Literature DB >> 23288975

Attenuated heart rate response is associated with hypocretin deficiency in patients with narcolepsy.

Gertrud Laura Sorensen1, Stine Knudsen, Eva Rosa Petersen, Jacob Kempfner, Steen Gammeltoft, Helge Bjarup Dissing Sorensen, Poul Jennum.   

Abstract

STUDY
OBJECTIVE: Several studies have suggested that hypocretin-1 may influence the cerebral control of the cardiovascular system. We analyzed whether hypocretin-1 deficiency in narcolepsy patients may result in a reduced heart rate response.
DESIGN: We analyzed the heart rate response during various sleep stages from a 1-night polysomnography in patients with narcolepsy and healthy controls. The narcolepsy group was subdivided by the presence of +/- cataplexy and +/- hypocretin-1 deficiency.
SETTING: Sleep laboratory studies conducted from 2001-2011. PARTICIPANTS: In total 67 narcolepsy patients and 22 control subjects were included in the study. Cataplexy was present in 46 patients and hypocretin-1 deficiency in 38 patients.
INTERVENTIONS: None. MEASUREMENTS AND
RESULTS: All patients with narcolepsy had a significantly reduced heart rate response associated with arousals and leg movements (P < 0.05). Heart rate response associated with arousals was significantly lower in the hypocretin-1 deficiency and cataplexy groups compared with patients with normal hypocretin-1 levels (P < 0.04) and patients without cataplexy (P < 0.04). Only hypocretin-1 deficiency significantly predicted the heart rate response associated with arousals in both REM and non-REM in a multivariate linear regression.
CONCLUSIONS: Our results show that autonomic dysfunction is part of the narcoleptic phenotype, and that hypocretin-1 deficiency is the primary predictor of this dysfunction. This finding suggests that the hypocretin system participates in the modulation of cardiovascular function at rest.

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Year:  2013        PMID: 23288975      PMCID: PMC3524548          DOI: 10.5665/sleep.2308

Source DB:  PubMed          Journal:  Sleep        ISSN: 0161-8105            Impact factor:   5.849


  24 in total

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4.  Age difference in heart rate changes associated with micro-arousals in humans.

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