Patient-specific tracheal deformation, predicted toxicant uptake and histopathology in lung fibrosis

Hygiene and environmental health advances Pub Date : 2024-11-29 DOI:10.1016/j.heha.2024.100117

Rebecca Bascom , Minyoung Kim , Simon G. Royce , Zachary Bitzer , Shirin Borhan , Pauline H. Go , Rickhesvar P.M. Mahraj , Negar Rassaei , Mary Vogt , James S. Ultman , Jane E. Bourke , Ali Borhan

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Abstract

Background

Our simulations previously predicted focal areas of gaseous pollutant dose delivered to the airway mucosa of a patient with idiopathic pulmonary fibrosis (IPF). We hypothesize a relation between these dose predictions and clinically meaningful endpoints in IPF which link toxicant-driven epithelial injury and disrepair to IPF etiology and pathogenesis.

Objective

To determine associations between patient-specific modeling of tracheal geometry, computer simulations of toxicant dose, and lung histopathology in patients with IPF.

Methods

The first three conducting airway generations of ten patients diagnosed with IPF were reconstructed from their high-resolution CT chest scans. We quantified geometric abnormalities of the reconstructed tracheas based on their curvature and eccentricity (cross-sectional flattening), and performed three-dimensional computer simulations to predict the average and upper values (i.e. hotspots) of reactive toxicant dose to the underlying mucosa. Distal biopsy tissue samples were characterized by epithelial cell phenotype, extent of fibrosis, and histopathologic severity scores. Non-parametric correlation analysis examined associations between these descriptors.

Results

Computed values for curvature and eccentricity of IPF-deformed trachea varied widely among patients and correlated with more subjective rankings of tracheal deformation, and with predicted toxicant dose. Overall histopathologic severity was positively correlated with tracheal deformation and upper decile toxicant uptake. Tracheal curvature was significantly correlated with fibroblastic foci.

Conclusions

These results demonstrate an association of tracheal curvature with predicted toxicant dose and with histopathologic indicators in distal tissue. This suggests that these measures may be predictors of risk for acute IPF exacerbations, subsequent clinical deterioration, and disease progression.

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患者特异性气管变形，预测毒性摄取和肺纤维化的组织病理学

我们的模拟先前预测了气体污染物剂量传递到特发性肺纤维化（IPF）患者气道粘膜的焦点区域。我们假设这些剂量预测与IPF的临床有意义的终点之间存在关系，这些终点将毒物驱动的上皮损伤和年久失修与IPF的病因和发病机制联系起来。目的确定IPF患者气管几何形状的患者特异性模型、毒性剂量的计算机模拟和肺组织病理学之间的关系。方法对10例IPF患者的前3代导气管进行高分辨率CT胸部扫描重建。我们根据气管的曲率和偏心率（横截面变平）量化重建气管的几何异常，并进行三维计算机模拟，预测反应性毒性剂量对下黏膜的平均值和上限（即热点）。远端活检组织样本的特征是上皮细胞表型，纤维化程度和组织病理学严重程度评分。非参数相关分析检查了这些描述符之间的关联。结果ipf气管变形的曲率和偏心率的计算值在不同的患者之间差异很大，并且与气管变形的主观排名和预测的毒性剂量相关。总体组织病理学严重程度与气管变形和上十分位毒性摄取呈正相关。气管曲度与成纤维细胞灶有显著相关性。结论气管曲度与预测的毒性剂量和远端组织的组织病理学指标有关。这表明，这些指标可能是IPF急性加重、随后的临床恶化和疾病进展的风险预测指标。

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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