Details
Hypocretins
Integrators of Physiological Signals|
96,29 € |
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| Verlag: | Springer |
| Format: | |
| Veröffentl.: | 25.04.2007 |
| ISBN/EAN: | 9780387254463 |
| Sprache: | englisch |
| Anzahl Seiten: | 440 |
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Beschreibungen
The first report that rapid eye movements occur in sleep in humans was published in 1953. The research journey from this point to the realization that sleep consists of two entirely independent states of being (eventually labeled REM sleep and non-REM sleep) was convoluted, but by 1960 the fundamental duality of sleep was well established including the description of REM sleep in cats associated with “wide awake” EEG patterns and EMG suppression. The first report linking REM sleep to a pathology occurred in 1961 and a clear association of sleep onset REM periods, cataplexy, hypnagogic hallucinations and sleep paralysis was fully established by 1966. When a naïve individual happens to observe a full-blown cataplexy attack, it is both dramatic and unnerving. Usually the observer assumes that the loss of muscle tone represents syncope or seizure. In order to educate health professionals and the general public, Christian Guilleminault and I made movies of full-blown cataplectic episodes (not an easy task). We showed these movies of cataplexy attacks to a number of professional audiences, and were eventually rewarded with the report of a similar abrupt loss of muscle tone in a dog. We were able to bring the dog to Stanford University and with this as the trigger, we were able to develop the Stanford Canine Narcolepsy Colony. Breeding studies revealed the genetic determinants of canine narcolepsy, an autosomal recessive gene we termed canarc1. Emmanuel Mignot took over the colony in 1986 and began sequencing DNA, finally isolating canarc1 in 1999.
The first report that rapid eye movements occur in sleep in humans was published in 1953. The research journey from this point to the realization that sleep consists of two entirely independent states of being (eventually labeled REM sleep and non-REM sleep) was convoluted, but by 1960 the fundamental duality of sleep was well established including the description of REM sleep in cats associated with “wide awake” EEG patterns and EMG suppression. The first report linking REM sleep to a pathology occurred in 1961 and a clear association of sleep onset REM periods, cataplexy, hypnagogic hallucinations and sleep paralysis was fully established by 1966. When a naïve individual happens to observe a full-blown cataplexy attack, it is both dramatic and unnerving. Usually the observer assumes that the loss of muscle tone represents syncope or seizure. In order to educate health professionals and the general public, Christian Guilleminault and I made movies of full-blown cataplectic episodes (not an easy task). We showed these movies of cataplexy attacks to a number of professional audiences, and were eventually rewarded with the report of a similar abrupt loss of muscle tone in a dog. We were able to bring the dog to Stanford University and with this as the trigger, we were able to develop the Stanford Canine Narcolepsy Colony. Breeding studies revealed the genetic determinants of canine narcolepsy, an autosomal recessive gene we termed canarc1. Emmanuel Mignot took over the colony in 1986 and began sequencing DNA, finally isolating canarc1 in 1999.
Foreword.- Preface.- The Discovery Of The Hypocretins.- Orexin And Orexin Receptors.- Rodent Models Of Human Narcolepsy-Cataplexy.- The Canine Model Of Narcolepsy.- Anatomy Of The Hypocretin System.- The Anatomy Of Hypocretin Neurons.- Transmitter-Identified Neurons And Afferent Innervation Of The Lateral Hypothalamic Area.- Physiological Characteristics Of Hypocretin/Orexin Neurons.- The Ne System As A Target For Hypocretin Neurons: Implications For Regulation Of Arousal.- Hypocretin/Orexin Actions On Mesopontine Cholinergic Systems Controling Behavioral State.- The Aminergic Systems And The Hypocretins.- Effects Of Hypocretin/Orexin On The Thalamocortical Activating.- In Vivo Pharmacology Of Orexin (Hypocretin) Receptors.- Intracellular Signal Pathways Utilized By The Hypocretin/Orexin Receptors.- The Hypocretins And Narcolepsy.- An Approach To Determining The Functions Of Hypocretin (Orexin).- Hypocretin In Neuropsychiatric Disorders.- Hypocretin/Orexin And Sleep.- Modulation Of Cortical Activity And Sleep-Wake States By Hypocretin/Orexin.- Regulation Of Hypocretin By Metabolic Signals.- Hypocretin And Brain Reward Function.- Orexin/Hypocretin And Opioid Dependence.- Dopamine.- Hypocretin/Orexin Interactions.- Hypocretin/Orexin In Stress And Arousal.- The Hypocretins/Orexins And The Hypothalamo-Pituitary-Adrenal Axis.- Orexins (Hypocretins) In The Gut.- Hypocretins In Endocrine Regulation.- The Hypocretins In Cardiovascular Regulation.- Index.
<p>Represents an interdisciplinary approach to hypocretins that reviews the role of these neuropeptides in neurological disease</p><p>Includes supplementary material: sn.pub/extras</p>
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