Selective loss of catecholaminergic wake active neurons in a murine sleep apnea model.
about
Extended wakefulness: compromised metabolics in and degeneration of locus ceruleus neuronsThe Interaction between Obstructive Sleep Apnea and Parkinson's Disease: Possible Mechanisms and Implications for Cognitive FunctionObstructive sleep apnea and cognitive impairment: addressing the blood-brain barrierPathophysiology of sleep apneaSleep apnea: a redox edge with aging?Targeting NOX enzymes in the central nervous system: therapeutic opportunities.Chronic intermittent hypoxia alters density of aminergic terminals and receptors in the hypoglossal motor nucleus.SIRT1 regulation of wakefulness and senescence-like phenotype in wake neuronsIntermittent hypoxemia and OSA: implications for comorbidities.Long-term intermittent hypoxia elevates cobalt levels in the brain and injures white matter in adult mice.Wake-active neurons across aging and neurodegeneration: a potential role for sleep disturbances in promoting disease.Endoplasmic reticulum stress in wake-active neurons progresses with aging.Rats subjected to chronic-intermittent hypoxia have increased density of noradrenergic terminals in the trigeminal sensory and motor nuclei.Daytime sleepiness in obesity: mechanisms beyond obstructive sleep apnea--a review.An in vitro ischemic penumbral mimic perfusate increases NADPH oxidase-mediated superoxide production in cultured hippocampal neurons.Human apolipoprotein E4 targeted replacement in mice reveals increased susceptibility to sleep disruption and intermittent hypoxia.Piecing together phenotypes of brain injury and dysfunction in obstructive sleep apneaRegion-Specific Dissociation between Cortical Noradrenaline Levels and the Sleep/Wake Cycle.Animal models of sleep disorders.Reduced c-Fos expression in medullary catecholaminergic neurons in rats 20 h after exposure to chronic intermittent hypoxia.Brain structural changes in obstructive sleep apnea.Neural alterations and depressive symptoms in obstructive sleep apnea patientsPediatric obstructive sleep apnea: complications, management, and long-term outcomes.Intermittent hypoxia from obstructive sleep apnea may cause neuronal impairment and dysfunction in central nervous system: the potential roles played by microglia.Molecular signatures of obstructive sleep apnea in adults: a review and perspective.Update in sleep and control of ventilation 2007.Modafinil in the treatment of excessive sleepiness.Halothane-induced hypnosis is not accompanied by inactivation of orexinergic output in rodents.A pilot study of sleep, cognition, and respiration under 4 weeks of intermittent nocturnal hypoxia in adult humans.Effects of chronic sleep fragmentation on wake-active neurons and the hypercapnic arousal response.Neural Control of the Upper Airway: Respiratory and State-Dependent Mechanisms.Mechanisms of intermittent hypoxia induced hypertension.Establishment of a Rabbit Model of Chronic Obstructive Sleep Apnea and Application in Cardiovascular Consequences.Neurobiology and neuropathophysiology of obstructive sleep apnea.The neuroprotective effects of apocynin.Dysfunctional nucleus tractus solitarius: its crucial role in promoting neuropathogenetic cascade of Alzheimer's dementia--a novel hypothesis.Death by a thousand cuts in Alzheimer's disease: hypoxia--the prodrome.Obstructive sleep apnea and delirium: exploring possible mechanisms."Boomerang Neuropathology" of Late-Onset Alzheimer's Disease is Shrouded in Harmful "BDDS": Breathing, Diet, Drinking, and Sleep During Aging.Withstanding the obstructive sleep apnea syndrome at the expense of arousal instability, altered cerebral autoregulation and neurocognitive decline.
P2860
Q23761011-7636A6E2-84BA-4A27-99D2-9446BCB87475Q26778246-D09F5648-1FD8-43A3-B7A6-1152F29F2002Q26849304-E8199C7D-429B-44A6-B088-2692FEA937A2Q30440658-CBDD4C9C-E384-4B91-AE2D-C35C7FB970F8Q33903186-4CE6BFF4-DEE3-4B3E-A995-16017E3224E2Q34285497-DF3476D9-D6F1-4BE8-A5CF-E334E1B77541Q34402465-DB4459C3-028C-479F-A51C-1551DD79747EQ34726061-80D570AE-01FC-42CA-B613-29B4FBF09F93Q34840423-5F0BACB2-FF45-4C49-ABD9-4B74AF8163D6Q35003150-DD865C41-E3BA-45D6-8930-174590D05327Q35014204-8F8A5951-6965-4FD0-BEDE-D3F4A828FB42Q35074757-A4958EEE-764F-40DE-9C45-A3E34CE9652FQ35562952-F7806796-D412-47EB-9171-EB7AC53D0369Q35875600-A9A84BA3-60E7-49AB-80F8-544876BEE95FQ35888456-CAF3FF02-19F1-4B1C-8574-C5FB80E17FACQ36115297-1BD935A6-BDA2-427F-8CF5-7C401FE2069CQ36303952-66909E2E-7735-4E13-98F7-05FBE303CECEQ36369748-F34CFDC8-A2A0-4C0C-AF48-A88A5FCB3EE5Q36761993-BD0A119D-8327-4317-80E0-88A79474D038Q36770711-616E74A9-A952-4C9D-B3D7-BBF157BDFD6DQ36800544-32746AB2-7106-4601-9DAE-C04363C7BB3AQ36891132-AACEFD24-0759-49BD-9B1B-EDA2D8108979Q37077182-3A517E16-1040-43A0-8D04-2D8C94A6B021Q37092265-B726E958-BF2B-47CE-8630-021D415FE40CQ37146506-F1EBD73A-8BE0-46D3-B8CF-53FC34F0AA68Q37146910-A706525F-D0D1-4405-AEE9-42506C04FDB7Q37385592-5A573CE7-E0A9-429C-A1B6-4457D226658FQ37442015-01E3A3B6-7274-467B-A7C8-BDC6783536BBQ37477545-F37D9483-3B40-4F87-8CEE-38693FA93A94Q37518432-9DA4793C-4A5E-44AE-95A7-84536F3BAF0AQ37591858-CDAC6E3A-22EC-4809-818F-ABB77A2A2EB9Q37612046-82FCE5CC-994A-42BB-9EF3-80A5C19FC0F0Q37663550-E8BECE55-13DC-4A0B-BA0D-48EC4F25A8FDQ37968472-8761C0F0-EF78-46CA-BEB1-D9DD0B7D29A2Q37971725-D19BB74E-3C67-4303-83F3-DCB029A0E459Q37973295-EB11B986-0B47-40ED-B341-7ADA3851445CQ38080761-C959D115-8896-4F79-8A74-00AC6D28B766Q38098921-B07F2949-5000-47C1-841B-688E4F5890AFQ38441500-CE0FE241-6E98-4DFE-8659-8A2F84E4AACBQ38444331-00A6A8D5-5460-45BE-AAF6-B23581DA1118
P2860
Selective loss of catecholaminergic wake active neurons in a murine sleep apnea model.
description
2007 nî lūn-bûn
@nan
2007年の論文
@ja
2007年学术文章
@wuu
2007年学术文章
@zh
2007年学术文章
@zh-cn
2007年学术文章
@zh-hans
2007年学术文章
@zh-my
2007年学术文章
@zh-sg
2007年學術文章
@yue
2007年學術文章
@zh-hant
name
Selective loss of catecholaminergic wake active neurons in a murine sleep apnea model.
@en
Selective loss of catecholaminergic wake active neurons in a murine sleep apnea model.
@nl
type
label
Selective loss of catecholaminergic wake active neurons in a murine sleep apnea model.
@en
Selective loss of catecholaminergic wake active neurons in a murine sleep apnea model.
@nl
prefLabel
Selective loss of catecholaminergic wake active neurons in a murine sleep apnea model.
@en
Selective loss of catecholaminergic wake active neurons in a murine sleep apnea model.
@nl
P2093
P1476
Selective loss of catecholaminergic wake active neurons in a murine sleep apnea model
@en
P2093
Emilio Mazza
Gary Aston-Jones
Guanxia Zhan
Polina Fenik
Sigrid C Veasey
P304
10060-10071
P356
10.1523/JNEUROSCI.0857-07.2007
P407
P50
P577
2007-09-01T00:00:00Z