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1182 related items for PubMed ID: 1432065

  • 1. Intravenous morphine-induced activation of vagal afferents: peripheral, spinal, and CNS substrates mediating inhibition of spinal nociception and cardiovascular responses.
    Randich A, Thurston CL, Ludwig PS, Robertson JD, Rasmussen C.
    J Neurophysiol; 1992 Oct; 68(4):1027-45. PubMed ID: 1432065
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  • 2. Electrical stimulation of cervical vagal afferents. I. Central relays for modulation of spinal nociceptive transmission.
    Ren K, Randich A, Gebhart GF.
    J Neurophysiol; 1990 Oct; 64(4):1098-114. PubMed ID: 2175352
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  • 3. Electrical stimulation of cervical vagal afferents. II. Central relays for behavioral antinociception and arterial blood pressure decreases.
    Randich A, Ren K, Gebhart GF.
    J Neurophysiol; 1990 Oct; 64(4):1115-24. PubMed ID: 2258737
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  • 4. Antinociception and cardiovascular responses produced by intravenous morphine: the role of vagal afferents.
    Randich A, Thurston CL, Ludwig PS, Timmerman MR, Gebhart GF.
    Brain Res; 1991 Mar 15; 543(2):256-70. PubMed ID: 2059834
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  • 5. Electrical stimulation of the subdiaphragmatic vagus in rats: inhibition of heat-evoked responses of spinal dorsal horn neurons and central substrates mediating inhibition of the nociceptive tail flick reflex.
    Thurston CL, Randich A.
    Pain; 1992 Dec 15; 51(3):349-365. PubMed ID: 1491862
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  • 6. Role of vagal afferents and the rostral ventral medulla in intravenous serotonin-induced changes in nociception and arterial blood pressure.
    Thurston-Stanfield CL, Ranieri JT, Vallabhapurapu R, Barnes-Noble D.
    Physiol Behav; 1999 Nov 15; 67(5):753-67. PubMed ID: 10604848
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  • 7. Brainstem and spinal pathways mediating descending inhibition from the medullary lateral reticular nucleus in the rat.
    Janss AJ, Gebhart GF.
    Brain Res; 1988 Feb 02; 440(1):109-22. PubMed ID: 2896043
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  • 9. The use of specific opioid agonists and antagonists to delineate the vagally mediated antinociceptive and cardiovascular effects of intravenous morphine.
    Randich A, Robertson JD, Willingham T.
    Brain Res; 1993 Feb 19; 603(2):186-200. PubMed ID: 8096421
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  • 12. Vagal afferent modulation of a nociceptive reflex in rats: involvement of spinal opioid and monoamine receptors.
    Ren K, Randich A, Gebhart GF.
    Brain Res; 1988 Apr 19; 446(2):285-94. PubMed ID: 2836031
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  • 13. Circuitry linking opioid-sensitive nociceptive modulatory systems in periaqueductal gray and spinal cord with rostral ventromedial medulla.
    Morgan MM, Heinricher MM, Fields HL.
    Neuroscience; 1992 Apr 19; 47(4):863-71. PubMed ID: 1579215
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  • 14. Nuclei within the rostral ventromedial medulla mediating morphine antinociception from the periaqueductal gray.
    Urban MO, Smith DJ.
    Brain Res; 1994 Jul 25; 652(1):9-16. PubMed ID: 7953726
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  • 15. Antinociception produced by microinjection of morphine in the rat periaqueductal gray is enhanced in the foot, but not the tail, by intrathecal injection of alpha1-adrenoceptor antagonists.
    Fang F, Proudfit HK.
    Brain Res; 1998 Apr 20; 790(1-2):14-24. PubMed ID: 9593804
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  • 18. Medullary substrates mediating antinociception produced by electrical stimulation of the vagus.
    Randich A, Aicher SA.
    Brain Res; 1988 Mar 29; 445(1):68-76. PubMed ID: 3365559
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