Predicting Non-Small-Cell Lung Cancer Survival after Curative Surgery via Deep Learning of Diffusion MRI

the objective of this study is to evaluate the predictive power of the survival model using deep learning of diffusion-weighted images (DWI) in patients with non-small-cell lung cancer (NSCLC). DWI at b-values of 0, 100, and 700 sec/mm (DWI , DWI , DWI ) were preoperatively obtained for 100 NSCLC pa...

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Veröffentlicht in:Diagnostics (Basel) 2023-08, Vol.13 (15), p.2555
Hauptverfasser: Moon, Jung Won, Yang, Ehwa, Kim, Jae-Hun, Kwon, O Jung, Park, Minsu, Yi, Chin A
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Sprache:eng
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Zusammenfassung:the objective of this study is to evaluate the predictive power of the survival model using deep learning of diffusion-weighted images (DWI) in patients with non-small-cell lung cancer (NSCLC). DWI at b-values of 0, 100, and 700 sec/mm (DWI , DWI , DWI ) were preoperatively obtained for 100 NSCLC patients who underwent curative surgery (57 men, 43 women; mean age, 62 years). The ADC (perfusion-sensitive ADC), ADC (perfusion-insensitive ADC), ADC , and demographic features were collected as input data and 5-year survival was collected as output data. Our survival model adopted transfer learning from a pre-trained VGG-16 network, whereby the softmax layer was replaced with the binary classification layer for the prediction of 5-year survival. Three channels of input data were selected in combination out of DWIs and ADC images and their accuracies and AUCs were compared for the best performance during 10-fold cross validation. 66 patients survived, and 34 patients died. The predictive performance was the best in the following combination: DWI -ADC -ADC (accuracy: 92%; AUC: 0.904). This was followed by DWI -DWI -ADC , DWI -DWI -DWI , and DWI -DWI -DWI (accuracy: 91%, 81%, 76%; AUC: 0.889, 0.763, 0.711, respectively). Survival prediction models trained with ADC performed significantly better than the one trained with DWI only ( -values < 0.05). The survival prediction was improved when demographic features were added to the model with only DWIs, but the benefit of clinical information was not prominent when added to the best performing model using both DWI and ADC. Deep learning may play a role in the survival prediction of lung cancer. The performance of learning can be enhanced by inputting precedented, proven functional parameters of the ADC instead of the original data of DWIs only.
ISSN:2075-4418
2075-4418
DOI:10.3390/diagnostics13152555