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Language and Memory Network Alterations in Temporal Lobe Epilepsy: A Functional and Structural Connectivity Study.

Alireza Fallahi1, Mohammad-Reza Nazem-Zadeh2,3, Narges Hosseini-Tabatabaei4

  • 1From the Biomedical Engineering Department (A.F.), Hamedan University of Technology, Hamedan, Iran.

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Summary

This study reveals altered brain connectivity in Temporal Lobe Epilepsy (TLE) patients, showing functional hyperconnectivity before surgery and hypoconnectivity after. Machine learning accurately identified TLE lateralization using these connectivity patterns.

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Area of Science:

  • Neuroscience
  • Medical Imaging
  • Computational Neuroscience

Background:

  • Temporal Lobe Epilepsy (TLE) involves complex alterations in brain networks.
  • Understanding the language-memory network (LMN) in TLE is crucial for diagnosis and treatment.
  • Preoperative and postoperative network changes in TLE require detailed investigation.

Purpose of the Study:

  • To evaluate preoperative and postoperative changes in the LMN's functional and structural connectivity in TLE.
  • To utilize graph theory and machine learning for automatic TLE lateralization.
  • To explore the relationship between brain connectivity and cognitive function in TLE patients.

Main Methods:

  • Resting-state fMRI and Diffusion Tensor Imaging (DTI) data from 35 TLE patients and 20 healthy controls (HCs).
  • Calculation of functional and structural connectivity within the LMN pre- and post-surgery.
  • Application of graph theory, feature selection, and machine learning algorithms (SVM, Naive Bayes, logistic regression) for classification and lateralization.

Main Results:

  • TLE patients exhibited increased functional and decreased structural connectivity pre-surgery, reversing post-surgery.
  • Machine learning models, particularly SVM with genetic algorithms, achieved high accuracy (up to 97%) in classifying TLE subtypes (LTLE vs. RTLE) and distinguishing TLE from HC.
  • Key altered regions included the parahippocampal gyrus (LTLE) and temporal regions (RTLE); structural changes originated from bilateral occipital and left language areas.
  • Significant correlations were found between connectivity features and memory-related cognitive scores.

Conclusions:

  • TLE is characterized by dynamic functional and structural connectivity alterations within the LMN, with distinct pre- and post-surgical patterns.
  • Machine learning approaches show significant potential for objective TLE diagnosis and lateralization.
  • The study highlights the utility of advanced neuroimaging and computational methods in understanding TLE pathophysiology.