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2021 (3)

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Book
Neuroprotection: Rescue from Neuronal Death in the Brain
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Year: 2021 Publisher: Basel, Switzerland MDPI - Multidisciplinary Digital Publishing Institute

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Abstract

Dear Colleagues, The brain is vulnerable to injury. Following injury in the brain, apoptosis or necrosis may occur easily, leading to various functional disabilities. Neuronal death is associated with a number of neurological disorders including hypoxic ischemia, epileptic seizures, and neurodegenerative diseases. The brain subjected to injury is regarded to be responsible for the alterations in neurotransmission processes, resulting in functional changes. Oxidative stress produced by reactive oxygen species has been shown to be related to the death of neurons in traumatic injury, stroke, and neurodegenerative diseases. Therefore, scavenging or decreasing free radicals may be crucial for preventing neural tissues from harmful adversities in the brain. Neurotrophic factors, bioactive compounds, dietary nutrients, or cell engineering may ameliorate the pathological processes related to neuronal death or neurodegeneration and appear beneficial for improving neuroprotection. As a result of neuronal death or neuroprotection, the brain undergoes activity-dependent long-lasting changes in synaptic transmission, which is also known as functional plasticity. Neuroprotection implying the rescue from neuronal death is now becoming one of global health concerns. This Special Issue attempts to explore the recent advances in neuroprotection related to the brain. This Special Issue welcomes original research or review papers demonstrating the mechanisms of neuroprotection against brain injury using in vivo or in vitro models of animals as well as in clinical settings. The issues in a paper should be supported by sufficient data or evidence. Prof. Bae Hwan Lee Guest Editor

Keywords

Research & information: general --- global cerebral ischemia --- amiloride --- sodium-hydrogen exchanger-1 --- zinc --- neuronal death --- neuroprotection --- neurodegenerative disorder --- choline acetyltransferase (ChAT) --- trimethyltin (TMT) --- bean phosphatidylserine (Bean-PS) --- brain-derived neurotrophic factor --- moderate hypoxia --- physical exercise --- psychomotor function --- reaction time --- cortisol --- catecholamines --- nitrite --- endotheline-1 --- lactate --- pyridoxine deficiency --- ischemia --- gerbil --- homocysteine --- cell death --- glia --- neurogenesis --- N-acetyl-l-cysteine --- transient receptor potential melastatin 2 --- neurodegeneration --- Alzheimer's disease --- metabolic disease --- adiponectin --- insulin --- antioxidants --- stroke --- preventive gene therapy --- adenoviral vector --- VEGF --- GDNF --- NCAM --- human umbilical cord blood mononuclear cells --- antioxidant --- brain --- neurodegenerative disease --- oxidative stress --- PGC-1α --- vascular endothelial growth factor --- vascular endothelial growth factor receptor 2 --- PI3K/AKT --- MEK/ERK --- status epilepticus --- hippocampus --- middle cerebral artery occlusion --- reperfusion injury --- lipid emulsion --- excitotoxicity --- apoptosis --- GPR4 receptor --- MPP+ --- Parkinson's disease --- CRISPR/cas9 --- ischemic stroke --- blood brain barrier --- nanoparticle-based drug delivery --- brain targeting --- BDNF --- miRNAs --- synaptic plasticity --- depression --- glioblastoma --- astrocytes --- astrocytic networks --- connexin 43 --- calcium activity --- neural injury --- nimodipine --- subarachnoid haemorrhage --- acid-sensing ion channels --- oxygen-glucose deprivation --- liver growth factor --- inflammation --- microglia --- Tg2576 transgenic mice --- amyloid-beta --- oculomotor system --- trophic factors --- motoneurons --- axotomy --- amyotrophic lateral sclerosis --- electroneutral transport --- cation-chloride cotransporters --- KCCs --- NKCCs --- WNK-SPAK/OSR1 --- ascorbic acid --- aging --- organotypic hippocampal slice culture --- global cerebral ischemia --- amiloride --- sodium-hydrogen exchanger-1 --- zinc --- neuronal death --- neuroprotection --- neurodegenerative disorder --- choline acetyltransferase (ChAT) --- trimethyltin (TMT) --- bean phosphatidylserine (Bean-PS) --- brain-derived neurotrophic factor --- moderate hypoxia --- physical exercise --- psychomotor function --- reaction time --- cortisol --- catecholamines --- nitrite --- endotheline-1 --- lactate --- pyridoxine deficiency --- ischemia --- gerbil --- homocysteine --- cell death --- glia --- neurogenesis --- N-acetyl-l-cysteine --- transient receptor potential melastatin 2 --- neurodegeneration --- Alzheimer's disease --- metabolic disease --- adiponectin --- insulin --- antioxidants --- stroke --- preventive gene therapy --- adenoviral vector --- VEGF --- GDNF --- NCAM --- human umbilical cord blood mononuclear cells --- antioxidant --- brain --- neurodegenerative disease --- oxidative stress --- PGC-1α --- vascular endothelial growth factor --- vascular endothelial growth factor receptor 2 --- PI3K/AKT --- MEK/ERK --- status epilepticus --- hippocampus --- middle cerebral artery occlusion --- reperfusion injury --- lipid emulsion --- excitotoxicity --- apoptosis --- GPR4 receptor --- MPP+ --- Parkinson's disease --- CRISPR/cas9 --- ischemic stroke --- blood brain barrier --- nanoparticle-based drug delivery --- brain targeting --- BDNF --- miRNAs --- synaptic plasticity --- depression --- glioblastoma --- astrocytes --- astrocytic networks --- connexin 43 --- calcium activity --- neural injury --- nimodipine --- subarachnoid haemorrhage --- acid-sensing ion channels --- oxygen-glucose deprivation --- liver growth factor --- inflammation --- microglia --- Tg2576 transgenic mice --- amyloid-beta --- oculomotor system --- trophic factors --- motoneurons --- axotomy --- amyotrophic lateral sclerosis --- electroneutral transport --- cation-chloride cotransporters --- KCCs --- NKCCs --- WNK-SPAK/OSR1 --- ascorbic acid --- aging --- organotypic hippocampal slice culture


Book
Neuroprotection: Rescue from Neuronal Death in the Brain
Author:
Year: 2021 Publisher: Basel, Switzerland MDPI - Multidisciplinary Digital Publishing Institute

Loading...
Export citation

Choose an application

Bookmark

Abstract

Dear Colleagues, The brain is vulnerable to injury. Following injury in the brain, apoptosis or necrosis may occur easily, leading to various functional disabilities. Neuronal death is associated with a number of neurological disorders including hypoxic ischemia, epileptic seizures, and neurodegenerative diseases. The brain subjected to injury is regarded to be responsible for the alterations in neurotransmission processes, resulting in functional changes. Oxidative stress produced by reactive oxygen species has been shown to be related to the death of neurons in traumatic injury, stroke, and neurodegenerative diseases. Therefore, scavenging or decreasing free radicals may be crucial for preventing neural tissues from harmful adversities in the brain. Neurotrophic factors, bioactive compounds, dietary nutrients, or cell engineering may ameliorate the pathological processes related to neuronal death or neurodegeneration and appear beneficial for improving neuroprotection. As a result of neuronal death or neuroprotection, the brain undergoes activity-dependent long-lasting changes in synaptic transmission, which is also known as functional plasticity. Neuroprotection implying the rescue from neuronal death is now becoming one of global health concerns. This Special Issue attempts to explore the recent advances in neuroprotection related to the brain. This Special Issue welcomes original research or review papers demonstrating the mechanisms of neuroprotection against brain injury using in vivo or in vitro models of animals as well as in clinical settings. The issues in a paper should be supported by sufficient data or evidence. Prof. Bae Hwan Lee Guest Editor

Keywords

Research & information: general --- global cerebral ischemia --- amiloride --- sodium–hydrogen exchanger-1 --- zinc --- neuronal death --- neuroprotection --- neurodegenerative disorder --- choline acetyltransferase (ChAT) --- trimethyltin (TMT) --- bean phosphatidylserine (Bean-PS) --- brain-derived neurotrophic factor --- moderate hypoxia --- physical exercise --- psychomotor function --- reaction time --- cortisol --- catecholamines --- nitrite --- endotheline-1 --- lactate --- pyridoxine deficiency --- ischemia --- gerbil --- homocysteine --- cell death --- glia --- neurogenesis --- N-acetyl-l-cysteine --- transient receptor potential melastatin 2 --- neurodegeneration --- Alzheimer’s disease --- metabolic disease --- adiponectin --- insulin --- antioxidants --- stroke --- preventive gene therapy --- adenoviral vector --- VEGF --- GDNF --- NCAM --- human umbilical cord blood mononuclear cells --- antioxidant --- brain --- neurodegenerative disease --- oxidative stress --- PGC-1α --- vascular endothelial growth factor --- vascular endothelial growth factor receptor 2 --- PI3K/AKT --- MEK/ERK --- status epilepticus --- hippocampus --- middle cerebral artery occlusion --- reperfusion injury --- lipid emulsion --- excitotoxicity --- apoptosis --- GPR4 receptor --- MPP+ --- Parkinson’s disease --- CRISPR/cas9 --- ischemic stroke --- blood brain barrier --- nanoparticle-based drug delivery --- brain targeting --- BDNF --- miRNAs --- synaptic plasticity --- depression --- glioblastoma --- astrocytes --- astrocytic networks --- connexin 43 --- calcium activity --- neural injury --- nimodipine --- subarachnoid haemorrhage --- acid-sensing ion channels --- oxygen-glucose deprivation --- liver growth factor --- inflammation --- microglia --- Tg2576 transgenic mice --- amyloid-beta --- oculomotor system --- trophic factors --- motoneurons --- axotomy --- amyotrophic lateral sclerosis --- electroneutral transport --- cation-chloride cotransporters --- KCCs --- NKCCs --- WNK-SPAK/OSR1 --- ascorbic acid --- aging --- organotypic hippocampal slice culture --- n/a --- sodium-hydrogen exchanger-1 --- Alzheimer's disease --- Parkinson's disease


Book
Neuroprotection: Rescue from Neuronal Death in the Brain
Author:
Year: 2021 Publisher: Basel, Switzerland MDPI - Multidisciplinary Digital Publishing Institute

Loading...
Export citation

Choose an application

Bookmark

Abstract

Dear Colleagues, The brain is vulnerable to injury. Following injury in the brain, apoptosis or necrosis may occur easily, leading to various functional disabilities. Neuronal death is associated with a number of neurological disorders including hypoxic ischemia, epileptic seizures, and neurodegenerative diseases. The brain subjected to injury is regarded to be responsible for the alterations in neurotransmission processes, resulting in functional changes. Oxidative stress produced by reactive oxygen species has been shown to be related to the death of neurons in traumatic injury, stroke, and neurodegenerative diseases. Therefore, scavenging or decreasing free radicals may be crucial for preventing neural tissues from harmful adversities in the brain. Neurotrophic factors, bioactive compounds, dietary nutrients, or cell engineering may ameliorate the pathological processes related to neuronal death or neurodegeneration and appear beneficial for improving neuroprotection. As a result of neuronal death or neuroprotection, the brain undergoes activity-dependent long-lasting changes in synaptic transmission, which is also known as functional plasticity. Neuroprotection implying the rescue from neuronal death is now becoming one of global health concerns. This Special Issue attempts to explore the recent advances in neuroprotection related to the brain. This Special Issue welcomes original research or review papers demonstrating the mechanisms of neuroprotection against brain injury using in vivo or in vitro models of animals as well as in clinical settings. The issues in a paper should be supported by sufficient data or evidence. Prof. Bae Hwan Lee Guest Editor

Keywords

global cerebral ischemia --- amiloride --- sodium–hydrogen exchanger-1 --- zinc --- neuronal death --- neuroprotection --- neurodegenerative disorder --- choline acetyltransferase (ChAT) --- trimethyltin (TMT) --- bean phosphatidylserine (Bean-PS) --- brain-derived neurotrophic factor --- moderate hypoxia --- physical exercise --- psychomotor function --- reaction time --- cortisol --- catecholamines --- nitrite --- endotheline-1 --- lactate --- pyridoxine deficiency --- ischemia --- gerbil --- homocysteine --- cell death --- glia --- neurogenesis --- N-acetyl-l-cysteine --- transient receptor potential melastatin 2 --- neurodegeneration --- Alzheimer’s disease --- metabolic disease --- adiponectin --- insulin --- antioxidants --- stroke --- preventive gene therapy --- adenoviral vector --- VEGF --- GDNF --- NCAM --- human umbilical cord blood mononuclear cells --- antioxidant --- brain --- neurodegenerative disease --- oxidative stress --- PGC-1α --- vascular endothelial growth factor --- vascular endothelial growth factor receptor 2 --- PI3K/AKT --- MEK/ERK --- status epilepticus --- hippocampus --- middle cerebral artery occlusion --- reperfusion injury --- lipid emulsion --- excitotoxicity --- apoptosis --- GPR4 receptor --- MPP+ --- Parkinson’s disease --- CRISPR/cas9 --- ischemic stroke --- blood brain barrier --- nanoparticle-based drug delivery --- brain targeting --- BDNF --- miRNAs --- synaptic plasticity --- depression --- glioblastoma --- astrocytes --- astrocytic networks --- connexin 43 --- calcium activity --- neural injury --- nimodipine --- subarachnoid haemorrhage --- acid-sensing ion channels --- oxygen-glucose deprivation --- liver growth factor --- inflammation --- microglia --- Tg2576 transgenic mice --- amyloid-beta --- oculomotor system --- trophic factors --- motoneurons --- axotomy --- amyotrophic lateral sclerosis --- electroneutral transport --- cation-chloride cotransporters --- KCCs --- NKCCs --- WNK-SPAK/OSR1 --- ascorbic acid --- aging --- organotypic hippocampal slice culture --- n/a --- sodium-hydrogen exchanger-1 --- Alzheimer's disease --- Parkinson's disease

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