TY - JOUR
T1 - Predicting EGFR mutation status by a deep learning approach in patients with non-small cell lung cancer brain metastases
AU - Haim, Oz
AU - Abramov, Shani
AU - Shofty, Ben
AU - Fanizzi, Claudia
AU - DiMeco, Francesco
AU - Avisdris, Netanell
AU - Ram, Zvi
AU - Artzi, Moran
AU - Grossman, Rachel
N1 - Publisher Copyright:
© 2022, The Author(s), under exclusive licence to Springer Science+Business Media, LLC, part of Springer Nature.
PY - 2022/3
Y1 - 2022/3
N2 - Purpose: Non-small cell lung cancer (NSCLC) tends to metastasize to the brain. Between 10 and 60% of NSCLCs harbor an activating mutation in the epidermal growth-factor receptor (EGFR), which may be targeted with selective EGFR inhibitors. However, due to a high discordance rate between the molecular profile of the primary tumor and the brain metastases (BMs), identifying an individual patient’s EGFR status of the BMs necessitates tissue diagnosis via an invasive surgical procedure. We employed a deep learning (DL) method with the aim of noninvasive detection of the EGFR mutation status in NSCLC BM. Methods: We retrospectively collected clinical, radiological, and pathological-molecular data of all the NSCLC patients who had been diagnosed with BMs and underwent resection of their BM during 2009–2019. The study population was then divided into two groups based upon EGFR mutational status. We further employed a DL technique to classify the two groups according to their preoperative magnetic resonance imaging features. Augmentation techniques, transfer learning approach, and post-processing of the predicted results were applied to overcome the relatively small cohort. Finally, we established the accuracy of our model in predicting EGFR mutation status of BM of NSCLC. Results: Fifty-nine patients were included in the study, 16 patients harbored EGFR mutations. Our model predicted mutational status with mean accuracy of 89.8%, sensitivity of 68.7%, specificity of 97.7%, and a receiver operating characteristic curve value of 0.91 across the 5 validation datasets. Conclusion: DL-based noninvasive molecular characterization is feasible, has high accuracy and should be further validated in large prospective cohorts.
AB - Purpose: Non-small cell lung cancer (NSCLC) tends to metastasize to the brain. Between 10 and 60% of NSCLCs harbor an activating mutation in the epidermal growth-factor receptor (EGFR), which may be targeted with selective EGFR inhibitors. However, due to a high discordance rate between the molecular profile of the primary tumor and the brain metastases (BMs), identifying an individual patient’s EGFR status of the BMs necessitates tissue diagnosis via an invasive surgical procedure. We employed a deep learning (DL) method with the aim of noninvasive detection of the EGFR mutation status in NSCLC BM. Methods: We retrospectively collected clinical, radiological, and pathological-molecular data of all the NSCLC patients who had been diagnosed with BMs and underwent resection of their BM during 2009–2019. The study population was then divided into two groups based upon EGFR mutational status. We further employed a DL technique to classify the two groups according to their preoperative magnetic resonance imaging features. Augmentation techniques, transfer learning approach, and post-processing of the predicted results were applied to overcome the relatively small cohort. Finally, we established the accuracy of our model in predicting EGFR mutation status of BM of NSCLC. Results: Fifty-nine patients were included in the study, 16 patients harbored EGFR mutations. Our model predicted mutational status with mean accuracy of 89.8%, sensitivity of 68.7%, specificity of 97.7%, and a receiver operating characteristic curve value of 0.91 across the 5 validation datasets. Conclusion: DL-based noninvasive molecular characterization is feasible, has high accuracy and should be further validated in large prospective cohorts.
KW - Brain
KW - Deep learning
KW - EGFR
KW - MRI
KW - Metastasis
KW - NSCLC
UR - http://www.scopus.com/inward/record.url?scp=85124366951&partnerID=8YFLogxK
U2 - 10.1007/s11060-022-03946-4
DO - 10.1007/s11060-022-03946-4
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C2 - 35119589
AN - SCOPUS:85124366951
SN - 0167-594X
VL - 157
SP - 63
EP - 69
JO - Journal of Neuro-Oncology
JF - Journal of Neuro-Oncology
IS - 1
ER -