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Somatostatin 2a receptors are not expressed on functionally identified respiratory neurons in the ventral respiratory column of the rat.Recording, labeling, and transfection of single neurons in deep brain structures.Mapping and Analysis of the Connectome of Sympathetic Premotor Neurons in the Rostral Ventrolateral Medulla of the Rat Using a Volumetric Brain AtlasImmunostaining for the α3 isoform of the Na+/K+-ATPase is selective for functionally identified muscle spindle afferents in vivo.HCN1 and HCN2 in Rat DRG neurons: levels in nociceptors and non-nociceptors, NT3-dependence and influence of CFA-induced skin inflammation on HCN2 and NT3 expressionIn vitro neuronal depolarization and increased synaptic activity induced by infrared neural stimulationMetabotropic neurotransmission and integration of sympathetic nerve activity by the rostral ventrolateral medulla in the rat.Effects of baroreceptor activation on respiratory variability in rat.Polysialic Acid Regulates Sympathetic Outflow by Facilitating Information Transfer within the Nucleus of the Solitary Tract.Neurochemistry of neurons in the ventrolateral medulla activated by hypotension: Are the same neurons activated by glucoprivation?Excessive Respiratory Modulation of Blood Pressure Triggers Hypertension.Comparison of noradrenaline, dopamine and serotonin in mediating the tachycardic and thermogenic effects of methamphetamine in the ventral medial prefrontal cortex.Sympathetic premotor neurones project to and are influenced by neurones in the contralateral rostral ventrolateral medulla of the rat in vivo.A reliable method for the preferential activation of C- or A-fibre heat nociceptors.Distribution and neurochemical characterization of neurons in the rat ventrolateral medulla activated by glucoprivation.Somatostatin 2A receptor-expressing presympathetic neurons in the rostral ventrolateral medulla maintain blood pressure.Somatostatin in the rat rostral ventrolateral medulla: Origins and mechanism of action.Circulating angiotensin II attenuates the sympathetic baroreflex by reducing the barosensitivity of medullary cardiovascular neurones in the rat.Somatostatin selectively ablates post-inspiratory activity after injection into the Bötzinger complex.Neuropeptide Y in the rostral ventrolateral medulla blocks somatosympathetic reflexes in anesthetized rats.Noxious somatic stimuli diminish respiratory-sympathetic coupling by selective resetting of the respiratory rhythm in anaesthetized rats.Midbrain control of spinal nociception discriminates between responses evoked by myelinated and unmyelinated heat nociceptors in the rat.Disinhibition of the midbrain colliculi unmasks coordinated autonomic, respiratory, and somatomotor responses to auditory and visual stimuli.C-nociceptor activation of hypothalamic neurones and the columnar organisation of their projections to the periaqueductal grey in the rat.Somatostatin 2 Receptor Activation in the Rostral Ventrolateral Medulla Does not Mediate the Decompensatory Phase of Haemorrhage.trkA is expressed in nociceptive neurons and influences electrophysiological properties via Nav1.8 expression in rapidly conducting nociceptors.Spontaneous pain, both neuropathic and inflammatory, is related to frequency of spontaneous firing in intact C-fiber nociceptors.Coordinated autonomic and respiratory responses evoked by alerting stimuli: Role of the midbrain colliculi.Tonically Active cAMP-Dependent Signaling in the Ventrolateral Medulla Regulates Sympathetic and Cardiac Vagal Outflows.Orexinergic Activation of Medullary Premotor Neurons Modulates the Adrenal Sympathoexcitation to Hypothalamic GlucoprivationRostroventrolateral medulla neurons with commissural projections provide input to sympathetic premotor neurons: anatomical and functional evidenceAsymmetrical changes in lumbar sympathetic nerve activity following stimulation of the sciatic nerve in ratPatterning of somatosympathetic reflexes reveals nonuniform organization of presympathetic drive from C1 and non-C1 RVLM neuronsSeparation of A- versus C-nociceptive inputs into spinal–brainstem circuitsSomatic nerve stimulation evokes qualitatively different somatosympathetic responses in the cervical and splanchnic sympathetic nerves in the ratIntense Isolectin-B4 Binding in Rat Dorsal Root Ganglion Neurons Distinguishes C-Fiber Nociceptors with Broad Action Potentials and High Nav1.9 ExpressionElectrophysiological differences between nociceptive and non-nociceptive dorsal root ganglion neurones in the rat in vivoSomatostatin 2 Receptors in the Spinal Cord Tonically Restrain Thermogenic, Cardiac and Other Sympathetic OutflowsA Student's Guide to Neural Circuit TracingNeurons in the Intermediate Reticular Nucleus Coordinate Postinspiratory Activity, Swallowing, and Respiratory-Sympathetic Coupling in the Rat
P50
Q30278521-EE28F151-D99D-4334-8501-9027DF081575Q30636500-B68ECFF9-A8BB-4B31-B2E9-07468296FA01Q30840195-F375EE19-D209-42AE-A5BA-36CEBE890F45Q34408704-6D2511AE-C251-40F5-9D4F-7CFA0BADB502Q34510373-5450829E-09C1-4806-8517-509891AD33CDQ36152300-4F1E0A80-BEAD-48AA-B5AD-EAD6BC327DBEQ37097160-731D8B8D-D153-453F-968A-257CE0B78195Q37188594-A11A5931-FF82-4976-9F42-7B9FEE5DBF8DQ38747482-6E1137F6-8245-41EB-BE3B-858547BD86A1Q38906966-5EEE5FF7-A028-40D6-AA74-D695D8C38C5AQ40328328-C2B113C1-08A1-47C5-AA95-50C1C3B8116FQ41153022-922B311B-2B78-4299-AF29-B8B6132C700EQ42500889-A7C4D365-B170-413A-B879-F3E0430A7B92Q45027124-D92A631D-970D-4FF6-BD8F-8A0B8B542E78Q45062236-865A7F0D-D240-4293-8E92-38BE46B087B5Q46253245-1727E4A7-68B2-420D-9D0B-797D7739129CQ48100533-B233EF20-A35F-4C37-B057-E30A79292204Q48239801-6C2EA218-7D1E-4F36-8F47-94FA436FB6CEQ48311196-133CE3E2-9BA9-457B-8689-30ACB1E4BD9BQ48488395-776BD4A0-A806-44FD-979F-39F899AF5138Q48515220-9B2E12CB-6A8D-4CEA-9056-25F72584EE14Q48559911-EB43A16C-D09D-461E-AD43-9E1763A0C2BDQ48618011-1DC3A9CD-BBCB-47CB-8E25-C8550AEBEF7EQ48682303-B6BD868B-B1C0-4B45-B7AE-5E92AE5A4D88Q49392652-10B68DD0-069E-442C-956F-84878FC16F32Q50484843-E6D9F6AD-CF2C-48FE-94D1-DCBBC5AA4E49Q51282145-945A5FA6-961C-4E82-A3B3-0DA44DD918BBQ51574512-49CE4E4B-61C1-4CAE-895E-7DC215EF55CCQ52146753-98B17E67-8C23-415E-9925-4F3E1CF42074Q60736363-FA6B91A3-34B2-47F5-9181-423A3054B834Q60736368-13FD27A2-35F6-4B6C-AFAA-7B574303A192Q60736370-6F5B4128-62BB-4F8E-A1BE-F18DADA0A213Q60736371-77F0332A-5585-4FC8-AC13-469B0C7B2833Q60736376-7250EF12-0808-4768-B0A2-36D659E73818Q60736377-D55F4F8E-6C78-4E47-8C68-5DAFFCDE5A70Q60736387-D3CB0890-F182-43DB-8959-437C926F377BQ60736394-5DD997E2-8333-40C5-87C7-F438FCF1440FQ64230049-E557AFD1-ED30-4E6B-8F80-D54E75D87FD0Q90049700-DAAAD10C-BFB9-474F-B2B1-DC259F0DA287Q91010980-B5058A15-6B82-472B-BA85-2F3CADB4EE1A
P50
description
hulumtues
@sq
researcher
@en
wetenschapper
@nl
հետազոտող
@hy
name
Simon McMullan
@ast
Simon McMullan
@en
Simon McMullan
@es
Simon McMullan
@nl
Simon McMullan
@sl
type
label
Simon McMullan
@ast
Simon McMullan
@en
Simon McMullan
@es
Simon McMullan
@nl
Simon McMullan
@sl
prefLabel
Simon McMullan
@ast
Simon McMullan
@en
Simon McMullan
@es
Simon McMullan
@nl
Simon McMullan
@sl
P106
P1153
8412339900
P21
P31
P496
0000-0002-9854-1029
P569
2000-01-01T00:00:00Z