Ramesh S, Dyer E, Pomaville M, Doytcheva K, Dolezal J, Kochanny S, et al. Artificial intelligence-based morphologic classification and molecular characterization of neuroblastic tumors from digital histopathology. NPJ Precis Oncol. 2024 Nov 8;8(1):255. PubMed PMID: 39511421. PMCID: PMC11544094. Epub 20241108. eng.

Ramesh S, Dyer E, Pomaville M, Doytcheva K, Dolezal J, Kochanny S, Terhaar R, Mehrhoff CJ, Patel K, Brewer J, Kusswurm B, Naranjo A, Shimada H, Cipriani NA, Husain AN, Pytel P, Sokol EA, Cohn SL, George RE, Pearson AT, Applebaum MA. Artificial intelligence-based morphologic classification and molecular characterization of neuroblastic tumors from digital histopathology. NPJ Precis Oncol. 2024 Nov 8;8(1):255. doi: 10.1038/s41698-024-00745-0. PMID: 39511421; PMCID: PMC11544094.

A deep learning model using attention-based multiple instance learning (aMIL) and self-supervised learning (SSL) was developed to perform pathologic classification of neuroblastic tumors and assess MYCN-amplification status using H&E-stained whole slide images from the largest reported cohort to date. The model showed promising performance in identifying diagnostic category, grade, mitosis-karyorrhexis index (MKI), and MYCN-amplification with validation on an external test dataset, suggesting potential for AI-assisted neuroblastoma classification.