Compounds > dextroamphetamine
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dextroamphetamine and tamoxifen

dextroamphetamine has been researched along with tamoxifen in 7 studies

Research

Studies (7)

TimeframeStudies, this research(%)All Research%
pre-19900 (0.00)18.7374
1990's0 (0.00)18.2507
2000's0 (0.00)29.6817
2010's7 (100.00)24.3611
2020's0 (0.00)2.80

Authors

AuthorsStudies
Barnes, JC; Bradley, P; Day, NC; Fourches, D; Reed, JZ; Tropsha, A1
Bellman, K; Knegtel, RM; Settimo, L1
Chen, M; Hu, C; Suzuki, A; Thakkar, S; Tong, W; Yu, K1
Benedet, J; Kapczinski, F; Moretti, M; Quevedo, J; Rochi, N; Scaini, G; Steckert, AV; Streck, EL; Valvassori, SS; Zugno, AI1
Dal-Pizzol, F; Kapczinski, F; Lopes-Borges, J; Mina, F; Quevedo, J; Steckert, AV; Valvassori, SS; Varela, RB1
Arent, CO; Cechinel-Recco, K; de Souza, CT; Luz, G; Quevedo, J; Resende, WR; Valvassori, SS; Varela, RB; Vitto, MF1
Andreatini, R; Brenes, JC; Pereira, M; Schwarting, RK1

Reviews

1 review(s) available for dextroamphetamine and tamoxifen

ArticleYear
DILIrank: the largest reference drug list ranked by the risk for developing drug-induced liver injury in humans.
    Drug discovery today, 2016, Volume: 21, Issue:4

    Topics: Chemical and Drug Induced Liver Injury; Databases, Factual; Drug Labeling; Humans; Pharmaceutical Preparations; Risk

2016

Other Studies

6 other study(ies) available for dextroamphetamine and tamoxifen

ArticleYear
Cheminformatics analysis of assertions mined from literature that describe drug-induced liver injury in different species.
    Chemical research in toxicology, 2010, Volume: 23, Issue:1

    Topics: Animals; Chemical and Drug Induced Liver Injury; Cluster Analysis; Databases, Factual; Humans; MEDLINE; Mice; Models, Chemical; Molecular Conformation; Quantitative Structure-Activity Relationship

2010
Comparison of the accuracy of experimental and predicted pKa values of basic and acidic compounds.
    Pharmaceutical research, 2014, Volume: 31, Issue:4

    Topics: Chemistry, Pharmaceutical; Forecasting; Hydrogen-Ion Concentration; Pharmaceutical Preparations; Random Allocation

2014
Tamoxifen effects on respiratory chain complexes and creatine kinase activities in an animal model of mania.
    Pharmacology, biochemistry, and behavior, 2011, Volume: 98, Issue:2

    Topics: Animals; Antimanic Agents; Bipolar Disorder; Brain; Creatine Kinase; Dextroamphetamine; Disease Models, Animal; Electron Transport; Male; Mitochondria; Motor Activity; Rats; Rats, Wistar; Tamoxifen

2011
Protein kinase C and oxidative stress in an animal model of mania.
    Current neurovascular research, 2012, Volume: 9, Issue:1

    Topics: Animals; Antimanic Agents; Behavior, Animal; Bipolar Disorder; Brain; Dextroamphetamine; Disease Models, Animal; Dopamine Uptake Inhibitors; Enzyme Inhibitors; Male; Motor Activity; Oxidative Stress; Protein Kinase C; Rats; Rats, Wistar; Tamoxifen

2012
Lithium and tamoxifen modulate cellular plasticity cascades in animal model of mania.
    Journal of psychopharmacology (Oxford, England), 2012, Volume: 26, Issue:12

    Topics: Animals; Antimanic Agents; Apoptosis; Behavior, Animal; Bipolar Disorder; Blotting, Western; Dextroamphetamine; Disease Models, Animal; Injections, Intraperitoneal; Lithium; Male; Motor Activity; Neuronal Plasticity; Protein Kinase C; Rats; Rats, Wistar; Tamoxifen

2012
Amphetamine-induced appetitive 50-kHz calls in rats: a marker of affect in mania?
    Psychopharmacology, 2014, Volume: 231, Issue:13

    Topics: Animals; Antimanic Agents; Bipolar Disorder; Central Nervous System Stimulants; Dextroamphetamine; Disease Models, Animal; Dose-Response Relationship, Drug; Flavonoids; Lithium Carbonate; Male; Motor Activity; Protein Kinase C; Rats; Rats, Wistar; Signal Transduction; Tamoxifen; Vocalization, Animal

2014