AI Article Synopsis
- The study focuses on improving preoperative predictions of occult lymph node metastasis (OLNM) in solid-predominantly invasive lung adenocarcinoma (SPILAC) patients through a fusion model that combines radiomics and deep learning techniques.
- The research analyzed data from 1325 SPILAC patients across six hospitals, developing three predictive models: a radiomics model, a deep learning model, and a fusion model that incorporates both methods.
- The fusion model demonstrated the best performance, achieving an average area under the ROC curve (aAUC) of 0.754, indicating its potential to effectively predict OLNM and aid in tailoring personalized treatment strategies for patients.
Article Abstract
Background: In solid-predominantly invasive lung adenocarcinoma (SPILAC), occult lymph node metastasis (OLNM) is pivotal for determining treatment strategies. This study seeks to develop and validate a fusion model combining radiomics and deep learning to predict OLNM preoperatively in SPILAC patients across multiple centers.
Methods: In this study, 1325 cT1a-bN0M0 SPILAC patients from six hospitals were retrospectively analyzed and divided into pathological nodal positive (pN+) and negative (pN-) groups. Three predictive models for OLNM were developed: a radiomics model employing decision trees and support vector machines; a deep learning model using ResNet-18, ResNet-34, ResNet-50, DenseNet-121, and Swin Transformer, initialized randomly or pre-trained on large-scale medical data; and a fusion model integrating both approaches using addition and concatenation techniques. The model performance was evaluated by the area under the receiver operating characteristic (ROC) curve (AUC).
Results: All patients were assigned to four groups: training set (n = 470), internal validation set (n = 202), and independent test set 1 (n = 227) and 2 (n = 426). Among the 1325 patients, 478 (36%) had OLNM (pN+). The fusion model, combining radiomics with pre-trained ResNet-18 features via concatenation, outperformed others with an average AUC (aAUC) of 0.754 across validation and test sets, compared to aAUCs of 0.715 for the radiomics model and 0.676 for the deep learning model.
Conclusion: The radiomics-deep learning fusion model showed promising ability to generalize in predicting OLNM from CT scans, potentially aiding personalized treatment for SPILAC patients across multiple centers.
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| http://www.ncbi.nlm.nih.gov/pmc/articles/PMC10785418 | PMC |
| http://dx.doi.org/10.1186/s40644-024-00654-2 | DOI Listing |
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