeki Takaya, Demeke Dawit, Yang Yingbao, Farris Alton B, Wang Bangcheng, Shah Manav, Jacobs Jackson, Mariani Laura, Lafata Kyle, Rubin Jeremy, Chen Yijiang, Holzman Lawrence, Hodgin Jeffrey B, Madabhushi Anant, Barisoni Laura, Janowczyk Andrew
机构信息
Department of Biomedical Engineering, Emory University and Georgia Institute of Technology, Atlanta, GA, USA.
Children's Hospital of Philadelphia Research Institute, Philadelphia, PA.
出版信息
medRxiv. 2024 Jul 21:2024.07.19.24310619. doi: 10.1101/2024.07.19.24310619.
BACKGROUND
Visual scoring of tubular damage has limitations in capturing the full spectrum of structural changes and prognostic potential. We investigate if computationally quantified tubular features can enhance prognostication and reveal spatial relationships with interstitial fibrosis.
METHODS
Deep-learning and image-processing-based segmentations were employed in N=254/266 PAS-WSIs from the NEPTUNE/CureGN datasets (135/153 focal segmental glomerulosclerosis and 119/113 minimal change disease) for: cortex, tubular lumen (TL), epithelium (TE), nuclei (TN), and basement membrane (TBM). N=104 pathomic features were extracted from these segmented tubular substructures and summarized at the patient level using summary statistics. The tubular features were quantified across the biopsy and in manually segmented regions of mature interstitial fibrosis and tubular atrophy (IFTA), pre-IFTA and non-IFTA in the NEPTUNE dataset. Minimum Redundancy Maximum Relevance was used in the NEPTUNE dataset to select features most associated with disease progression and proteinuria remission. Ridge-penalized Cox models evaluated their predictive discrimination compared to clinical/demographic data and visual-assessment. Models were evaluated in the CureGN dataset.
RESULTS
N=9 features were predictive of disease progression and/or proteinuria remission. Models with tubular features had high prognostic accuracy in both NEPTUNE and CureGN datasets and increased prognostic accuracy for both outcomes (5.6%-7.7% and 1.6%-4.6% increase for disease progression and proteinuria remission, respectively) compared to conventional parameters alone in the NEPTUNE dataset. TBM thickness/area and TE simplification progressively increased from non- to pre- and mature IFTA.
CONCLUSIONS
Previously under-recognized, quantifiable, and clinically relevant tubular features in the kidney parenchyma can enhance understanding of mechanisms of disease progression and risk stratification.
背景
肾小管损伤的视觉评分在全面捕捉结构变化和预后潜力方面存在局限性。我们研究了通过计算量化的肾小管特征是否能增强预后评估并揭示与间质纤维化的空间关系。
方法
在来自NEPTUNE/CureGN数据集的N = 254/266张PAS全切片图像(135/153例局灶节段性肾小球硬化和119/113例微小病变病)中,采用基于深度学习和图像处理的分割方法来划分皮质、肾小管管腔(TL)、上皮(TE)、细胞核(TN)和基底膜(TBM)。从这些分割后的肾小管亚结构中提取N = 104个病理组学特征,并使用汇总统计量在患者层面进行汇总。在活检组织以及NEPTUNE数据集中成熟间质纤维化和肾小管萎缩(IFTA)、IFTA前期和非IFTA的手动分割区域对肾小管特征进行量化。在NEPTUNE数据集中使用最小冗余最大相关性方法选择与疾病进展和蛋白尿缓解最相关的特征。与临床/人口统计学数据和视觉评估相比,岭回归惩罚Cox模型评估了它们的预测辨别力。在CureGN数据集中对模型进行评估。
结果
N = 9个特征可预测疾病进展和/或蛋白尿缓解。与NEPTUNE数据集中仅使用传统参数相比,包含肾小管特征的模型在NEPTUNE和CureGN数据集中均具有较高的预后准确性,并且两种结局的预后准确性均有所提高(疾病进展和蛋白尿缓解分别提高5.6% - 7.7%和1.6% - 4.6%)。从非IFTA到IFTA前期和成熟IFTA,TBM厚度/面积和TE简化程度逐渐增加。
结论
肾实质中以前未被充分认识、可量化且与临床相关的肾小管特征能够增强对疾病进展机制和风险分层的理解。
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