Cerebral blood flow and cerebrovascular reactivity after inhibition of nitric oxide synthesis in conscious goats

Fernández, Núria; Garcia, J. L.; Garcı́a-Villalón, Ángel Luis; Monge, Luis; Gómez, B.; Diéguez, Godofredo

doi:10.1111/j.1476-5381.1993.tb13828.x

Cited by 42 publications

(11 citation statements)

References 38 publications

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“…25,35) Consistent with previous reports in the rat and other species, 5,6,25) we also found that L-NMMA induced secondary bradycardia of approximately 30 bpm which is known to involve autonomic reflexes as it is abolished, and the associated pressor response potentiated, by baroreceptor deafferentiation. 35) In the present study, these systemic responses to L-NMMA were attenuated by pre-and post-administration of L-arginine, and changes in the P-Q characteristics of the ECA territory induced by L-NMMA were reversed by post-administration of L-arginine.…”

Section: Discussionsupporting

confidence: 91%

Endogenous Nitric Oxide Synthesis Differentially Modulates Pressure-Flow and Pressure-Conductance Relationships in the Internal and External Carotid Artery Circulations of the Rat

Ujiié

Edwards²,

Griffith³

2002

Neurol. Med. Chir.(Tokyo)

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The role of endogenous nitric oxide (NO) synthesis was investigated in the regulation of the internal (ICA) and external carotid artery (ECA) beds of ventilated, anesthetized rats in a model in which the left common carotid artery was perfused from the aorta via an extracorporeal circuit under conditions of non-pulsatile controlled flow. The territories supplied by the extracranial ICA and ECA were studied separately following occlusion of the appropriate artery. An inhibitor of nitric oxide synthesis, N Gmonomethyl-L-arginine (L-NMMA), and the NO synthase substrate L-arginine were administered via a jugular venous catheter. NO synthesis exerted an important influence on the pressure-flow relationships of the ICA and ECA circulations as L-NMMA increased input perfusion pressure at any given flow rate. However, in the presence of NO synthesis, hydraulic conductance increased rapidly with flow in the ICA, thereby stabilizing perfusion pressures over a wide range of flow rates, whereas this phenomenon was not evident in the ECA territory. Differences between the two circulations were further emphasized by observations that L-arginine antagonized the systemic hemodynamic response to L-NMMA and its effects on the conductance of the ECA bed, whereas the effects of L-NMMA were irreversible in the ICA territory.

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Section: Discussionsupporting

confidence: 91%

Endogenous Nitric Oxide Synthesis Differentially Modulates Pressure-Flow and Pressure-Conductance Relationships in the Internal and External Carotid Artery Circulations of the Rat

Ujiié

Edwards²,

Griffith³

2002

Neurol. Med. Chir.(Tokyo)

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“…[23][24][25][26][27] It is postulated that vasoconstriction is partially mediated by the suppression of NO, synthesized from L-arginine in the perivascular nerve terminals innervating the arteries that irrigate the cerebrum, as treatment with a ganglion blocker can suppress vasoconstriction or cause a decrease in blood flow. 21 We therefore conclude that in the arteries irrigating the cerebrum, cerebellum and brain stem, constrictions induced by intravenous L-NA may be partially associated with the suppression of nitrergic function.…”

Section: Discussionmentioning

confidence: 99%

Nitrergic nerves derived from the pterygopalatine ganglion innervate arteries irrigating the cerebrum but not the cerebellum and brain stem in monkeys

et al. 2011

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The functional roles of the nitrergic nerves innervating the monkey cerebral artery were evaluated in a tension-response study examining isolated arteries in vitro and cerebral angiography in vivo. Nicotine produced relaxation of arteries by stimulation of nerve terminals innervating isolated monkey arteries irrigating the cerebrum, cerebellum and brain stem. Relaxation of arteries induced by nicotine was abolished by treatment with N G -nitro-L-arginine, a nitric oxide synthase inhibitor, and was restored by addition of L-arginine. Cerebral angiography showed that electrical stimulation of the unilateral greater petrosal nerve, which connects to the pterygopalatine ganglion via the parasympathetic ganglion synapse, produced vasodilatation of the anterior, middle and posterior cerebral arteries in the stimulated side. However, stimulation failed to produce vasodilatation of the superior and anterior-inferior cerebellar arteries and the basilar artery in anesthetized monkeys. Therefore, nitrergic nerves derived from the pterygopalatine ganglion appear to regulate cerebral vasomotor function. In contrast, circulation in the cerebellum and brain stem might be regulated by nitrergic nerves originating not from the pterygopalatine ganglion, but rather from an unknown ganglion (or ganglia).

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“…[1][2][3][4][5][6] Although this experimental NOdeficient hypertension at first was attributed solely to inhibition of endothelium-dependent vasodilation, 1,7 there is increasing evidence of an important sympathetic neural component. 5,6,8 -12 The concept is that neuronally produced NO is part of the signal transduction pathway involved in the restraint of brainstem sympathetic vasomotor outflow and that inhibition of such restraint leads to neurogenic hypertension.…”

Section: P Harmacological Inhibitors Of Nitric Oxide (No) Synthesis mentioning

confidence: 99%

A Large Blood Pressure–Raising Effect of Nitric Oxide Synthase Inhibition in Humans

1999

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Abstract-In experimental animals, systemic administration of nitric oxide synthase (NOS) inhibitors causes large increases in blood pressure that are in part sympathetically mediated. The aim of this study was to determine the extent to which these conclusions can be extrapolated to humans. In healthy normotensive humans, we measured blood pressure in response to two NOS inhibitors, N G -monomethyl-L-arginine (L-NMMA) and N G -nitro-L-arginine methyl ester (L-NAME), the latter of which recently became available for use in humans. The major new findings are 3-fold. First, L-NAME produced robust increases in blood pressure that were more than 2 times larger than those previously reported in humans with L-NMMA and approximated those seen in experimental animals. L-NAME (4 mg/kg) raised mean arterial pressure by 24Ϯ2 mm Hg (nϭ27, PϽ0.001), whereas in subjects who received both inhibitors, a 12-fold higher dose of L-NMMA (50 mg/kg) raised mean arterial pressure by 15Ϯ2 mm Hg (nϭ4, PϽ0.05 vs L-NAME). Second, the L-NAME-induced increases in blood pressure were caused specifically by NOS inhibition because they were reversed by L-arginine (200 mg/kg, nϭ12) but not D-arginine (200 mg/kg, nϭ6) and because N G -nitro-D-arginine methyl ester (4 mg/kg, nϭ5) had no effect on blood pressure. Third, in humans, there is an important sympathetic component to the blood pressure-raising effect of NOS inhibition. ␣-Adrenergic blockade with phentolamine (0.2 mg/kg, nϭ9) attenuated the L-NAME-induced increase in blood pressure by 40% (PϽ0.05). From these data, we conclude that pharmacological inhibition of NOS causes large increases in blood pressure that are in part sympathetically mediated in humans as well as experimental animals. (Hypertension. 1999;33:937-942.)

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Cerebral blood flow and cerebrovascular reactivity after inhibition of nitric oxide synthesis in conscious goats

Cited by 42 publications

References 38 publications

Endogenous Nitric Oxide Synthesis Differentially Modulates Pressure-Flow and Pressure-Conductance Relationships in the Internal and External Carotid Artery Circulations of the Rat

Endogenous Nitric Oxide Synthesis Differentially Modulates Pressure-Flow and Pressure-Conductance Relationships in the Internal and External Carotid Artery Circulations of the Rat

Nitrergic nerves derived from the pterygopalatine ganglion innervate arteries irrigating the cerebrum but not the cerebellum and brain stem in monkeys

A Large Blood Pressure–Raising Effect of Nitric Oxide Synthase Inhibition in Humans

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