Biblio
Found 22 results
Filters: Keyword is Dogs [Clear All Filters]
Greatly increased numbers of histamine cells in human narcolepsy with cataplexy.. Annals of Neurology. 74(6):786-93.
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2013. Cerebrospinal fluid hypocretin (orexin) levels are elevated by play but are not raised by exercise and its associated heart rate, blood pressure, respiration or body temperature changes.. Arch Ital Biol. 149(4):492-8.
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2011. Role of the hypocretin (orexin) receptor 2 (Hcrt-r2) in the regulation of hypocretin level and cataplexy.. J Neurosci. 31(17):6305-10.
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Systemic administration of hypocretin-1 reduces cataplexy and normalizes sleep and waking durations in narcoleptic dogs.. Sleep Res Online. 3(1):23-8.
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2000. Locus coeruleus neurons: cessation of activity during cataplexy.. Neuroscience. 91(4):1389-99.
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1999. Narcolepsy: a key role for hypocretins (orexins). Cell. 98(4):409-12.
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1999. Neuronal degeneration in canine narcolepsy.. J Neurosci. 19(1):248-57.
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Altered distribution of cholinergic cells in the narcoleptic dog.. Neuroreport. 6(11):1521-4.
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1995. Cholinergic mechanisms in canine narcolepsy--I. Modulation of cataplexy via local drug administration into the pontine reticular formation.. Neuroscience. 59(3):511-22.
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Activity of medial mesopontine units during cataplexy and sleep-waking states in the narcoleptic dog.. J Neurosci. 12(5):1640-6.
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1992. Neuronal activity in narcolepsy: identification of cataplexy-related cells in the medial medulla.. Science. 252(5010):1315-8.
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1991. Heart rate and blood pressure changes during sleep-waking cycles and cataplexy in narcoleptic dogs.. Am J Physiol. 256(1 Pt 2):H111-9.
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1989. Heart rate and blood pressure changes associated with cataplexy in canine narcolepsy.. Sleep. 9(1 Pt 2):216-21.
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1986.