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Общее количество найденных документов : 45
Показаны документы с 1 по 20
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| Гомосинаптическая депрессия моносинаптического спинального рефлекса у здоровых людей и больных, перенесших мозговой инсульт // Нейтрофизиология, 1989. Т. 21, N 4.-С.555-558
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| Vestibular functioning and migraine: Comparing those with and without vertigo to a normal population // J. Laryngol. and Otol., 2013. Vol. 127, N 12.-С.1169-1176
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| Rowell Loring B. Venomotor responses during central and local hypoxia // Amer. J. Physiol., 1988. Vol. 255, N 4.-С.Н760-Н764
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| Honda M. Tricyclic analogs cyclobenzaprine, amitriptyline and cyproheptadine inhibit the spinal reflex transmission through 5-HT[2] receptors // Eur. J. Pharmacol., 2003. Vol. 458, N 1-2.-С.91-99
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| Standish Tonic descending modulation of spinal neurons with renal input // Brain Res., 1992. Vol. 576, N 1.-С.12-24
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| Tolperisone-type drugs inhibit spinal reflexes via blockade of voltage-gated sodium and calcium channels // J. Pharmacol. and Exp. Ther., 2005. Vol. 315, N 3.-С.1237-1246
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| Thyrotropin releasing hormone, cholecystokinin and endogenous opioids in the modulation of spinal reflexes in the rabbit // Neuropharmacology, 1988. Vol. 27, N 12.-С.1279-1284
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| van The role of glutamate in opiate descending inhibition of nociceptive spinal reflexes // Brain Res., 1990. Vol. 524, N 1.-С.101-105
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| Clarke Rob W. The involvement of Op[1] ('дельта') and OP[3] (m) opioid receptors in stimulus-evoked, opioid-mediated inhibition of a spinal reflex in the decerebrated and spinalized rabbit // J. Physiol. Proc., 1998. Vol. 513.-С.33-34
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| Clarke Rob W. The involvement of Op[1] ('дельта') and OP[3] (m) opioid receptors in stimulus-evoked, opioid-mediated inhibition of a spinal reflex in the decerebrated and spinalized rabbit // J. Physiol. Proc., 1998. Vol. 513.-С.33-34
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| Ogilvie The involvement of non-5-HT[1A] receptors in 8-hydroxy-2-(di-n-propylamino)tetralin (8-OH-DPAT)-induced facilitation of a spinal reflex in the decerebrated and spinalized rabbit // J. Physiol. Proc., 1996. Vol. 497.-С.106-107
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12.
| Hartell Nick A. The effect of naloxone on spinal reflexes to electrical and mechanical stimuli in the anaesthetized spinalized rat // J. Physiol., 1991. Vol. 442.-С.513-526
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| Studies on the effect of systemic PD134308 (CAM 958) in spinal reflex and pain models with special reference to interaction with morphine and intrathecal galanin // Neuropeptides, 1991. Vol. 19, Suppl..-С.79-84
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14.
| Delwaide P.J. Spinal reflex studies as a tool for Clinical Neuropharmacology // New Trends Clin. Neuropharmacol, 1992. Vol. 6, N 1-4.-С.31-35
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15.
| Sites of action of CS-722, a newly synthesized centrally acting muscle relaxant // Jap. J. Pharmacol., 1993. Vol. 63, N 3.-С.385-389
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16.
| Serotonin 5-HT[2] receptor activation induces a long-lasting amplification of spinal reflex actions in the rat // J. Physiol., 2001. Vol. 537, N 1.-С.201-207
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17.
| Relief of experimental spasticity and anxiolytic/ /anticonvulsant actions of the alpha-amino-3-hydroxy-5-methyl4-isoxazolepropionate antagonist 2,3-dihydroxy-6-nitro-7-sulfamoyl-benzo(F)quinoxaline // J. Pharmacol. and Exp. Ther., 1992. Vol. 260, N 2.-С.742-747
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| Reflex inhibitory action of a non-NMDA type excitatory amino acid antagonist, GYKI 52466 // Acta physiol. hung., 1990. Vol. 75, Suppl..-С.277-278
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| Recurrent inhibition in older adults // J. Rehabil. Res. and Dev., 1991. Vol. 28, N 1.-С.232
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20.
| Pressor effect of water drinking in tetraplegic patients may be a spinal reflex // Hypertension, 2003. Vol. 41, N 6.-С.1234-1239
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