about
The chemerin receptor 23 agonist, chemerin, attenuates monosynaptic C-fibre input to lamina I neurokinin 1 receptor expressing rat spinal cord neurons in inflammatory painMelatonin limits paclitaxel-induced mitochondrial dysfunction in vitro and protects against paclitaxel-induced neuropathic pain in the rat.MitoVitE, a mitochondria-targeted antioxidant, limits paclitaxel-induced oxidative stress and mitochondrial damage in vitro, and paclitaxel-induced mechanical hypersensitivity in a rat pain model.A rapamycin-sensitive signaling pathway is essential for the full expression of persistent pain states.Inflammatory Pain Reduces C Fiber Activity-Dependent Slowing in a Sex-Dependent Manner, Amplifying Nociceptive Input to the Spinal Cord.The postnatal reorganization of primary afferent input and dorsal horn cell receptive fields in the rat spinal cord is an activity-dependent process.Localization and function of ATP and GABAA receptors expressed by nociceptors and other postnatal sensory neurons in rat.Spinal dorsal horn cell receptive field size is increased in adult rats following neonatal hindpaw skin injury.Presynaptic NMDA receptors modulate glutamate release from primary sensory neurons in rat spinal cord dorsal horn.Neuroscience: a painful factor.Disinhibition opens the gate to pathological pain signaling in superficial neurokinin 1 receptor-expressing neurons in rat spinal cord.Age-dependent effects of peripheral inflammation on the electrophysiological properties of neonatal rat dorsal horn neurons.Modelling the prolonged effects of neonatal pain.Neonatal capsaicin treatment prevents the normal postnatal withdrawal of A fibres from lamina II without affecting fos responses to innocuous peripheral stimulation.AMPA receptors bring on the painInflammatory pain unmasks heterosynaptic facilitation in lamina I neurokinin 1 receptor-expressing neurons in rat spinal cord
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Q33622717-FED56BD2-4431-47B5-8A60-C7F84F51BE0BQ38694326-28E8FFAF-E1CA-4A70-822D-F16AD2FC391EQ38801537-58598AF8-724C-4B57-B867-D84C56CF1656Q39332259-D67C82D8-C7AA-42B9-B9F6-D03B47AAD678Q41024387-EAD88353-1F98-4077-B6B3-07AFB4C2E769Q44197969-91FE49ED-64D4-4D6C-8F41-27473426DB3BQ44383098-25C45CE8-2447-4E69-B6A4-829EA8D75AEDQ44453322-5C13003F-7A24-4AF7-A35A-3406F096CF29Q44804059-5C7A728E-B681-4B6F-B3A6-7DD747BE64F0Q46851644-384B0124-D44E-444F-AB86-8F51874A1BB3Q46935411-675DC47C-97FD-4293-A731-552E6D21BE11Q52123070-FABF32C3-EC8A-43A4-A892-A6CDD6D81C30Q52144213-C8BEB87D-1713-4885-8185-F0D9D9163B14Q52167930-2AC96EA9-A7FA-4186-9E0A-A81DE1584906Q80996386-B737C800-B89B-45A7-931B-A2A4C2D409C5Q83750750-45887B91-A5CB-4A4A-8F4F-0C00240B1C1A
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description
researcher
@en
name
Carole Torsney
@en
Carole Torsney
@nl
type
label
Carole Torsney
@en
Carole Torsney
@nl
prefLabel
Carole Torsney
@en
Carole Torsney
@nl
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P106
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0000-0002-2448-3364