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A role for sigma receptors in stimulant self-administration and addiction
Jonathan L. Katz
, Weimin C. Hong
,
Takato Hiranita
, Tsung Ping Su
Research output
:
Contribution to journal
›
Review article
›
peer-review
33
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Scopus citations
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Medicine and Dentistry
Analeptic
100%
Antagonist
88%
Self-Administration
66%
Dopamine Agonist
22%
Dopamine Reuptake Inhibitor
22%
Abuse
22%
Dopamine
11%
Receptor
11%
Protein
11%
Reinforcement
11%
Lipid
11%
Mitochondrion
11%
Brain Region
11%
Dopamine Transporter
11%
Ion Channel
11%
Cell Protein
11%
G Protein Coupled Receptor
11%
Addictive Behavior
11%
Chaperone
11%
Conditioning
11%
Combination Chemotherapy
11%
Drug
11%
Chemotherapeutic Agent
11%
Host
11%
Thinking
11%
Signaling Protein
11%
Nucleus Accumbens Shell
11%
Drug Binding
11%
Membrane
11%
Sigma Receptor
11%
Sigma 1 Opiate Receptor
11%
Pharmacology, Toxicology and Pharmaceutical Science
Stimulant
100%
Agonist
88%
Dopamine Receptor Stimulating Agent
22%
G Protein Coupled Receptor
22%
Dopamine
11%
Receptor
11%
Protein
11%
Dopamine Reuptake Inhibitor
11%
Chaperone
11%
Cell Protein
11%
Lipid
11%
Dopamine Transporter
11%
Drug
11%
Ion Channel
11%
Addiction
11%
Host
11%
Sigma 1 Opiate Receptor
11%
Neuroscience
Agonist
44%
Dopaminergic
22%
Protein
22%
Eicosanoid Receptor
11%
Dopamine
11%
Lipid
11%
Mitochondrion
11%
Dopamine Transporter
11%
Chemotherapy
11%
Ion Channel
11%
Cell Protein
11%
Chaperone
11%
Nucleus Accumbens Shell
11%
Sigma 1 Opiate Receptor
11%
Addiction
11%
Brain
11%
Drug Binding
11%
Sigma Receptor
11%