Microsphere analysis of β<sub>2</sub>‐adrenergic control of resistance in different vascular areas after hemorrhage

At least four neural mechanisms influence facial blood flow. Firstly, sympathetic vasoconstrictor fibres exert a tonic constrictor influence on the vasculature of the ears, lips and nose, and sparsely supply other parts of the face. Secondly, the sympathetic nervous system actively dilates the cutaneous vasculature of the face during heat stress and emotion. Thirdly, parasympathetic vasodilator reflexes in the facial and glossopharyngeal nerves increase blood flow to the exocrine glands and tissues of the eyes, nose and mouth when these tissues are irritated. Fourthly, axon reflexes release vasoactive peptides from sensory fibres, which participate in local inflammatory responses. The sympathetic nervous system normally controls facial sweating. However, after injury to postganglionic sympathetic fibres, parasympathetic fibres sometimes make functional connections with sweat glands, so that parasympathetic reflexes provoke pathological sweating. In this review, new information about the neural pathways and stimuli which influence facial sweating and blood flow is summarized, and this is followed by a discussion of the pathophysiology of extracranial vascular disturbances and facial sweating in migraine, cluster headache and harlequin syndrome.

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Adrenergic receptors in the forehead microcirculation

Drummond

1996

Clinical Autonomic Research

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The presence of alpha- and beta-adrenoceptors in the forehead microcirculation was investigated in 49 healthy subjects. Local vascular responses to noradrenaline, isoprenaline and adrenergic antagonists, administered transcutaneously by iontophoresis, were monitored via laser Doppler flowmetry. Iontophoresis of the alpha-adrenergic antagonist phentolamine induced a persistent increase in skin blood flow, whereas iontophoresis of saline induced a minor increase in skin blood flow which subsided rapidly. Skin blood flow increased moderately after the iontophoresis of the beta-adrenergic antagonist propranolol. Pretreatment of the experimental site with phentolamine blocked the normal vasoconstrictor response to noradrenaline, and unmasked a minor vasodilator component of response in some subjects. Iontophoresis of the beta-adrenergic agonist isoprenaline induced dose-dependent vasodilatation which was antagonised by propranolol. These findings indicate that alpha-adrenoceptors in the forehead microcirculation normally mediate a vasoconstrictor response to iontophoretically-applied noradrenaline. In addition, beta-adrenoceptors appear to mediate a minor vasodilator component of response.

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Microsphere analysis of β₂‐adrenergic control of resistance in different vascular areas after hemorrhage

Cited by 10 publications

References 20 publications

Flushing and Urticarial Syndromes Presenting as Anaphylaxis

Flushing and Urticarial Syndromes Presenting as Anaphylaxis

Sweating and vascular responses in the face: Normal regulation and dysfunction in migraine, cluster headache and harlequin syndrome

Adrenergic receptors in the forehead microcirculation

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Microsphere analysis of β2‐adrenergic control of resistance in different vascular areas after hemorrhage

Cited by 10 publications

References 20 publications

Flushing and Urticarial Syndromes Presenting as Anaphylaxis

Flushing and Urticarial Syndromes Presenting as Anaphylaxis

Sweating and vascular responses in the face: Normal regulation and dysfunction in migraine, cluster headache and harlequin syndrome

Adrenergic receptors in the forehead microcirculation

Contact Info

Product

Resources

About

Microsphere analysis of β₂‐adrenergic control of resistance in different vascular areas after hemorrhage