Preselection of robust radiomic features does not improve outcome modelling in non-small cell lung cancer based on clinical routine FDG-PET imaging.

Détails

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Etat: Public
Version: de l'auteur⸱e
Licence: CC BY 4.0
ID Serval
serval:BIB_A190AD7F0236
Type
Article: article d'un périodique ou d'un magazine.
Collection
Publications
Institution
Titre
Preselection of robust radiomic features does not improve outcome modelling in non-small cell lung cancer based on clinical routine FDG-PET imaging.
Périodique
EJNMMI research
Auteur⸱e⸱s
Oliveira C., Amstutz F., Vuong D., Bogowicz M., Hüllner M., Foerster R., Basler L., Schröder C., Eboulet E.I., Pless M., Thierstein S., Peters S., Hillinger S., Tanadini-Lang S., Guckenberger M.
ISSN
2191-219X (Print)
ISSN-L
2191-219X
Statut éditorial
Publié
Date de publication
21/08/2021
Peer-reviewed
Oui
Volume
11
Numéro
1
Pages
79
Langue
anglais
Notes
Publication types: Journal Article
Publication Status: epublish
Résumé
Radiomics is a promising tool for identifying imaging-based biomarkers. Radiomics-based models are often trained on single-institution datasets; however, multi-centre imaging datasets are preferred for external generalizability owing to the influence of inter-institutional scanning differences and acquisition settings. The study aim was to determine the value of preselection of robust radiomic features in routine clinical positron emission tomography (PET) images to predict clinical outcomes in locally advanced non-small cell lung cancer (NSCLC).
A total of 1404 primary tumour radiomic features were extracted from pre-treatment [ <sup>18</sup> F]fluorodeoxyglucose (FDG)-PET scans of stage IIIA/N2 or IIIB NSCLC patients using a training cohort (n = 79; prospective Swiss multi-centre randomized phase III trial SAKK 16/00; 16 centres) and an internal validation cohort (n = 31; single centre). Robustness studies investigating delineation variation, attenuation correction and motion were performed (intraclass correlation coefficient threshold > 0.9). Two 12-/24-month event-free survival (EFS) and overall survival (OS) logistic regression models were trained using standardized imaging: (1) with robust features alone and (2) with all available features. Models were then validated using fivefold cross-validation, and validation on a separate single-centre dataset. Model performance was assessed using area under the receiver operating characteristic curve (AUC).
Robustness studies identified 179 stable features (13%), with 25% stable features for 3D versus 4D acquisition, 31% for attenuation correction and 78% for delineation. Univariable analysis found no significant robust features predicting 12-/24-month EFS and 12-month OS (p value > 0.076). Prognostic models without robust preselection performed well for 12-month EFS in training (AUC = 0.73) and validation (AUC = 0.74). Patient stratification into two risk groups based on 12-month EFS was significant for training (p value = 0.02) and validation cohorts (p value = 0.03).
A PET-based radiomics model using a standardized, multi-centre dataset to predict EFS in locally advanced NSCLC was successfully established and validated with good performance. Prediction models with robust feature preselection were unsuccessful, indicating the need for a standardized imaging protocol.
Mots-clé
Lung cancer, Multi-centre, PET, Radiomics, Robust
Pubmed
Web of science
Open Access
Oui
Création de la notice
03/09/2021 17:04
Dernière modification de la notice
12/01/2022 7:12
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