Keyphrases
Adenosine Receptor Antagonists
100%
Caffeine Derivatives
100%
Adenosine Receptors
100%
A2A Receptor
100%
Novel Therapeutics
50%
Adenosine
50%
High Density
50%
Endogenous Ligand
50%
G Protein-coupled Receptor
50%
High Affinity
50%
Olfactory Tubercle
50%
Neurodegenerative Diseases
50%
Purinergic
50%
Analgesic Drugs
50%
Nucleus Accumbens
50%
Parkinson
50%
Adenosine A2A Receptor (A2AR)
50%
Cognition Enhancer
50%
Brain Regions
50%
Adenosine A2A Receptor Antagonist
50%
Striatum
50%
Physicochemical Methods
50%
High Selectivity
50%
Neuroprotective
50%
Xanthine Derivatives
50%
Pharmacokinetic Properties
50%
Anti-depression
50%
Alzheimer
50%
Neuroscience
Caffeine Derivative
100%
Adenosine Receptor
100%
Receptor Antagonist
100%
Adenosine A2A Receptor
66%
Nucleus Accumbens
33%
Xanthine
33%
Striatum
33%
Olfactory Tubercle
33%
Enhancer Region
33%
Neurodegenerative Disorder
33%
Neuroprotective Agent
33%
Pharmacokinetics
33%
Adenosine
33%
G Protein Coupled Receptor
33%
INIS
caffeine
100%
synthesis
100%
adenosine
100%
receptors
100%
design
100%
diseases
25%
brain
12%
affinity
12%
xanthines
12%
analgesics
12%
ligands
12%
density
12%
nuclei
12%
nervous system diseases
12%
range
12%
g-proteins
12%
drugs
12%