The piriform, perirhinal, and entorhinal cortex in seizure generation

Understanding neural network behavior is essential to shed light on epileptogenesis and seizure propagation. The interconnectivity and plasticity of the limbic and cortical regions of the mammalian brain provide the substrate for the hypersynchrony and hyperexcitability associated with epilepsy and...
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Gespeichert in:

Autor*in:	Marta S Vismer [verfasserIn] Patrick A Forcelli [verfasserIn] Mark D Skopin [verfasserIn] Karen eGale [verfasserIn] Mohamad Z Koubeissi [verfasserIn]

Format:	E-Artikel
Sprache:	Englisch

Erschienen:	2015

Schlagwörter:	Entorhinal Cortex Epileptogenesis perirhinal cortex piriform cortex Temporal Lobe Epilepsy area tempestas

Übergeordnetes Werk:	In: Frontiers in Neural Circuits - Frontiers Media S.A., 2008, 9(2015)
Übergeordnetes Werk:	volume:9 ; year:2015

Links:	Link aufrufen Link aufrufen Link aufrufen Journal toc

DOI / URN:	10.3389/fncir.2015.00027

Katalog-ID:	DOAJ002914727

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language	English
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topic_facet	Entorhinal Cortex Epileptogenesis perirhinal cortex piriform cortex Temporal Lobe Epilepsy area tempestas Neurosciences. Biological psychiatry. Neuropsychiatry
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callnumber-first	R - Medicine
author	Marta S Vismer
spellingShingle	Marta S Vismer misc RC321-571 misc Entorhinal Cortex misc Epileptogenesis misc perirhinal cortex misc piriform cortex misc Temporal Lobe Epilepsy misc area tempestas misc Neurosciences. Biological psychiatry. Neuropsychiatry The piriform, perirhinal, and entorhinal cortex in seizure generation
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topic_title	RC321-571 The piriform, perirhinal, and entorhinal cortex in seizure generation Entorhinal Cortex Epileptogenesis perirhinal cortex piriform cortex Temporal Lobe Epilepsy area tempestas
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title	The piriform, perirhinal, and entorhinal cortex in seizure generation
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title_full	The piriform, perirhinal, and entorhinal cortex in seizure generation
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title_sort	piriform, perirhinal, and entorhinal cortex in seizure generation
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title_auth	The piriform, perirhinal, and entorhinal cortex in seizure generation
abstract	Understanding neural network behavior is essential to shed light on epileptogenesis and seizure propagation. The interconnectivity and plasticity of the limbic and cortical regions of the mammalian brain provide the substrate for the hypersynchrony and hyperexcitability associated with epilepsy and seizure activity. Recurrent unprovoked seizures are the hallmark of epilepsy, and limbic epilepsy is the most common type of medically-intractable focal epilepsy in adolescents and adults that necessitates surgical evaluation. In this review, we describe the role and relationships among the piriform (PIRC), perirhinal (PRC), and entorhinal cortex (ERC) in seizure-generation and epilepsy. The inherent function, anatomy, and histological composition of these cortical regions are discussed. In addition, the neurotransmitters, intrinsic and extrinsic connections, and the interaction of these regions are described. Furthermore, we provide evidence based on clinical research and animal models that suggest that these cortical regions may act as key seizure-trigger zones and, even, epileptogenesis.
abstractGer	Understanding neural network behavior is essential to shed light on epileptogenesis and seizure propagation. The interconnectivity and plasticity of the limbic and cortical regions of the mammalian brain provide the substrate for the hypersynchrony and hyperexcitability associated with epilepsy and seizure activity. Recurrent unprovoked seizures are the hallmark of epilepsy, and limbic epilepsy is the most common type of medically-intractable focal epilepsy in adolescents and adults that necessitates surgical evaluation. In this review, we describe the role and relationships among the piriform (PIRC), perirhinal (PRC), and entorhinal cortex (ERC) in seizure-generation and epilepsy. The inherent function, anatomy, and histological composition of these cortical regions are discussed. In addition, the neurotransmitters, intrinsic and extrinsic connections, and the interaction of these regions are described. Furthermore, we provide evidence based on clinical research and animal models that suggest that these cortical regions may act as key seizure-trigger zones and, even, epileptogenesis.
abstract_unstemmed	Understanding neural network behavior is essential to shed light on epileptogenesis and seizure propagation. The interconnectivity and plasticity of the limbic and cortical regions of the mammalian brain provide the substrate for the hypersynchrony and hyperexcitability associated with epilepsy and seizure activity. Recurrent unprovoked seizures are the hallmark of epilepsy, and limbic epilepsy is the most common type of medically-intractable focal epilepsy in adolescents and adults that necessitates surgical evaluation. In this review, we describe the role and relationships among the piriform (PIRC), perirhinal (PRC), and entorhinal cortex (ERC) in seizure-generation and epilepsy. The inherent function, anatomy, and histological composition of these cortical regions are discussed. In addition, the neurotransmitters, intrinsic and extrinsic connections, and the interaction of these regions are described. Furthermore, we provide evidence based on clinical research and animal models that suggest that these cortical regions may act as key seizure-trigger zones and, even, epileptogenesis.
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title_short	The piriform, perirhinal, and entorhinal cortex in seizure generation
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The piriform, perirhinal, and entorhinal cortex in seizure generation

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