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Related Experiment Video

Updated: Jan 12, 2026

Quantifying the Brain Metastatic Tumor Micro-Environment using an Organ-On-A Chip 3D Model, Machine Learning, and Confocal Tomography
09:53

Quantifying the Brain Metastatic Tumor Micro-Environment using an Organ-On-A Chip 3D Model, Machine Learning, and Confocal Tomography

Published on: August 16, 2020

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An explainable modified convolutional mixer neural network-based deep learning framework for accurate brain tumor

S Selva Birunda1, M Kaliappan1, R Ramana1

  • 1Department of Artificial Intelligence and Data Science, Ramco Institute of Technology, Rajapalayam, India.

Neurological Research
|October 31, 2025
PubMed
Summary
This summary is machine-generated.

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This study introduces an Explainable Modified Convolutional Mixer Neural Network (EM-ConvMixer+Net) for efficient and accurate brain tumor detection and classification using MRI images. The novel model achieves high accuracy, offering a reliable tool for clinical diagnosis.

Area of Science:

  • Medical Imaging
  • Artificial Intelligence
  • Computational Neuroscience

Background:

  • Brain tumors (BTs) present a significant health challenge due to their complexity and associated low survival rates.
  • Traditional diagnostic models are often computationally intensive and require prolonged training periods, hindering timely clinical application.
  • There is a need for advanced, efficient, and interpretable AI models for brain tumor analysis.

Purpose of the Study:

  • To develop and validate a novel Explainable Modified Convolutional Mixer Neural Network (EM-ConvMixer+Net) for brain tumor detection and classification.
  • To improve the computational efficiency and interpretability of AI models in neuro-oncology.
  • To enhance the accuracy and reliability of automated brain tumor diagnosis from MRI data.

Main Methods:

Keywords:
Brain tumor detectioncross attention networkexternal attention networkgradient-weighted class activation mappingmodified artificial neural networksegmentation and region growing

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  • Utilized a dataset of 10,087 MRI images from two public sources, employing preprocessing techniques like denoising and augmentation.
  • Implemented tumor segmentation via the Adopted Region Growing method, followed by feature enhancement using a convolutional operations mixer block (ConvMixer+).
  • Employed Cross Attention Network (CANet) and External Attention Network (EANet) for feature fusion and refinement, with classification performed by a Modified Artificial Neural Network (M-ANN) and explainability via Grad-CAM.

Main Results:

  • The EM-ConvMixer+Net model achieved a high accuracy of 98.86% and an F1-score of 98.44% in experimental validation.
  • Comparative and ablation studies confirmed the model's effectiveness and robustness.
  • The Gradient-weighted Class Activation Mapping (Grad-CAM) provided visual explanations, enhancing model interpretability.

Conclusions:

  • The proposed EM-ConvMixer+Net framework offers a computationally efficient and interpretable solution for brain tumor diagnosis.
  • This technique demonstrates significant potential for advancing clinical decision-making in neuro-oncology.
  • The model's high performance and explainability pave the way for more reliable AI-assisted medical diagnostics.