Physical exercise improves synaptic dysfunction and recovers the loss of survival factors in 3xTg-AD mouse brain

Keyphrases

• Synaptic Dysfunction 100%
• Physical Exercise 100%
• Mouse Brain 100%
• 3xTg-AD Mice 100%
• Survival Factor 100%
• Beneficial Effects 33%
• Synaptic Plasticity 33%
• N-methyl-D-aspartate Receptor (NMDAR) 33%
• Voluntary Exercise 33%
• Synaptic Proteins 16%
• Neurodegeneration 16%
• Alzheimer's Disease 16%
• Molecular Mechanism 16%
• Cerebral Cortex 16%
• Grant-free Access 16%
• Sirtuin 1 (SIRT1) 16%
• Neuroprotective 16%
• Expression Level 16%
• Reduced Expression 16%
• Exercise Effect 16%
• Startle Response 16%
• Postsynaptic Density Protein 95 (PSD-95) 16%
• Cognitive Deterioration 16%
• Synaptophysin 16%
• Paired-pulse Stimulation 16%
• Exercise Therapy 16%
• Binding Parameters 16%
• MK-801 16%
• Running Wheel 16%
• NR2B Subunit 16%
• Flunitrazepam 16%
• Synaptic Response 16%
• GABAA Receptor (GABAAR) 16%

Neuroscience

• Synaptic Plasticity 100%
• Mouse Brain 100%
• Neuroprotective Agent 50%
• Glial Cell Line-Derived Neurotrophic Factor 50%
• Cerebral Cortex 50%
• Alzheimer's Disease 50%
• Neurodegeneration 50%
• Startle Response 50%
• NMDA Receptor 50%
• GABAA Receptor 50%
• Synaptophysin 50%
• Mental Deterioration 50%
• N Methyl Dextro Aspartic Acid Receptor 2B 50%
• Flunitrazepam 50%
• Postsynaptic Density Protein 95 50%

Pharmacology, Toxicology and Pharmaceutical Science

• 3XTg Mouse 100%
• Survival Factor 100%
• Mouse Model 25%
• Flunitrazepam 25%
• Nerve Degeneration 25%
• Alzheimer's Disease 25%
• Neuroprotective Agent 25%
• N Methyl Dextro Aspartic Acid Receptor 25%
• Receptor 25%
• Synaptophysin 25%
• Glial Cell Line Derived Neurotrophic Factor 25%
• N Methyl Dextro Aspartic Acid Receptor 2B 25%
• Mental Deterioration 25%