Deep learning on CT scans to predict checkpoint inhibitor treatment outcomes in advanced melanoma

Laurens S. Ter Maat; Rob A. J. De Mooij; Isabella A. J. Van Duin; Joost J. C. Verhoeff; Sjoerd G. Elias; Tim Leiner; Wouter A. C. van Amsterdam; Max F. Troenokarso; Eran R. A. N. Arntz; Franchette W. P. J. Van den Berkmortel; Marye J. Boers-Sonderen; Martijn F. Boomsma; Fons J. M. Van den Eertwegh; Jan Willem de Groot; Geke A. P. Hospers; Djura Piersma; Art Vreugdenhil; Hans M. Westgeest; Ellen Kapiteijn; Ardine A. De Wit; Willeke A. M. Blokx; Paul J. Van Diest; Pim A. De Jong; Josien P. W. Pluim; Karijn P. M. Suijkerbuijk; Mitko Veta

doi:10.1038/s41598-024-81188-2

Scientific Reports (Dec 2024)

Deep learning on CT scans to predict checkpoint inhibitor treatment outcomes in advanced melanoma

Laurens S. Ter Maat,
Rob A. J. De Mooij,
Isabella A. J. Van Duin,
Joost J. C. Verhoeff,
Sjoerd G. Elias,
Tim Leiner,
Wouter A. C. van Amsterdam,
Max F. Troenokarso,
Eran R. A. N. Arntz,
Franchette W. P. J. Van den Berkmortel,
Marye J. Boers-Sonderen,
Martijn F. Boomsma,
Fons J. M. Van den Eertwegh,
Jan Willem de Groot,
Geke A. P. Hospers,
Djura Piersma,
Art Vreugdenhil,
Hans M. Westgeest,
Ellen Kapiteijn,
Ardine A. De Wit,
Willeke A. M. Blokx,
Paul J. Van Diest,
Pim A. De Jong,
Josien P. W. Pluim,
Karijn P. M. Suijkerbuijk,
Mitko Veta

Affiliations

Laurens S. Ter Maat: Image Sciences Institute, University Medical Center Utrecht, Utrecht University
Rob A. J. De Mooij: Medical Image Analysis, Department of Biomedical Engineering, Eindhoven University of Technology
Isabella A. J. Van Duin: Department of Medical Oncology, University Medical Center Utrecht, Utrecht University
Joost J. C. Verhoeff: Department of Radiotherapy, University Medical Center Utrecht, Utrecht University
Sjoerd G. Elias: Department of Epidemiology, Julius Center for Health Sciences and Primary Care, University Medical Center Utrecht, Utrecht University
Tim Leiner: Department of Radiology, Mayo Clinical
Wouter A. C. van Amsterdam: Department of Data Science and Biostatistics, Julius Center for Health Sciences and Primary Care, University Medical Center Utrecht, Utrecht University
Max F. Troenokarso: Utrecht University
Eran R. A. N. Arntz: Utrecht University
Franchette W. P. J. Van den Berkmortel: Department of Medical Oncology, Zuyderland Medical Center
Marye J. Boers-Sonderen: Department of Medical Oncology, Radboudumc, Radboud University
Martijn F. Boomsma: Department of Radiology, Isala Zwolle
Fons J. M. Van den Eertwegh: Department of Medical Oncology, Amsterdam UMC, Vrije Universiteit Amsterdam, Cancer Center Amsterdam
Jan Willem de Groot: Isala Oncology Center, Isala Zwolle
Geke A. P. Hospers: Department of Medical Oncology, UMC Groningen, University of Groningen
Djura Piersma: Department of Medical Oncology, Medisch Spectrum Twente
Art Vreugdenhil: Department of Medical Oncology, Maxima Medical Center
Hans M. Westgeest: Department of Internal Medicine, Amphia Hospital
Ellen Kapiteijn: Department of Medical Oncology, Leiden University Medical Center, Leiden University
Ardine A. De Wit: Department of Public Health, Healthcare Innovation and Evaluation and Medical Humanities, Julius Center Research Program Methodology, University Medical Center Utrecht, Utrecht University
Willeke A. M. Blokx: Department of Pathology, University Medical Center Utrecht, Utrecht University
Paul J. Van Diest: Department of Pathology, University Medical Center Utrecht, Utrecht University
Pim A. De Jong: Department of Radiology, University Medical Center Utrecht, Utrecht University
Josien P. W. Pluim: Image Sciences Institute, University Medical Center Utrecht, Utrecht University
Karijn P. M. Suijkerbuijk: Department of Medical Oncology, University Medical Center Utrecht, Utrecht University
Mitko Veta: Medical Image Analysis, Department of Biomedical Engineering, Eindhoven University of Technology

DOI: https://doi.org/10.1038/s41598-024-81188-2
Journal volume & issue: Vol. 14, no. 1
pp. 1 – 11

Abstract

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Abstract Immune checkpoint inhibitor (ICI) treatment has proven successful for advanced melanoma, but is associated with potentially severe toxicity and high costs. Accurate biomarkers for response are lacking. The present work is the first to investigate the value of deep learning on CT imaging of metastatic lesions for predicting ICI treatment outcomes in advanced melanoma. Adult patients that were treated with ICI for advanced melanoma were retrospectively identified from ten participating centers. A deep learning model (DLM) was trained on volumes of lesions on baseline CT to predict clinical benefit. The DLM was compared to and combined with a model of known clinical predictors (presence of liver and brain metastasis, level of lactate dehydrogenase, performance status and number of affected organs). A total of 730 eligible patients with 2722 lesions were included. The DLM reached an area under the receiver operating characteristic (AUROC) of 0.607 [95%CI 0.565–0.648]. In comparison, a model of clinical predictors reached an AUROC of 0.635 [95%CI 0.59 –0.678]. The combination model reached an AUROC of 0.635 [95% CI 0.595–0.676]. Differences in AUROC were not statistically significant. The output of the DLM was significantly correlated with four of the five input variables of the clinical model. The DLM reached a statistically significant discriminative value, but was unable to improve over known clinical predictors. The present work shows that the assessment over known clinical predictors is an essential step for imaging-based prediction and brings important nuance to the almost exclusively positive findings in this field.

Published in Scientific Reports

ISSN: 2045-2322 (Online)
Publisher: Nature Portfolio
Country of publisher: United Kingdom
LCC subjects: Medicine; Science
Website: https://www.nature.com/srep/

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