Feasibility of Using 18F-FDG PET/CT Radiomics and Machine Learning to Detect Drug-Induced Interstitial Lung Disease.

IF 3 3区 医学 Q1 MEDICINE, GENERAL & INTERNAL Diagnostics Pub Date : 2024-11-12 DOI:10.3390/diagnostics14222531
Charlotte L C Smith, Gerben J C Zwezerijnen, Sanne E Wiegers, Yvonne W S Jauw, Pieternella J Lugtenburg, Josée M Zijlstra, Maqsood Yaqub, Ronald Boellaard
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Abstract

Background: Bleomycin is an oncolytic and antibiotic agent used to treat various human cancers because of its antitumor activity. Unfortunately, up to 46% of the patients treated with bleomycin develop drug-induced interstitial lung disease (DIILD) and potentially life-threatening interstitial pulmonary fibrosis. Tools and biomarkers for predicting and detecting DIILD are limited. Therefore, we aimed to evaluate the feasibility of 18F-FDG PET/CT, PET radiomics, and machine learning in distinguishing DIILD in an explorative pilot study.

Methods: Eighteen Hodgkin's lymphoma (HL) patients, of whom 10 developed DIILD after treatment with bleomycin, were retrospectively included. Five diffuse large B-cell lymphoma (DLBCL) patients were included as a control group since they were not treated with bleomycin. All patients underwent 18F-FDG PET/CT scans before (baseline) and during treatment (interim). Structural changes were assessed by changes in Hounsfield Units (HUs). The 18F-FDG PET scans were used to assess metabolic changes by examining the feasibility of 504 radiomics features, including the mean activity of the lungs (SUVmean). A Random Forest (RF) classifier evaluated the identification and prediction of DIILD based on PET radiomics features.

Results: HL patients who developed DIILD showed a significant increase in standard SUV metrics (SUVmean; p = 0.012, median increase 37.4%), and in some regional PET radiomics features (texture strength; p = 0.009, median increase 101.6% and zone distance entropy; p = 0.019, median increase 18.5%), while this was not found in HL patients who did not develop DIILD and DLBCL patients. The RF classifier correctly identified DIILD in 72.2% of the patients and predicted the development of DIILD correctly in 50% of the patients. There were no significant differences in HUs over time within all three patient groups.

Conclusions: Our explorative longitudinal pilot study suggests that certain regional 18F-FDG PET radiomics features can effectively identify DIILD in HL patients treated with bleomycin, as significant longitudinal increases were observed in SUVmean, texture strength, and zone distance entropy after the development of DIILD. The metabolic activity of these features did not significantly increase over time in DLBCL patients and HL patients who did not develop DIILD. This indicates that 18F-FDG PET radiomics, with and without machine learning, might serve as potential biomarkers for detecting DIILD.

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利用 18F-FDG PET/CT 放射计量学和机器学习检测药物诱发间质性肺病的可行性。
背景:博莱霉素是一种溶瘤抗生素,具有抗肿瘤活性,可用于治疗多种人类癌症。不幸的是,在接受博莱霉素治疗的患者中,多达46%的患者会出现药物诱发的间质性肺病(DIILD)和可能危及生命的间质性肺纤维化。预测和检测DIILD的工具和生物标志物非常有限。因此,我们旨在通过一项探索性试验研究,评估18F-FDG PET/CT、PET放射组学和机器学习在区分DIILD方面的可行性:回顾性纳入了18例霍奇金淋巴瘤(HL)患者,其中10例在接受博来霉素治疗后出现了DIILD。5名弥漫大B细胞淋巴瘤(DLBCL)患者未接受博莱霉素治疗,因此被列为对照组。所有患者均在治疗前(基线)和治疗期间(中期)接受了18F-FDG PET/CT扫描。结构变化通过霍斯菲尔德单位(HU)的变化进行评估。18F-FDG PET 扫描通过检查 504 个放射组学特征(包括肺的平均活度(SUVmean))的可行性来评估代谢变化。随机森林(RF)分类器根据 PET 放射性组学特征对 DIILD 的识别和预测进行了评估:发生DIILD的HL患者的标准SUV指标(SUVmean;p = 0.012,中位值增加37.4%)和一些区域PET放射组学特征(纹理强度;p = 0.009,中位值增加101.6%,区域距离熵;p = 0.019,中位值增加18.5%)显著增加,而未发生DIILD的HL患者和DLBCL患者则没有发现这种情况。RF分类器正确识别了72.2%的DIILD患者,正确预测了50%的DIILD患者。三组患者的HUs随时间变化无明显差异:我们的探索性纵向试验研究表明,某些区域18F-FDG PET放射组学特征能有效识别接受博莱霉素治疗的HL患者的DIILD,因为在DIILD发生后观察到SUVmean、纹理强度和区域距离熵显著纵向增加。而在未发生DIILD的DLBCL患者和HL患者中,这些特征的代谢活性并没有随着时间的推移而显著增加。这表明,无论是否进行了机器学习,18F-FDG PET 放射组学都可能成为检测 DIILD 的潜在生物标记物。
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来源期刊
Diagnostics
Diagnostics Biochemistry, Genetics and Molecular Biology-Clinical Biochemistry
CiteScore
4.70
自引率
8.30%
发文量
2699
审稿时长
19.64 days
期刊介绍: Diagnostics (ISSN 2075-4418) is an international scholarly open access journal on medical diagnostics. It publishes original research articles, reviews, communications and short notes on the research and development of medical diagnostics. There is no restriction on the length of the papers. Our aim is to encourage scientists to publish their experimental and theoretical research in as much detail as possible. Full experimental and/or methodological details must be provided for research articles.
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