Keyphrases
P2X7 Receptor (P2X7R)
100%
P2X7R Antagonist
89%
Structure-activity Relationship Studies
59%
Benzyl
59%
Nitrones
59%
Trifluoromethyl
52%
Amine Derivatives
39%
TMSCF3
39%
Neuropathic Pain
39%
Amines
38%
Hydroxylamine
38%
Nucleophilic Trifluoromethylation
29%
A438079
29%
Phenyltetrazole
29%
Osmylation
29%
Methylenebisphosphonic Acids
29%
CB 2
29%
CB2 Receptor
29%
1H-tetrazol-5-amine
29%
Perfluoroalkylation
29%
Pentafluoroethyl
29%
Osmium
29%
Heptyl
29%
High Yielding
29%
Carbohydrazide
29%
Thiophene
29%
Perfluoroalkyl
29%
In Vitro Activity
29%
Esters
29%
Sharpless Asymmetric Dihydroxylation
29%
Electronic Effect
29%
Pain Management
29%
Nucleophilic
29%
Carboxamide
29%
Solvolysis
29%
Receptor Agonist
29%
Amido
29%
Nociception
29%
Bicyclol
29%
High Enantioselectivity
29%
Teraryl
29%
Interleukin-1β
29%
Mechanical Allodynia
24%
Calcium Flux
24%
Phosphonic
20%
(Trifluoromethyl)trimethylsilane
19%
Rat Model
19%
Alcohol
17%
Alkenes
17%
Perfluoroalkyl Group
14%
Chemistry
Nitrone
59%
Hydroxyl
29%
Solvolysis
29%
Trifluoromethylation
29%
Osmylation
29%
Asymmetric Dihydroxylation
29%
Osmium
29%
Enantioselectivity
29%
Alkene
29%
1H-Tetrazole
29%
Silicon
29%
1H NMR Spectroscopy
29%
Fluorine
29%
Phosphorus-31 Magnetic Resonance Spectroscopy
29%
Ethyl
29%
Esterification
29%
Heptane
29%
electronics
29%
Double Bond
29%
Substituent Effect
22%
Methanol
20%
Ketones
20%
Chlorotrimethylsilane
14%
Sulfonate Ester
9%
Trifluoromethyl Group
9%
Cyclopropyl Group
9%
Hydrogen
9%
Sulfonate
9%
Hydroxylamine
8%
Aryl Group
8%
Reduction Potential
7%
Linear Free Energy Relationship
7%
Electronic Property
7%
Quinuclidine
7%
Equilibrium Constant
7%
Pharmacology, Toxicology and Pharmaceutical Science
Structure Activity Relationship
74%
Receptor
44%
Pentetrazole
29%
Receptor Agonist
29%
Thiophene
29%
Nitrone
29%
Mechanical Allodynia
29%
Neuropathic Pain
29%
Carboxamide
29%
Hydroxylamine
29%
Purinergic P2X7 Receptor
29%
Functional Groups
14%
Efficacy Study
14%
Tetrazole Derivative
14%
Trimethylsilyl Derivative
14%
Chlorotrimethylsilane
14%
Zymosan-Induced Peritonitis
14%
Absorption Distribution Metabolism Excretion
14%
Radioligand
14%
Receptor Antagonist
14%
Rat Model
14%
Double Bond
14%
Cytokine
14%
Hydrazide
14%
Pharmacokinetics
14%