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Analysis of the spinal mechanisms involved in processing sensory input from the ureter

, : Analysis of the spinal mechanisms involved in processing sensory input from the ureter. Journal of Urology 153(4 SUPPL ): 412A

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Related references

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Johnson, A.K.; Zardetto-Smith, A.M.; Edwards, G.L., 1992: Integrative mechanisms and the maintenance of cardiovascular and body fluid homeostasis: the central processing of sensory input derived from the circumventricular organs of the lamina terminalis. Progress in Brain Research 91: 381-393

Gordh T.Jr; Jansson I.; Hartvig P.; Gillberg P.G.; Post C., 1989: Interactions between noradrenergic and cholinergic mechanisms involved in spinal nociceptive processing. Antinociceptive effects have been demonstrated after systemic and spinal administration of the adrenoceptor agonist clonidine and cholinomimetic drugs in animals and human. The present investigation was undertaken in rats to study the possible int...

Schwaller, F.; Kwok, C.; Fitzgerald, M., 2015: Postnatal maturation of the spinal-bulbo-spinal loop: brainstem control of spinal nociception is independent of sensory input in neonatal rats. The rostroventral medial medulla (RVM) is part of a rapidly acting spino-bulbo-spinal loop that is activated by ascending nociceptive inputs and drives descending feedback modulation of spinal nociception. In the adult rat, the RVM can facilitate...

Neugebauer, V.; Ruemenapp, P.; Schaible, H.G., 1996: Calcitonin gene-related peptide is involved in the spinal processing of mechanosensory input from the rat's knee joint and in the generation and maintenance of hyperexcitability of dorsal horn neurons during development of acute inflammation. In an electrophysiological study in anaesthetized rats, the involvement of calcitonin gene-related peptide in the spinal processing of mechanosensory information from the normal and inflamed knee joint was investigated. Calcitonin gene-related pep...

Yates, B.J.; Thompson, F.J., 1985: Properties of spinal cord processing of femoral venous afferent input revealed by analysis of evoked potentials. Two characteristics of spinal cord interneurons which receive inputs from femoral-saphenous venous afferents were examined. The shortest pathway between primary femoral-saphenous venous afferents and alpha-motoneurons was shown to be a di- or tri-...

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