Lymph node evaluation and surgical procedure selection for non-small cell lung cancer

Zhaoming, Gao; Zhenfa, Zhang

doi:10.1007/s44178-024-00070-3

Holist Integ Oncol

2024

DOI: 10.1007/s44178-024-00070-3

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Lymph node evaluation and surgical procedure selection for non-small cell lung cancer

Gao Zhaoming,

Zhang Zhenfa

Abstract: Lymph node metastasis is a common mode of metastasis in non-small cell lung cancer (NSCLC). Correct lymph node staging is crucial to the selection of treatment and the assessment of the prognosis of patients, and the selection of appropriate lymph node resection can prolong the survival of patients and reduce surgical trauma.In this review, the preoperative lymph node evaluation methods and the common intraoperative lymph node resection methods of NSCLC are reviewed, and the advantages and disadvantages of eac… Show more

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2024

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Cited by 2 publications

References 101 publications

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Clinical utility of artificial intelligence–augmented endobronchial ultrasound elastography in lymph node staging for lung cancer

Patel,

Gatti,

Farrokhyar

et al. 2024

JTCVS Techniques

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Clinical utility of artificial intelligence–augmented endobronchial ultrasound elastography in lymph node staging for lung cancer

Patel,

Gatti,

Farrokhyar

et al. 2024

JTCVS Techniques

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Artificial Intelligence Algorithm Can Predict Lymph Node Malignancy from Endobronchial Ultrasound Transbronchial Needle Aspiration Images for Non-Small Cell Lung Cancer

Patel,

Gatti,

Farrokhyar

et al. 2024

Respiration

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Introduction: EBUS-TBNA for lung cancer staging is operator-dependent, resulting in high rates of non-diagnostic lymph node (LN) samples. We hypothesized that an artificial intelligence (AI) algorithm can consistently and reliably predict nodal metastases from the ultrasound images of LNs, when compared to pathology. Methods: In this analysis of prospectively-recorded B-mode images of mediastinal LNs during EBUS-TBNA, we used transfer learning to build an end-to-end ensemble of three deep neural networks (ResNet152V2, InceptionV3, and DenseNet201). Model hyperparameters were tuned, and the optimal version(s) of each model trained using 80% of the images. A learned ensemble (multi-layer perceptron) of the optimal versions were applied to the remaining 20% of the images (Test Set). All predictions were compared to final pathology from nodal biopsies and/or surgical specimen. Results: A total of 2,569 LN images from 773 patients were used. The Training Set included 2,048 LNs, of which 70.02% were benign and 29.98% were malignant on pathology. The Testing Set included 521 LNs, of which 70.06% were benign and 29.94% were malignant on pathology. The final ensemble model had an overall accuracy of 80.63% [95%Confidence Interval (CI):76.93%-83.97%], 43.23% sensitivity (95%CI:35.30%-51.41%), 96.91% specificity (95%CI:94.54%-98.45%), 85.90% positive predictive value (95%CI:76.81%-91.80%), 79.68% negative predictive value (95%CI:77.34%-81.83%), and AUC of 0.701 (95%CI:0.646-0.755) for malignancy. Conclusion: There now exists an AI algorithm which can identify nodal metastases based only on ultrasound images with good overall accuracy, specificity, and positive predictive value. Further optimization with larger sample sizes would be beneficial prior to clinical application.

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Lymph node evaluation and surgical procedure selection for non-small cell lung cancer

Cited by 2 publications

References 101 publications

Clinical utility of artificial intelligence–augmented endobronchial ultrasound elastography in lymph node staging for lung cancer

Clinical utility of artificial intelligence–augmented endobronchial ultrasound elastography in lymph node staging for lung cancer

Artificial Intelligence Algorithm Can Predict Lymph Node Malignancy from Endobronchial Ultrasound Transbronchial Needle Aspiration Images for Non-Small Cell Lung Cancer

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