Keyphrases
Alpha-synuclein (α-syn)
100%
Microfluidic chip
100%
Parkinson's Disease
91%
Functional Change
66%
α-synuclein Propagation
66%
Cortical Network Models
66%
Temporal Assessment
66%
Tripartite Network
66%
Neuronal Culture
66%
α-synuclein Aggregation
66%
Tripartite
66%
Chip Model
66%
Model Screening
66%
Human Pluripotent Stem Cells (hPSCs)
66%
Parkinson
66%
On chip
66%
Disease Progression
41%
Prion-like
41%
Neuronal Cells
33%
Neuronal Activity
33%
Neuronal Network Model
33%
Observed Effects
33%
Mitochondrial Motility
33%
Synaptic Proteins
33%
Integrated chip
33%
Calcium Oscillations
33%
Complex Interplay
33%
Oscillation Activity
33%
Engineered Networks
33%
In Vitro Propagation
33%
Functional Markers
33%
Induced Pluripotent Stem Cells (iPSCs)
33%
Stem Cell-derived
33%
Early-late
33%
Microelectrode Array
33%
Rodents
33%
Structural Change
33%
Temporal Analysis
33%
Human Cell Culture
33%
Axonal Transport
33%
In Vitro Model
33%
Technical Potential
33%
Pathological Markers
33%
Amyloid Fibrils
16%
Neuronal Network
16%
Synaptic
8%
Spontaneous Firing
8%
Misfolding
8%
Specificity Protein 1
8%
Synucleopathies
8%
Neuroscience
Parkinson's Disease
91%
In Vitro
75%
Alpha-Synuclein
66%
Synuclein
66%
In Vivo
41%
Prion Protein
41%
Mitochondrial Protein
33%
Stem Cell
33%
Calcium Signaling
33%
Neuronal Activity
33%
Axoplasmic Transport
33%
Cell Culture
33%
Amyloid Protein
16%
Protein
8%
Axon
8%
Monomer
8%
Biochemistry, Genetics and Molecular Biology
Alpha-Synuclein
66%
Nerve Cell Culture
66%
Synuclein
66%
Prion Protein
41%
Induced Pluripotent Stem Cell
33%
Mitochondrial Protein
33%
Calcium Signaling
33%
Rodent Cell
33%
Neuronal Activity
33%
Human Cell Culture
33%
Nerve Fiber Transport
33%
Microelectrode
33%
Amyloid Protein
16%
Axon
8%
In Vitro Study
8%