AI tool for predicting MGMT methylation in glioblastoma for clinical decision support in resource limited settings.

Journal: Scientific reports
PMID: 39543155

Abstract

Glioblastoma is an aggressive brain cancer with a poor prognosis. The O6-methylguanine-DNA methyltransferase (MGMT) gene methylation status is crucial for treatment stratification, yet economic constraints often limit access. This study aims to develop an artificial intelligence (AI) framework for predicting MGMT methylation. Diagnostic magnetic resonance (MR) images in public repositories were used for training. The algorithm created was validated in data from a single institution. All images were segmented according to widely used guidelines for radiotherapy planning and combined with clinical evaluations from neuroradiology experts. Radiomic features and clinical impressions were extracted, tabulated, and used for modeling. Feature selection methods were used to identify relevant phenotypes. A total of 100 patients were used for training and 46 for validation. A total of 343 features were extracted. Eight feature selection methods produced seven independent predictive frameworks. The top-performing ML model was a model post-Least Absolute Shrinkage and Selection Operator (LASSO) feature selection reaching accuracy (ACC) of 0.82, an area under the curve (AUC) of 0.81, a recall of 0.75, and a precision of 0.75. This study demonstrates that integrating clinical and radiotherapy-derived AI-driven phenotypes can predict MGMT methylation. The framework addresses constraints that limit molecular diagnosis access.

Authors

  • Felipe Cicci Farinha Restini
    Department of Radiation Oncology, Hospital Sírio-Libanês, Rua Batataes, 523, Jardim Paulista, Distrito Federal, São Paulo, Brasília, 01423-010, Brazil. restinifelipe@gmail.com.
  • Tarraf Torfeh
    Department of Radiation Oncology, National Center for Cancer Care & Research (NCCCR), Hamad Medical Corporation, Doha, Qatar.
  • Souha Aouadi
    Department of Radiation Oncology, National Center for Cancer Care & Research (NCCCR), Hamad Medical Corporation, Doha, Qatar.
  • Rabih Hammoud
    Department of Radiation Oncology, National Center for Cancer Care & Research (NCCCR), Hamad Medical Corporation, Doha, Qatar.
  • Noora Al-Hammadi
    Department of Radiation Oncology, National Center for Cancer Care & Research (NCCCR), Hamad Medical Corporation, Doha, Qatar.
  • Maria Thereza Mansur Starling
    London Health Sciences Centre, London, ON, Canada.
  • Cecília Felix Penido Mendes Sousa
    Johns Hopkins Bloomberg School of Public Health, Baltimore, MD, USA.
  • Anselmo Mancini
    Department of Radiation Oncology, Hospital Sírio-Libanês, São Paulo, Brazil.
  • Leticia Hernandes Brito
    Department of Radiation Oncology, Hospital Sírio-Libanês, São Paulo, Brazil.
  • Fernanda Hayashida Yoshimoto
    Department of Radiation Oncology, Hospital Sírio-Libanês, São Paulo, Brazil.
  • Nildevande Firmino Lima-Júnior
    Department of Oncology, Hospital Sírio-Libanês, São Paulo, Brazil.
  • Marcello Moro Queiroz
    Department of Oncology, Hospital Sírio-Libanês, São Paulo, Brazil.
  • Ula Lindoso Passos
    Department of Radiology, Hospital Sírio-Libanês, São Paulo, Brazil.
  • Camila Trolez Amancio
    Department of Radiology, Hospital Sírio-Libanês, São Paulo, Brazil.
  • Jorge Tomio Takahashi
    Department of Radiology, Hospital Sírio-Libanês, São Paulo, Brazil.
  • Daniel De Souza Delgado
    Department of Radiology, Hospital Sírio-Libanês, São Paulo, Brazil.
  • Samir Abdallah Hanna
    Department of Radiation Oncology, Hospital Sírio-Libanês, São Paulo, Brazil.
  • Gustavo Nader Marta
    Department of Radiation Oncology - Hospital Sírio-Libanês, Brazil; Department of Radiology and Oncology - Radiation Oncology, Instituto Do Câncer Do Estado de São Paulo (ICESP), Faculdade de Medicina da Universidade de São Paulo, Brazil.
  • Wellington Furtado Pimenta Neves-Junior
    Department of Radiation Oncology, Hospital Sírio-Libanês, São Paulo, Brazil.

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