Enhanced Regional Clustering Algorithm in Seizure Location Identification

Innovations in Information and Communication Technology Series Pub Date : 2020-12-30 DOI:10.46532/978-81-950008-1-4_099

A. AllwynGnanadas, S. Babu, Prince Kumar

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Abstract

Epilepsy is a chronic condition that is characterized by frequent occurrence of seizure. The treatment of epilepsy using anticonvulsants that suppress the rapid neuron spikes in brain is promising; however, a permanent fix is always lacked. The region on brain that is responsible for seizure if identified exactly, the diseased area can be expelled and that could be a permanent fix. Generally, IEEG (Intracranial Electroencephalogram) an invasive procedure is adopted to diagnose the location of seizure, though the results are very reliable and considered as a golden standard, the procedure is a complex and risky one. To overcome these difficulties, fMRI (Functional magnetic resonance imaging) is used to read the internal anatomical and metabolic nature of brain, an algorithm (erKNOTS, enhanced regional K based Numbering Out of Time Slices) that analyse each individual voxel is developed and implemented. The result obtained by the developed algorithm is found to be in agreement with those obtained through IEEG. The findings were further validated with Regional homogeneity and Functional connectivity.

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基于区域聚类算法的癫痫发作位置识别

癫痫是一种以频繁发作为特征的慢性疾病。使用抗惊厥药抑制大脑中快速神经元尖峰的治疗癫痫是有希望的;然而，一个永久的解决方案总是缺乏的。大脑中负责癫痫发作的区域如果准确地识别出来，患病区域就可以被排出，这可能是一个永久性的解决方案。通常采用侵入性方法IEEG (Intracranial Electroencephalogram，颅内脑电图)来诊断癫痫发作的位置，虽然结果非常可靠，被认为是金标准，但该方法复杂且有风险。为了克服这些困难，fMRI(功能性磁共振成像)被用来读取大脑的内部解剖和代谢性质，一种算法(erKNOTS，增强的基于区域K的时间片编号)被开发和实施，分析每个个体素。该算法的计算结果与IEEG的计算结果吻合较好。区域同质性和功能连通性进一步验证了研究结果。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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Innovations in Information and Communication Technology Series

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