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A CT-based machine learning model for using clinical-radiomics to predict malignant cerebral edema after stroke: a two-center study

Lingfeng Zhang, Gang Xie, Yue Zhang, Junlin Li, Wuli Tang, Ling Yang, Kang Li

2024Frontiers in Neuroscience11 citationsDOIOpen Access PDF

Abstract

Purpose: This research aimed to create a machine learning model for clinical-radiomics that utilizes unenhanced computed tomography images to assess the likelihood of malignant cerebral edema (MCE) in individuals suffering from acute ischemic stroke (AIS). Methods: = 36) sets with an 8:2 ratio. Using 3DSlicer software, the radiomics features of regions impacted by infarction were derived from unenhanced CT scans. The radiomics features linked to MCE were pinpointed through a consistency test, Student's t test and the least absolute shrinkage and selection operator (LASSO) method for selecting features. Clinical parameters associated with MCE were also identified. Subsequently, machine learning models were constructed based on clinical, radiomics, and clinical-radiomics. Ultimately, the efficacy of these models was evaluated by measuring the operating characteristics of the subjects through their area under the curve (AUCs). Results: Logistic regression (LR) was found to be the most effective machine learning algorithm, for forecasting the MCE. In the training and validation cohorts, the AUCs of clinical model were 0.836 and 0.773, respectively, for differentiating MCE patients; the AUCs of radiomics model were 0.849 and 0.818, respectively; the AUCs of clinical and radiomics model were 0.912 and 0.916, respectively. Conclusion: This model can assist in predicting MCE after acute ischemic stroke and can provide guidance for clinical treatment and prognostic assessment.

Topics & Concepts

RadiomicsStroke (engine)MedicineCerebral edemaEdemaBrain edemaMachine learningArtificial intelligenceRadiologyComputer sciencePathologySurgeryEngineeringMechanical engineeringAcute Ischemic Stroke ManagementRadiomics and Machine Learning in Medical ImagingArtificial Intelligence in Healthcare and Education