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Journal Abstract Search

226 related items for PubMed ID: 8982722

  • 1.
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  • 2. Antinociceptive action of mitragynine in mice: evidence for the involvement of supraspinal opioid receptors.
    Matsumoto K, Mizowaki M, Suchitra T, Takayama H, Sakai S, Aimi N, Watanabe H.
    Life Sci; 1996; 59(14):1149-55. PubMed ID: 8831802
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  • 3. Identification of opioid receptor subtypes in antinociceptive actions of supraspinally-administered mitragynine in mice.
    Thongpradichote S, Matsumoto K, Tohda M, Takayama H, Aimi N, Sakai S, Watanabe H.
    Life Sci; 1998; 62(16):1371-8. PubMed ID: 9585164
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  • 4. Suppressive effect of mitragynine on the 5-methoxy-N,N-dimethyltryptamine-induced head-twitch response in mice.
    Matsumoto K, Mizowaki M, Takayama H, Sakai S, Aimi N, Watanabe H.
    Pharmacol Biochem Behav; 1997; 57(1-2):319-23. PubMed ID: 9164589
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  • 7. The synthetic TRH analogue taltirelin exerts modality-specific antinociceptive effects via distinct descending monoaminergic systems.
    Tanabe M, Tokuda Y, Takasu K, Ono K, Honda M, Ono H.
    Br J Pharmacol; 2007 Feb; 150(4):403-14. PubMed ID: 17220907
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  • 8. FR143166 attenuates spinal pain transmission through activation of the serotonergic system.
    Ochi T, Ohkubo Y, Mutoh S.
    Eur J Pharmacol; 2002 Oct 11; 452(3):319-24. PubMed ID: 12359273
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  • 9. The effects of mitragynine and morphine on schedule-controlled responding and antinociception in rats.
    Hiranita T, Leon F, Felix JS, Restrepo LF, Reeves ME, Pennington AE, Obeng S, Avery BA, McCurdy CR, McMahon LR, Wilkerson JL.
    Psychopharmacology (Berl); 2019 Sep 11; 236(9):2725-2734. PubMed ID: 31098655
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  • 10. Central and systemic morphine-induced antinociception in mice: contribution of descending serotonergic and noradrenergic pathways.
    Wigdor S, Wilcox GL.
    J Pharmacol Exp Ther; 1987 Jul 11; 242(1):90-5. PubMed ID: 3612540
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  • 11. MGM-9 [(E)-methyl 2-(3-ethyl-7a,12a-(epoxyethanoxy)-9-fluoro-1,2,3,4,6,7,12,12b-octahydro-8-methoxyindolo[2,3-a]quinolizin-2-yl)-3-methoxyacrylate], a derivative of the indole alkaloid mitragynine: a novel dual-acting mu- and kappa-opioid agonist with potent antinociceptive and weak rewarding effects in mice.
    Matsumoto K, Takayama H, Narita M, Nakamura A, Suzuki M, Suzuki T, Murayama T, Wongseripipatana S, Misawa K, Kitajima M, Tashima K, Horie S.
    Neuropharmacology; 2008 Aug 11; 55(2):154-65. PubMed ID: 18550129
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  • 12. Antinociceptive action of isolated mitragynine from Mitragyna Speciosa through activation of opioid receptor system.
    Shamima AR, Fakurazi S, Hidayat MT, Hairuszah I, Moklas MAM, Arulselvan P.
    Int J Mol Sci; 2012 Aug 11; 13(9):11427-11442. PubMed ID: 23109863
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  • 13. Mechanisms of L-NG-nitro arginine methyl ester-induced antinociception in mice: a role for serotonergic and adrenergic neurons.
    Mustafa AA.
    Gen Pharmacol; 1992 Nov 11; 23(6):1177-82. PubMed ID: 1362551
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  • 14. Antinociceptive effect of ketanserin in mice: involvement of supraspinal 5-HT2 receptors in nociceptive transmission.
    Alhaider AA.
    Brain Res; 1991 Mar 15; 543(2):335-40. PubMed ID: 1676334
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  • 15. Involvement of Descending Serotonergic and Noradrenergic Systems and their Spinal Receptor Subtypes in the Antinociceptive Effect of Dipyrone.
    Gencer A, Gunduz O, Ulugol A.
    Drug Res (Stuttg); 2015 Dec 15; 65(12):645-9. PubMed ID: 25647230
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  • 16. Effects of mitragynine on cAMP formation mediated by delta-opiate receptors in NG108-15 cells.
    Tohda M, Thongpraditchote S, Matsumoto K, Murakami Y, Sakai S, Aimi N, Takayama H, Tongroach P, Watanabe H.
    Biol Pharm Bull; 1997 Apr 15; 20(4):338-40. PubMed ID: 9145205
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  • 17. Involvement of brain serotonergic terminals in the antinociceptive action of peripherally applied calcitonin.
    Yamazaki N, Umeno H, Kuraishi Y.
    Jpn J Pharmacol; 1999 Dec 15; 81(4):367-74. PubMed ID: 10669042
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