Human Pluripotent Stem Cell-Derived Neurons to Model Epilepsy

Keyphrases

• Seizure 100%
• Human Pluripotent Stem Cells (hPSCs) 100%
• Stem Cell-derived Neurons 100%
• Epilepsy 100%
• Seizure-like Activity 83%
• Kainic Acid 66%
• Neuronal Network 50%
• Stem Cell-derived 50%
• Interleukin-6 50%
• Functional Level 33%
• Microphysiological Platforms 33%
• Dravet Syndrome 33%
• On-a-chip 16%
• Patient-specific 16%
• Genetic Modification 16%
• Level Change 16%
• Active Role 16%
• Multi-connectivity 16%
• Neuronal Cells 16%
• Insults 16%
• Behavioral Activity 16%
• Network Level 16%
• Induced Pluripotent Stem Cells (iPSCs) 16%
• Patient-derived 16%
• Acid Activation 16%
• Functional Development 16%
• Physiologically Relevant 16%
• Metabolic Alterations 16%
• Neuronal Activity 16%
• Mimicry 16%
• Specific Receptor 16%
• Specific Difference 16%
• Inflammation 16%
• All Ages 16%
• Glutamate 16%
• Genotype-phenotype 16%
• Genotype-phenotype Correlation 16%
• Structural Alterations 16%
• Genetic Background 16%
• Neurological Disorders 16%
• Inducing Agents 16%
• Symptom Relief 16%
• Model in Vitro 16%
• Interconnected Networks 16%
• Human-based 16%
• Genetic Constructs 16%
• Seizure Models 16%
• Seizure Type 16%
• Clinical State 16%
• Focal Seizures 16%
• Pharmaceutical Research 16%
• Clinical Model 16%
• Antiseizure Medication 16%
• Interleukin-6 Receptor (IL-6R) 16%
• Immunological Changes 16%
• Inflammatory Mediators 16%
• Acid Induction 16%
• Following Response 16%
• GABAergic 16%
• Human-specific 16%
• Human Brain Connectivity 16%
• Epilepsy Research 16%
• Functional Behavior 16%

Neuroscience

• Stem Cell 100%
• Kainic Acid 80%
• Interleukin 6 60%
• Behavior (Neuroscience) 40%
• Dravet Syndrome 40%
• In Vitro 20%
• Neuronal Activity 20%
• Gamma-Aminobutyric Acid 20%
• Glutamic Acid 20%
• Gene Mutation 20%
• Nervous System Disorder 20%
• Seizure Types 20%
• Antiseizure Medication 20%
• Anti-Seizure Medication 20%
• Receptor 20%