Histologic Analysis of Idiopathic Pulmonary Fibrosis by Morphometric and Fractal Analysis

Idiopathic pulmonary fibrosis (IPF) is a chronic, progressive fibrotic lung disorder, ultimately leading to respiratory failure and death. Despite great research advances in understanding the mechanisms underlying the disease, its diagnosis, and its treatment, IPF still remains idiopathic without kn...

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Bibliographic Details
Published in:Biomedicines 2023-05, Vol.11 (5), p.1483
Main Authors: Mancini, Massimiliano, Bargiacchi, Lavinia, De Vitis, Claudia, D'Ascanio, Michela, De Dominicis, Chiara, Ibrahim, Mohsen, Rendina, Erino Angelo, Ricci, Alberto, Di Napoli, Arianna, Mancini, Rita, Vecchione, Andrea
Format: Article
Language:English
Subjects:
Alveoli
Archives & records
Biomarkers
Biopsy
Cell cycle
Comparative analysis
Development and progression
Fibrosis
Fractals
Histology
Histomorphometry
IPF
Lung cancer
Lung diseases
Medical prognosis
Medical research
Medicine, Experimental
Morphometry
Patients
Pneumonia
Pulmonary fibrosis
Thoracic surgery
UIP
Variance analysis
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Summary:Idiopathic pulmonary fibrosis (IPF) is a chronic, progressive fibrotic lung disorder, ultimately leading to respiratory failure and death. Despite great research advances in understanding the mechanisms underlying the disease, its diagnosis, and its treatment, IPF still remains idiopathic without known biological or histological markers able to predict disease progression or response to treatment. The histologic hallmark of IPF is usual interstitial pneumonia (UIP), with its intricate architectural distortion and temporal inhomogeneity. We hypothesize that normal lung alveolar architecture can be compared to fractals, such as the Pythagoras tree with its fractal dimension ( ), and every pathological insult, distorting the normal lung structure, could result in variations. In this study, we aimed to assess the UIP histologic fractal dimension in relationship to other morphometric parameters in newly diagnosed IPF patients and its possible role in the prognostic stratification of the disease. Clinical data and lung tissue specimens were obtained from twelve patients with IPF, twelve patients with non-specific interstitial pneumonia (NSIP), and age-matched "healthy" control lung tissue from patients undergoing lung surgery for other causes. Histology and histomorphometry were performed to evaluate and lacunarity measures, using the box counting method on the FracLac ImageJ plugin. The results showed that was significantly higher in IPF patients compared to controls and fibrotic NSIP patients, indicating greater architectural distortion in IPF. Additionally, high values were associated with higher fibroblastic foci density and worse prognostic outcomes in IPF, suggesting that may serve as a potential novel prognostic marker for IPF. The scalability of measurements was demonstrated through repeated measurements on smaller portions from the same surgical biopsies, which were selected to mimic a cryobiopsy. Our study provides further evidence to support the use of fractal morphometry as a tool for quantifying and determining lung tissue remodeling in IPF, and we demonstrated a significant correlation between histological and radiological in UIP pattern, as well as a significant association between and FF density. Furthermore, our study demonstrates the scalability and self-similarity of measurements across different biopsy types, including surgical and smaller specimens.
ISSN:2227-9059
2227-9059
DOI:10.3390/biomedicines11051483