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Adaikkan 2019: Tsai LH Gamma Entrainment Binds Higher-Order Brain Regions and Offers Neuroprotection., Neuron., 102, p. 929, DOI: 10.1016/j.neuron.2019.04.011", "listPosition" : 1, "doi" : "10.1016/j.neuron.2019.04.011", "published" : false, "snippet" : true }, { "otype" : "Reference", "mtid" : 21621569, "link" : "/api/reference/21621569", "label" : "2. Ahnaou 2017: Emergence of early alterations in network oscillations and functional connectivity in a tau seeding mouse model of Alzheimer’s disease pathology., Sci Rep., 7, p. 14189, DOI: 10.1038/s41598-017-13839-6", "listPosition" : 2, "doi" : "10.1038/s41598-017-13839-6", "published" : false, "snippet" : true }, { "otype" : "Reference", "mtid" : 21621570, "link" : "/api/reference/21621570", "label" : "3. Alanis-Guevara 2005: Sleep disturbances, socioeconomic status, and seizure control as main predictors of quality of life in epilepsy., Epilepsy Behav, 7, p. 481, DOI: 10.1016/j.yebeh.2005.06.010", "listPosition" : 3, "doi" : "10.1016/j.yebeh.2005.06.010", "published" : false, "snippet" : true }, { "otype" : "Reference", "mtid" : 21621571, "link" : "/api/reference/21621571", "label" : "4. Albuquerque 2015: Regional and sub-regional differences in hippocampal GABAergic neuronal vulnerability in the TgCRND8 mouse model of Alzheimer’s disease., Front Aging Neurosci., 7, p. 30, DOI: 10.3389/fnagi.2015.00030", "listPosition" : 4, "doi" : "10.3389/fnagi.2015.00030", "published" : false, "snippet" : true }, { "otype" : "Reference", "mtid" : 21621572, "link" : "/api/reference/21621572", "label" : "5. Alfonsa 2015: The contribution of raised intraneuronal chloride to epileptic network activity., Neurosci., 35, p. 7715, DOI: 10.1523/JNEUROSCI.4105-14.2015", "listPosition" : 5, "doi" : "10.1523/JNEUROSCI.4105-14.2015", "published" : false, "snippet" : true }, { "otype" : "Reference", "mtid" : 21621573, "link" : "/api/reference/21621573", "label" : "6. Ali 2015: Melatonin ameliorates amyloid beta-induced memory deficits, tau hyperphosphorylation and neurodegeneration via PI3/Akt/GSk3β pathway in the mouse hippocampus., J Pineal Res., 59, p. 47, DOI: 10.1111/jpi.12238", "listPosition" : 6, "doi" : "10.1111/jpi.12238", "published" : false, "snippet" : true }, { "otype" : "Reference", "mtid" : 21621574, "link" : "/api/reference/21621574", "label" : "7. Aliev 2014: Alzheimer disease and type 2 diabetes mellitus: the link to tyrosine hydroxylase and probable nutritional strategies., CNS Neurol Disord Drug Targets., 13, p. 467, DOI: 10.2174/18715273113126660153", "listPosition" : 7, "doi" : "10.2174/18715273113126660153", "published" : false, "snippet" : true }, { "otype" : "Reference", "mtid" : 21621575, "link" : "/api/reference/21621575", "label" : "8. Amatniek 2006: Incidence and predictors of seizures in patients with Alzheimer’s disease., Epilepsia., 47, p. 867, DOI: 10.1111/j.1528-1167.2006.00554.x", "listPosition" : 8, "doi" : "10.1111/j.1528-1167.2006.00554.x", "published" : false, "snippet" : true }, { "otype" : "Reference", "mtid" : 21621576, "link" : "/api/reference/21621576", "label" : "9. Amilhon 2015: Parvalbumin Interneurons of Hippocampus Tune Population Activity at Theta Frequency., Neuron., 86, p. 1277, DOI: 10.1016/j.neuron.2015.05.027", "listPosition" : 9, "doi" : "10.1016/j.neuron.2015.05.027", "published" : false, "snippet" : true }, { "otype" : "Reference", "mtid" : 21621577, "link" : "/api/reference/21621577", "label" : "10. André 2001: Alterations of hippocampal GAbaergic system contribute to development of spontaneous recurrent seizures in the rat lithium-pilocarpine model of temporal lobe epilepsy., Hippocampus., 11, p. 452, DOI: 10.1002/hipo.1060", "listPosition" : 10, "doi" : "10.1002/hipo.1060", "published" : false, "snippet" : true }, { "otype" : "Reference", "mtid" : 21621578, "link" : "/api/reference/21621578", "label" : "11. Arendt 2015: Early neurone loss in Alzheimer’s disease: cortical or subcortical?., Acta Neuropathol Commun., 3, p. 10, DOI: 10.1186/s40478-015-0187-1", "listPosition" : 11, "doi" : "10.1186/s40478-015-0187-1", "published" : false, "snippet" : true }, { "otype" : "Reference", "mtid" : 21621579, "link" : "/api/reference/21621579", "label" : "12. Arnold 2018: Brain insulin resistance in type 2 diabetes and Alzheimer disease: concepts and conundrums., Nat Rev Neurol., 14, p. 168, DOI: 10.1038/nrneurol.2017.185", "listPosition" : 12, "doi" : "10.1038/nrneurol.2017.185", "published" : false, "snippet" : true }, { "otype" : "Reference", "mtid" : 21621580, "link" : "/api/reference/21621580", "label" : "13. Avoli 2011: GABAergic synchronization in the limbic system and its role in the generation of epileptiform activity., Prog Neurobiol., 95, p. 104, DOI: 10.1016/j.pneurobio.2011.07.003", "listPosition" : 13, "doi" : "10.1016/j.pneurobio.2011.07.003", "published" : false, "snippet" : true }, { "otype" : "Reference", "mtid" : 21621581, "link" : "/api/reference/21621581", "label" : "14. Bakker 2012: Reduction of hippocampal hyperactivity improves cognition in amnestic mild cognitive impairment., Neuron., 74, p. 467, DOI: 10.1016/j.neuron.2012.03.023", "listPosition" : 14, "doi" : "10.1016/j.neuron.2012.03.023", "published" : false, "snippet" : true }, { "otype" : "Reference", "mtid" : 21621582, "link" : "/api/reference/21621582", "label" : "15. Barnes 2016: Incidence and impact of subclinical epileptiform activity in Alzheimer’s disease., Ann Neurol., 80, p. 858, DOI: 10.1002/ana.24794", "listPosition" : 15, "doi" : "10.1002/ana.24794", "published" : false, "snippet" : true }, { "otype" : "Reference", "mtid" : 21621583, "link" : "/api/reference/21621583", "label" : "16. Barthélemy 2020: Sleep Deprivation Affects Tau Phosphorylation in Human Cerebrospinal Fluid., Ann Neurol., 87, p. 700, DOI: 10.1002/ana.25702", "listPosition" : 16, "doi" : "10.1002/ana.25702", "published" : false, "snippet" : true }, { "otype" : "Reference", "mtid" : 21621584, "link" : "/api/reference/21621584", "label" : "17. Bartram 2017: Cortical Up states induce the selective weakening of subthreshold synaptic inputs., Nat Commun., 22, p. 665, DOI: 10.1038/s41467-017-00748-5", "listPosition" : 17, "doi" : "10.1038/s41467-017-00748-5", "published" : false, "snippet" : true }, { "otype" : "Reference", "mtid" : 21621585, "link" : "/api/reference/21621585", "label" : "18. Bathgate 2018: Insomnia, Short Sleep Duration, and High Blood Pressure: Recent Evidence and Future Directions for the Prevention and Management of Hypertension., Curr Hypertens Rep., 20, p. 52, DOI: 10.1007/s11906-018-0850-6", "listPosition" : 18, "doi" : "10.1007/s11906-018-0850-6", "published" : false, "snippet" : true }, { "otype" : "Reference", "mtid" : 21621586, "link" : "/api/reference/21621586", "label" : "19. Baschieri 2019: Circadian rhythms of cardiovascular autonomic function: physiology and clinical implications in neurodegenerative diseases., Auton. Neurosci., 217, p. 91, DOI: 10.1016/j.autneu.2019.01.009", "listPosition" : 19, "doi" : "10.1016/j.autneu.2019.01.009", "published" : false, "snippet" : true }, { "otype" : "Reference", "mtid" : 21621587, "link" : "/api/reference/21621587", "label" : "20. Bazil 2003: Epilepsy and sleep disturbance., Epilepsy Behav, 4, p. 39, DOI: 10.1016/j.yebeh.2003.07.005", "listPosition" : 20, "doi" : "10.1016/j.yebeh.2003.07.005", "published" : false, "snippet" : true }, { "otype" : "Reference", "mtid" : 21621588, "link" : "/api/reference/21621588", "label" : "21. Belcastro 2007: Levetiracetam monotherapy in Alzheimer patients with late-onset seizures: a prospective observational study., Eur J Neurol., 14, p. 1176, DOI: 10.1111/j.1468-1331.2007.01907.x", "listPosition" : 21, "doi" : "10.1111/j.1468-1331.2007.01907.x", "published" : false, "snippet" : true }, { "otype" : "Reference", "mtid" : 21621589, "link" : "/api/reference/21621589", "label" : "22. Bell 2002: The effects of levetiracetam on objective and subjective sleep parameters in healthy volunteers and patients with partial epilepsy., J Sleep Res., 11, p. 255, DOI: 10.1046/j.1365-2869.2002.00301.x", "listPosition" : 22, "doi" : "10.1046/j.1365-2869.2002.00301.x", "published" : false, "snippet" : true }, { "otype" : "Reference", "mtid" : 21621590, "link" : "/api/reference/21621590", "label" : "23. Bellesi 2017: Sleep Loss Promotes Astrocytic Phagocytosis and Microglial Activation in Mouse Cerebral Cortex., J Neurosci., 37, p. 5263, DOI: 10.1523/JNEUROSCI.3981-16.2017", "listPosition" : 23, "doi" : "10.1523/JNEUROSCI.3981-16.2017", "published" : false, "snippet" : true }, { "otype" : "Reference", "mtid" : 21621591, "link" : "/api/reference/21621591", "label" : "24. Bellesi 2013: Effects of sleep and wake on oligodendrocytes and their precursors., J Neurosci., 33, p. 14288, DOI: 10.1523/JNEUROSCI.5102-12.2013", "listPosition" : 24, "doi" : "10.1523/JNEUROSCI.5102-12.2013", "published" : false, "snippet" : true }, { "otype" : "Reference", "mtid" : 21621592, "link" : "/api/reference/21621592", "label" : "25. Benveniste 2016: Neurobiol Dis., 93, p. 215", "listPosition" : 25, "published" : false, "snippet" : true }, { "otype" : "Reference", "mtid" : 21621593, "link" : "/api/reference/21621593", "label" : "26. Friedman 2012: Seizures and epilepsy in Alzheimer’s disease., CNS Neurosci Ther., 18, p. 285, DOI: 10.1111/j.1755-5949.2011.00251.x", "listPosition" : 26, "doi" : "10.1111/j.1755-5949.2011.00251.x", "published" : false, "snippet" : true }, { "otype" : "Reference", "mtid" : 21621594, "link" : "/api/reference/21621594", "label" : "27. Benussi 2021: Exposure to gamma tACS in Alzheimer’s disease: A randomized, double-blind, sham-controlled, crossover, pilot study., Brain Stimul., 14, p. 531, DOI: 10.1016/j.brs.2021.03.007", "listPosition" : 27, "doi" : "10.1016/j.brs.2021.03.007", "published" : false, "snippet" : true }, { "otype" : "Reference", "mtid" : 21621595, "link" : "/api/reference/21621595", "label" : "28. Betts 2019: Locus coeruleus imaging as a biomarker for noradrenergic dysfunction in neurodegenerative diseases., Brain, 142, p. 2558, DOI: 10.1093/brain/awz193", "listPosition" : 28, "doi" : "10.1093/brain/awz193", "published" : false, "snippet" : true }, { "otype" : "Reference", "mtid" : 21621596, "link" : "/api/reference/21621596", "label" : "29. Bliwise 1993: Sleep in normal aging and dementia., Sleep, 16, p. 40, DOI: 10.1093/sleep/16.1.40", "listPosition" : 29, "doi" : "10.1093/sleep/16.1.40", "published" : false, "snippet" : true }, { "otype" : "Reference", "mtid" : 21621597, "link" : "/api/reference/21621597", "label" : "30. Boespflug 2018: The Emerging Relationship Between Interstitial Fluid-Cerebrospinal Fluid Exchange, Amyloid-β, and Sleep., Biol Psychiatry., 83, p. 328, DOI: 10.1016/j.biopsych.2017.11.031", "listPosition" : 30, "doi" : "10.1016/j.biopsych.2017.11.031", "published" : false, "snippet" : true }, { "otype" : "Reference", "mtid" : 21621598, "link" : "/api/reference/21621598", "label" : "31. Born 2015: Seizures in Alzheimer’s disease., Neuroscience., 286, p. 251, DOI: 10.1016/j.neuroscience.2014.11.051", "listPosition" : 31, "doi" : "10.1016/j.neuroscience.2014.11.051", "published" : false, "snippet" : true }, { "otype" : "Reference", "mtid" : 21621599, "link" : "/api/reference/21621599", "label" : "32. Born 2014: Genetic suppression of transgenic APP rescues hypersynchronous network activity in a mouse model of Alzeimer’s disease., J Neurosci., 34, p. 3826, DOI: 10.1523/JNEUROSCI.5171-13.2014", "listPosition" : 32, "doi" : "10.1523/JNEUROSCI.5171-13.2014", "published" : false, "snippet" : true }, { "otype" : "Reference", "mtid" : 21621600, "link" : "/api/reference/21621600", "label" : "33. Borodovitsyna 2017: Noradrenergic Modulation of Cognition in Health and Disease., Neural Plast., DOI: 10.1155/2017/6031478", "listPosition" : 33, "doi" : "10.1155/2017/6031478", "published" : false, "snippet" : true }, { "otype" : "Reference", "mtid" : 21621601, "link" : "/api/reference/21621601", "label" : "34. Borza 2014: A review on the cause-effect relationship between oxidative stress and toxic proteins in the pathogenesis of neurodegenerative diseases., Rev Med Chir Soc Med Nat Iasi., 118, p. 19", "listPosition" : 34, "published" : false, "snippet" : true }, { "otype" : "Reference", "mtid" : 21621602, "link" : "/api/reference/21621602", "label" : "35. Bouchard-Cannon 2013: The circadian molecular clock regulates adult hippocampal neurogenesis by controlling the timing of cell-cycle entry and exit., Cell Rep., 5, p. 961, DOI: 10.1016/j.celrep.2013.10.037", "listPosition" : 35, "doi" : "10.1016/j.celrep.2013.10.037", "published" : false, "snippet" : true }, { "otype" : "Reference", "mtid" : 21621603, "link" : "/api/reference/21621603", "label" : "36. Braak 1991: Neuropathological staging of Alzheimer-related changes., Acta Neuropathol., 82, p. 239, DOI: 10.1007/BF00308809", "listPosition" : 36, "doi" : "10.1007/BF00308809", "published" : false, "snippet" : true }, { "otype" : "Reference", "mtid" : 21621604, "link" : "/api/reference/21621604", "label" : "37. Braak 2011: Alzheimer’s pathogenesis: is there neuron-to-neuron propagation?., Acta Neuropathol., 121, p. 589, DOI: 10.1007/s00401-011-0825-z", "listPosition" : 37, "doi" : "10.1007/s00401-011-0825-z", "published" : false, "snippet" : true }, { "otype" : "Reference", "mtid" : 21621605, "link" : "/api/reference/21621605", "label" : "38. Branca 2014: Administration of a selective β2 adrenergic receptor antagonist exacerbates neuropathology and cognitive deficits in a mouse model of Alzheimer's disease., Neurobiol Aging., 35, p. 2726, DOI: 10.1016/j.neurobiolaging.2014.06.011", "listPosition" : 38, "doi" : "10.1016/j.neurobiolaging.2014.06.011", "published" : false, "snippet" : true }, { "otype" : "Reference", "mtid" : 21621606, "link" : "/api/reference/21621606", "label" : "39. Bredow 1996: Diurnal variations of tumor necrosis factor alpha mrna and alpha-tubulin mRNA in rat brain., Neuroimmunomodulation. Neuroreport., 7, p. 2501, DOI: 10.1097/00001756-199611040-00020", "listPosition" : 39, "doi" : "10.1097/00001756-199611040-00020", "published" : false, "snippet" : true }, { "otype" : "Reference", "mtid" : 21621607, "link" : "/api/reference/21621607", "label" : "40. Brunner 1993: Repeated partial sleep deprivation progressively changes the EEG during sleep and wakefulness., Sleep, 16, p. 100, DOI: 10.1093/sleep/16.2.100", "listPosition" : 40, "doi" : "10.1093/sleep/16.2.100", "published" : false, "snippet" : true }, { "otype" : "Reference", "mtid" : 21621608, "link" : "/api/reference/21621608", "label" : "41. Busche 2012: Critical role of soluble amyloid-β for early hippocampal hyperactivity in a mouse model of Alzheimer’s disease., Proc Natl Acad Sci U S A., 109, p. 8740, DOI: 10.1073/pnas.1206171109", "listPosition" : 41, "doi" : "10.1073/pnas.1206171109", "published" : false, "snippet" : true }, { "otype" : "Reference", "mtid" : 21621609, "link" : "/api/reference/21621609", "label" : "42. Busche 2015: Neuronal hyperactivity-A key defect in Alzheimer’s disease?., Bioessays., 37, p. 624, DOI: 10.1002/bies.201500004", "listPosition" : 42, "doi" : "10.1002/bies.201500004", "published" : false, "snippet" : true }, { "otype" : "Reference", "mtid" : 21621610, "link" : "/api/reference/21621610", "label" : "43. Busche 2016: Mechanisms of Alzheimer’s Disease: Neuronal Hyperactivity and Hypoactivity as New Therapeutic Targets., Nervenarzt, 87, p. 1163, DOI: 10.1007/s00115-015-0041-5", "listPosition" : 43, "doi" : "10.1007/s00115-015-0041-5", "published" : false, "snippet" : true }, { "otype" : "Reference", "mtid" : 21621611, "link" : "/api/reference/21621611", "label" : "44. Busche 2019: Tau Suppresses Neuronal Activity in Vivo., Even Before Tangles Form. Brain., 142, p. 843", "listPosition" : 44, "published" : false, "snippet" : true }, { "otype" : "Reference", "mtid" : 21621612, "link" : "/api/reference/21621612", "label" : "45. Busche 2019: Tau Impairs Neural Circuits, Dominating Amyloid-β Effects, in Alzheimer Models in Vivo., Nat Neurosci., 22, p. 57, DOI: 10.1038/s41593-018-0289-8", "listPosition" : 45, "doi" : "10.1038/s41593-018-0289-8", "published" : false, "snippet" : true }, { "otype" : "Reference", "mtid" : 21621613, "link" : "/api/reference/21621613", "label" : "46. Buzsáki 1998: Memory consolidation during sleep: a neurophysiological perspective., J Sleep Res., 7, p. 17, DOI: 10.1046/j.1365-2869.7.s1.3.x", "listPosition" : 46, "doi" : "10.1046/j.1365-2869.7.s1.3.x", "published" : false, "snippet" : true }, { "otype" : "Reference", "mtid" : 21621614, "link" : "/api/reference/21621614", "label" : "47. Buzsáki 2002: Theta oscillations in the hippocampus., Neuron, 33, p. 325, DOI: 10.1016/S0896-6273(02)00586-X", "listPosition" : 47, "doi" : "10.1016/S0896-6273(02)00586-X", "published" : false, "snippet" : true }, { "otype" : "Reference", "mtid" : 21621615, "link" : "/api/reference/21621615", "label" : "48. Brettschneider 2015: Spreading of pathology in neurodegenerative diseases: a focus on human studies., Nat Rev Neurosci., 16, p. 109, DOI: 10.1038/nrn3887", "listPosition" : 48, "doi" : "10.1038/nrn3887", "published" : false, "snippet" : true }, { "otype" : "Reference", "mtid" : 21621616, "link" : "/api/reference/21621616", "label" : "49. Canolty 2010: The functional role of cross-frequency coupling., Trends Cogn Sci., 14, p. 506, DOI: 10.1016/j.tics.2010.09.001", "listPosition" : 49, "doi" : "10.1016/j.tics.2010.09.001", "published" : false, "snippet" : true }, { "otype" : "Reference", "mtid" : 21621617, "link" : "/api/reference/21621617", "label" : "50. Cappuccio 2011: Sleep duration predicts cardiovascular outcomes: a systematic review and meta-analysis of prospective studies., Eur Heart J., 32, p. 1484, DOI: 10.1093/eurheartj/ehr007", "listPosition" : 50, "doi" : "10.1093/eurheartj/ehr007", "published" : false, "snippet" : true }, { "otype" : "Reference", "mtid" : 21621618, "link" : "/api/reference/21621618", "label" : "51. Castano-Prat 2019: Altered slow (1 Hz) and fast (beta and gamma) neocortical oscillations in the 3xTg-AD mouse model of Alzheimer’s disease under anesthesia., Neurobiol Aging., 79, p. 142, DOI: 10.1016/j.neurobiolaging.2019.02.009", "listPosition" : 51, "doi" : "10.1016/j.neurobiolaging.2019.02.009", "published" : false, "snippet" : true }, { "otype" : "Reference", "mtid" : 21621619, "link" : "/api/reference/21621619", "label" : "52. Chauhan 2019: Association between autophagy and rapid eye movement sleep loss-associated neurodegenerative and patho-physio-behavioral changes., Sleep Med., 63, p. 29, DOI: 10.1016/j.sleep.2019.04.019", "listPosition" : 52, "doi" : "10.1016/j.sleep.2019.04.019", "published" : false, "snippet" : true }, { "otype" : "Reference", "mtid" : 21621620, "link" : "/api/reference/21621620", "label" : "53. Caviness 2004: Myoclonus: current concepts and recent advances., Lancet Neurol., 3, p. 598, DOI: 10.1016/S1474-4422(04)00880-4", "listPosition" : 53, "doi" : "10.1016/S1474-4422(04)00880-4", "published" : false, "snippet" : true }, { "otype" : "Reference", "mtid" : 21621621, "link" : "/api/reference/21621621", "label" : "54. Cedernaes 2017: Candidate mechanisms underlying the association between sleep-wake disruptions and Alzheimer’s disease., Sleep Med Rev, 31, p. 102, DOI: 10.1016/j.smrv.2016.02.002", "listPosition" : 54, "doi" : "10.1016/j.smrv.2016.02.002", "published" : false, "snippet" : true }, { "otype" : "Reference", "mtid" : 21621622, "link" : "/api/reference/21621622", "label" : "55. Chen 2010: Correlated memory defects and hippocampal dendritic spine loss after acute stress involve corticotropin-releasing hormone signaling., Proc Natl Acad Sci U S A, 107", "listPosition" : 55, "published" : false, "snippet" : true }, { "otype" : "Reference", "mtid" : 21621623, "link" : "/api/reference/21621623", "label" : "56. Chen 2017: KCC2 downregulation facilitates epileptic seizures., Sci Rep., 7, p. 156, DOI: 10.1038/s41598-017-00196-7", "listPosition" : 56, "doi" : "10.1038/s41598-017-00196-7", "published" : false, "snippet" : true }, { "otype" : "Reference", "mtid" : 21621624, "link" : "/api/reference/21621624", "label" : "57. Cirelli 2004: Extensive and divergent effects of sleep and wakefulness on brain gene expression., Neuron, 41, p. 35, DOI: 10.1016/S0896-6273(03)00814-6", "listPosition" : 57, "doi" : "10.1016/S0896-6273(03)00814-6", "published" : false, "snippet" : true }, { "otype" : "Reference", "mtid" : 21621625, "link" : "/api/reference/21621625", "label" : "58. Cirelli 2005: Sleep and wakefulness modulate gene expression in Drosophila., J Neurochem., 94, p. 1411, DOI: 10.1111/j.1471-4159.2005.03291.x", "listPosition" : 58, "doi" : "10.1111/j.1471-4159.2005.03291.x", "published" : false, "snippet" : true }, { "otype" : "Reference", "mtid" : 21621626, "link" : "/api/reference/21621626", "label" : "59. Clawson 2018: Sleep Promotes, and Sleep Loss Inhibits, Selective Changes in Firing Rate, Response Properties and Functional Connectivity of Primary Visual Cortex Neurons., Front Syst Neurosci., 12, p. 40, DOI: 10.3389/fnsys.2018.00040", "listPosition" : 59, "doi" : "10.3389/fnsys.2018.00040", "published" : false, "snippet" : true }, { "otype" : "Reference", "mtid" : 21621627, "link" : "/api/reference/21621627", "label" : "60. Clements-Cortes 2016: Short-Term Effects of Rhythmic Sensory Stimulation in Alzheimer’s Disease: An Exploratory Pilot Study., J Alzheimers Dis., 52, p. 651, DOI: 10.3233/JAD-160081", "listPosition" : 60, "doi" : "10.3233/JAD-160081", "published" : false, "snippet" : true }, { "otype" : "Reference", "mtid" : 21621628, "link" : "/api/reference/21621628", "label" : "61. Clinton 2011: Biochemical Regulation of Sleep and Sleep Biomarkers., J Clin Sleep Med., 7, p. S38, DOI: 10.5664/JCSM.1360", "listPosition" : 61, "doi" : "10.5664/JCSM.1360", "published" : false, "snippet" : true }, { "otype" : "Reference", "mtid" : 21621629, "link" : "/api/reference/21621629", "label" : "62. Cloyd 2006: Epilepsy Res., 68, p. S39, DOI: 10.1016/j.eplepsyres.2005.07.016", "listPosition" : 62, "doi" : "10.1016/j.eplepsyres.2005.07.016", "published" : false, "snippet" : true }, { "otype" : "Reference", "mtid" : 21621630, "link" : "/api/reference/21621630", "label" : "63. Correia 2015: Inflammation Induces TDP-43 Mislocalization and Aggregation., PLoS One., 10, DOI: 10.1371/journal.pone.0140248", "listPosition" : 63, "doi" : "10.1371/journal.pone.0140248", "published" : false, "snippet" : true }, { "otype" : "Reference", "mtid" : 21621631, "link" : "/api/reference/21621631", "label" : "64. Cohen 2002: On the origin of interictal activity in human temporal lobe epilepsy in vitro., Science., 298, p. 1418, DOI: 10.1126/science.1076510", "listPosition" : 64, "doi" : "10.1126/science.1076510", "published" : false, "snippet" : true }, { "otype" : "Reference", "mtid" : 21621632, "link" : "/api/reference/21621632", "label" : "65. Coronas-Samano 2016: Fus1 KO Mouse As a Model of Oxidative Stress-Mediated Sporadic Alzheimer’s Disease: Circadian Disruption and Long-Term Spatial and Olfactory Memory Impairments., Front Aging Neurosci., 8, p. 268, DOI: 10.3389/fnagi.2016.00268", "listPosition" : 65, "doi" : "10.3389/fnagi.2016.00268", "published" : false, "snippet" : true }, { "otype" : "Reference", "mtid" : 21621633, "link" : "/api/reference/21621633", "label" : "66. Cretin 2018: Pharmacotherapeutic strategies for treating epilepsy in patients with Alzheimer’s disease., Expert Opin Pharmacother., 19, p. 1201, DOI: 10.1080/14656566.2018.1496237", "listPosition" : 66, "doi" : "10.1080/14656566.2018.1496237", "published" : false, "snippet" : true }, { "otype" : "Reference", "mtid" : 21621634, "link" : "/api/reference/21621634", "label" : "67. Cretin 2016: Epileptic Prodromal Alzheimer’s Disease, a Retrospective Study of 13 New Cases: Expanding the Spectrum of Alzheimer’s Disease to an Epileptic Variant?., J Alzheimers Dis., 52, p. 1125, DOI: 10.3233/JAD-150096", "listPosition" : 67, "doi" : "10.3233/JAD-150096", "published" : false, "snippet" : true }, { "otype" : "Reference", "mtid" : 21621635, "link" : "/api/reference/21621635", "label" : "68. Cretin 2018: Pharmacotherapeutic strategies for treating epilepsy in patients with Alzheimer’s disease., Expert Opin. Pharmacother., 19, p. 1201, DOI: 10.1080/14656566.2018.1496237", "listPosition" : 68, "doi" : "10.1080/14656566.2018.1496237", "published" : false, "snippet" : true }, { "otype" : "Reference", "mtid" : 21621636, "link" : "/api/reference/21621636", "label" : "69. Csicsvari 1999: Fast network oscillations in the hippocampal CA1 region of the behaving rat., J Neurosci., 19, p. RC20, DOI: 10.1523/JNEUROSCI.19-16-j0001.1999", "listPosition" : 69, "doi" : "10.1523/JNEUROSCI.19-16-j0001.1999", "published" : false, "snippet" : true }, { "otype" : "Reference", "mtid" : 21621637, "link" : "/api/reference/21621637", "label" : "70. Cumbo 2010: Levetiracetam, lamotrigine, and phenobarbital in patients with epileptic seizures and Alzheimer’s disease., Epilepsy Behav., 17, p. 461, DOI: 10.1016/j.yebeh.2010.01.015", "listPosition" : 70, "doi" : "10.1016/j.yebeh.2010.01.015", "published" : false, "snippet" : true }, { "otype" : "Reference", "mtid" : 21621638, "link" : "/api/reference/21621638", "label" : "71. Cummings 2009: Alterations in cortical excitation and inhibition in genetic mouse models of Huntington’s disease., J Neurosci., 29, p. 10371, DOI: 10.1523/JNEUROSCI.1592-09.2009", "listPosition" : 71, "doi" : "10.1523/JNEUROSCI.1592-09.2009", "published" : false, "snippet" : true }, { "otype" : "Reference", "mtid" : 21621639, "link" : "/api/reference/21621639", "label" : "72. Cummings 2013: Molecular pathways: MERTK signaling in cancer., Clin Cancer Res., 19, p. 5275, DOI: 10.1158/1078-0432.CCR-12-1451", "listPosition" : 72, "doi" : "10.1158/1078-0432.CCR-12-1451", "published" : false, "snippet" : true }, { "otype" : "Reference", "mtid" : 21621640, "link" : "/api/reference/21621640", "label" : "73. Dagher 2015: Colony-stimulating factor 1 receptor inhibition prevents microglial plaque association and improves cognition in 3xTg-AD mice., Neuroinflammation., 1, p. 139, DOI: 10.1186/s12974-015-0366-9", "listPosition" : 73, "doi" : "10.1186/s12974-015-0366-9", "published" : false, "snippet" : true }, { "otype" : "Reference", "mtid" : 21621641, "link" : "/api/reference/21621641", "label" : "74. Dai 2015: Long-term total sleep deprivation decreases the default spontaneous activity and connectivity pattern in healthy male subjects: a resting-state fMRI study., Neuropsychiatr Dis Treat., 11, p. 761, DOI: 10.2147/NDT.S78335", "listPosition" : 74, "doi" : "10.2147/NDT.S78335", "published" : false, "snippet" : true }, { "otype" : "Reference", "mtid" : 21621642, "link" : "/api/reference/21621642", "label" : "75. Dai 2018: Plasticity and Susceptibility of Brain Morphometry Alterations to Insufficient Sleep., Front Psychiatry., 27, p. 266, DOI: 10.3389/fpsyt.2018.00266", "listPosition" : 75, "doi" : "10.3389/fpsyt.2018.00266", "published" : false, "snippet" : true }, { "otype" : "Reference", "mtid" : 21621643, "link" : "/api/reference/21621643", "label" : "76. Derchansky 2008: Transition to seizures in the isolated immature mouse hippocampus: a switch from dominant phasic inhibition to dominant phasic excitation., J Physiol., 586, p. 477, DOI: 10.1113/jphysiol.2007.143065", "listPosition" : 76, "doi" : "10.1113/jphysiol.2007.143065", "published" : false, "snippet" : true }, { "otype" : "Reference", "mtid" : 21621644, "link" : "/api/reference/21621644", "label" : "77. DeVos 2013: Antisense reduction of tau in adult mice protects against seizures., J Neurosci., 33, p. 12887, DOI: 10.1523/JNEUROSCI.2107-13.2013", "listPosition" : 77, "doi" : "10.1523/JNEUROSCI.2107-13.2013", "published" : false, "snippet" : true }, { "otype" : "Reference", "mtid" : 21621645, "link" : "/api/reference/21621645", "label" : "78. de Weerd 2004: Subjective sleep disturbance in patients with partial epilepsy: a questionnaire‐based study on prevalence and impact on quality of life., Epilepsia, 45, p. 1397, DOI: 10.1111/j.0013-9580.2004.46703.x", "listPosition" : 78, "doi" : "10.1111/j.0013-9580.2004.46703.x", "published" : false, "snippet" : true }, { "otype" : "Reference", "mtid" : 21621646, "link" : "/api/reference/21621646", "label" : "79. Di Meco 2014: Sleep deprivation impairs memory, tau metabolism, and synaptic integrity of a mouse model of Alzheimer’s disease with plaques and tangles., Neurobiol Aging., 35, p. 1813, DOI: 10.1016/j.neurobiolaging.2014.02.011", "listPosition" : 79, "doi" : "10.1016/j.neurobiolaging.2014.02.011", "published" : false, "snippet" : true }, { "otype" : "Reference", "mtid" : 21621647, "link" : "/api/reference/21621647", "label" : "80. Dinocourt 2003: Loss of interneurons innervating pyramidal cell dendrites and axon initial segments in the CA1 region of the hippocampus following pilocarpine-induced seizures., J Comp Neurol., 459, p. 407, DOI: 10.1002/cne.10622", "listPosition" : 80, "doi" : "10.1002/cne.10622", "published" : false, "snippet" : true }, { "otype" : "Reference", "mtid" : 21621648, "link" : "/api/reference/21621648", "label" : "81. Diekelmann 2010: The memory function of sleep., Nat Rev Neurosci., 11, p. 114, DOI: 10.1038/nrn2762", "listPosition" : 81, "doi" : "10.1038/nrn2762", "published" : false, "snippet" : true }, { "otype" : "Reference", "mtid" : 21621649, "link" : "/api/reference/21621649", "label" : "82. Duncan 2020: Interacting influences of aging and Alzheimer’s disease on circadian rhythms., Eur J Neurosci., 51, p. 310, DOI: 10.1111/ejn.14358", "listPosition" : 82, "doi" : "10.1111/ejn.14358", "published" : false, "snippet" : true }, { "otype" : "Reference", "mtid" : 21621650, "link" : "/api/reference/21621650", "label" : "83. Cappuccio 2010: Sleep duration and all-cause mortality: a systematic review and meta-analysis of prospective studies., Sleep., 33, p. 585, DOI: 10.1093/sleep/33.5.585", "listPosition" : 83, "doi" : "10.1093/sleep/33.5.585", "published" : false, "snippet" : true }, { "otype" : "Reference", "mtid" : 21621651, "link" : "/api/reference/21621651", "label" : "84. Duy 2020: KCC2 for disorders of neuronal hyperexcitability., Expert Opin Ther Targets., 24, p. 629, DOI: 10.1080/14728222.2020.1762174", "listPosition" : 84, "doi" : "10.1080/14728222.2020.1762174", "published" : false, "snippet" : true }, { "otype" : "Reference", "mtid" : 21621652, "link" : "/api/reference/21621652", "label" : "85. East 2018: Human Apolipoprotein E Genotype Differentially Affects Olfactory Behavior and Sensory Physiology in Mice., Neuroscience., 380, p. 103, DOI: 10.1016/j.neuroscience.2018.04.009", "listPosition" : 85, "doi" : "10.1016/j.neuroscience.2018.04.009", "published" : false, "snippet" : true }, { "otype" : "Reference", "mtid" : 21621653, "link" : "/api/reference/21621653", "label" : "86. Eikelenboom 2002: Neuroinflammation in Alzheimer’s disease and prion disease., Glia., 40, p. 232, DOI: 10.1002/glia.10146", "listPosition" : 86, "doi" : "10.1002/glia.10146", "published" : false, "snippet" : true }, { "otype" : "Reference", "mtid" : 21621654, "link" : "/api/reference/21621654", "label" : "87. Elmore 2018: Replacement of microglia in the aged brain reverses cognitive, synaptic, and neuronal deficits in mice., Aging Cell., 17, p. e12832, DOI: 10.1111/acel.12832", "listPosition" : 87, "doi" : "10.1111/acel.12832", "published" : false, "snippet" : true }, { "otype" : "Reference", "mtid" : 21621655, "link" : "/api/reference/21621655", "label" : "88. Epsztein 2006: Ongoing epileptiform activity in the post-ischemic hippocampus is associated with a permanent shift of the excitatory-inhibitory synaptic balance in CA3 pyramidal neurons., J Neurosci., 26, p. 7082, DOI: 10.1523/JNEUROSCI.1666-06.2006", "listPosition" : 88, "doi" : "10.1523/JNEUROSCI.1666-06.2006", "published" : false, "snippet" : true }, { "otype" : "Reference", "mtid" : 21621656, "link" : "/api/reference/21621656", "label" : "89. España 2006: Organization of noradrenergic efferents to arousal-related basal forebrain structures., J Comp Neurol., 496, p. 668, DOI: 10.1002/cne.20946", "listPosition" : 89, "doi" : "10.1002/cne.20946", "published" : false, "snippet" : true }, { "otype" : "Reference", "mtid" : 21621657, "link" : "/api/reference/21621657", "label" : "90. Favero 2018: A Transient Developmental Window of Fast-Spiking Interneuron Dysfunction in a Mouse Model of Dravet Syndrome., J Neurosci., 38, p. 7912, DOI: 10.1523/JNEUROSCI.0193-18.2018", "listPosition" : 90, "doi" : "10.1523/JNEUROSCI.0193-18.2018", "published" : false, "snippet" : true }, { "otype" : "Reference", "mtid" : 21621658, "link" : "/api/reference/21621658", "label" : "91. Fernandez-Mendoza 2010: Insomnia with Objective Short Sleep Duration is Associated with Deficits in Neuropsychological Performance: A General Population Study., Sleep, 33, DOI: 10.1093/sleep/33.4.459", "listPosition" : 91, "doi" : "10.1093/sleep/33.4.459", "published" : false, "snippet" : true }, { "otype" : "Reference", "mtid" : 21621659, "link" : "/api/reference/21621659", "label" : "92. Fernandez-Mendoza 2020: Objective short sleep duration increases the risk of all-cause mortality associated with possible vascular cognitive impairment., Sleep Health., 6, p. 71, DOI: 10.1016/j.sleh.2019.09.003", "listPosition" : 92, "doi" : "10.1016/j.sleh.2019.09.003", "published" : false, "snippet" : true }, { "otype" : "Reference", "mtid" : 21621660, "link" : "/api/reference/21621660", "label" : "93. Ferreyra-Moyano 1989: The olfactory system and Alzheimer’s disease., Int J Neurosci., 49, p. 157, DOI: 10.3109/00207458909084824", "listPosition" : 93, "doi" : "10.3109/00207458909084824", "published" : false, "snippet" : true }, { "otype" : "Reference", "mtid" : 21621661, "link" : "/api/reference/21621661", "label" : "94. Fifel 2020: Circadian alterations in patients with neurodegenerative diseases: Neuropathological basis of underlying network mechanism., Neurobiol Dis., 144, DOI: 10.1016/j.nbd.2020.105029", "listPosition" : 94, "doi" : "10.1016/j.nbd.2020.105029", "published" : false, "snippet" : true }, { "otype" : "Reference", "mtid" : 21621662, "link" : "/api/reference/21621662", "label" : "95. Foldvary 2001: The effects of lamotrigine on sleep in patients with epilepsy., Eplepsia., 42, p. 1569, DOI: 10.1046/j.1528-1157.2001.46100.x", "listPosition" : 95, "doi" : "10.1046/j.1528-1157.2001.46100.x", "published" : false, "snippet" : true }, { "otype" : "Reference", "mtid" : 21621663, "link" : "/api/reference/21621663", "label" : "96. Funk 2017: Role of Somatostatin-Positive Cortical Interneurons in the Generation of Sleep Slow Waves., J Neurosci., 37, p. 9132, DOI: 10.1523/JNEUROSCI.1303-17.2017", "listPosition" : 96, "doi" : "10.1523/JNEUROSCI.1303-17.2017", "published" : false, "snippet" : true }, { "otype" : "Reference", "mtid" : 21621664, "link" : "/api/reference/21621664", "label" : "97. Freund 2007: Perisomatic inhibition., Neuron., 56, p. 33, DOI: 10.1016/j.neuron.2007.09.012", "listPosition" : 97, "doi" : "10.1016/j.neuron.2007.09.012", "published" : false, "snippet" : true }, { "otype" : "Reference", "mtid" : 21621665, "link" : "/api/reference/21621665", "label" : "98. Gureviciene 2019: Characterization of Epileptic Spiking Associated With Brain Amyloidosis in APP/PS1 Mice., Front Neurol., 12, p. 1151, DOI: 10.3389/fneur.2019.01151", "listPosition" : 98, "doi" : "10.3389/fneur.2019.01151", "published" : false, "snippet" : true }, { "otype" : "Reference", "mtid" : 21621666, "link" : "/api/reference/21621666", "label" : "99. Gagnon 2013: Chloride extrusion enhancers as novel therapeutics for neurological diseases., Nat Med., 19, p. 1524, DOI: 10.1038/nm.3356", "listPosition" : 99, "doi" : "10.1038/nm.3356", "published" : false, "snippet" : true }, { "otype" : "Reference", "mtid" : 21621667, "link" : "/api/reference/21621667", "label" : "100. Gamble 2020: The dual orexinergic receptor antagonist DORA-22 improves the sleep disruption and memory impairment produced by a rodent insomnia model., Sleep., 43, p. zsz241", "listPosition" : 100, "published" : false, "snippet" : true }, { "otype" : "Reference", "mtid" : 21621668, "link" : "/api/reference/21621668", "label" : "101. Gally 2004: Neural reapportionment: an hypothesis to account for the function of sleep., C R Biol., 327, p. 721, DOI: 10.1016/j.crvi.2004.05.009", "listPosition" : 101, "doi" : "10.1016/j.crvi.2004.05.009", "published" : false, "snippet" : true }, { "otype" : "Reference", "mtid" : 21621669, "link" : "/api/reference/21621669", "label" : "102. Geng 2018: Blood-brain barrier disruption induced cognitive impairment is associated with increase of inflammatory cytokine., Front Aging Neurosci., 10, p. 129, DOI: 10.3389/fnagi.2018.00129", "listPosition" : 102, "doi" : "10.3389/fnagi.2018.00129", "published" : false, "snippet" : true }, { "otype" : "Reference", "mtid" : 21621670, "link" : "/api/reference/21621670", "label" : "103. Gheyara 2014: Tau reduction prevents disease in a mouse model of Dravet syndrome., Ann Neurol., 76, p. 443, DOI: 10.1002/ana.24230", "listPosition" : 103, "doi" : "10.1002/ana.24230", "published" : false, "snippet" : true }, { "otype" : "Reference", "mtid" : 21621671, "link" : "/api/reference/21621671", "label" : "104. Golde 2011: Anti-Ab therapeutics in Alzheimer’s disease: The need for a paradigm shift., Neuron, 69, p. 203, DOI: 10.1016/j.neuron.2011.01.002", "listPosition" : 104, "doi" : "10.1016/j.neuron.2011.01.002", "published" : false, "snippet" : true }, { "otype" : "Reference", "mtid" : 21621672, "link" : "/api/reference/21621672", "label" : "105. Gołaszewska 2019: Bridging the Gap between Alzheimer’s Disease and Alzheimer’s-like Diseases in Animals., Int J Mol Sci., 20, DOI: 10.3390/ijms20071664", "listPosition" : 105, "doi" : "10.3390/ijms20071664", "published" : false, "snippet" : true }, { "otype" : "Reference", "mtid" : 21621673, "link" : "/api/reference/21621673", "label" : "106. Gomez-Murcia 2020: Hyperexcitability and seizures in the THY-Tau22 mouse model of tauopathy., Neurobiol Aging., 94, p. 265, DOI: 10.1016/j.neurobiolaging.2020.06.004", "listPosition" : 106, "doi" : "10.1016/j.neurobiolaging.2020.06.004", "published" : false, "snippet" : true }, { "otype" : "Reference", "mtid" : 21621674, "link" : "/api/reference/21621674", "label" : "107. Gomez-Gonzalez 2013: REM sleep loss and recovery regulates blood-brain barrier function., Curr Neurovasc Res., 10, p. 197, DOI: 10.2174/15672026113109990002", "listPosition" : 107, "doi" : "10.2174/15672026113109990002", "published" : false, "snippet" : true }, { "otype" : "Reference", "mtid" : 21621675, "link" : "/api/reference/21621675", "label" : "108. Goutagny 2013: Alterations in hippocampal network oscillations and theta-gamma coupling arise before Abeta overproduction in a mouse modelof Alzheimer’s disease., Eur. J. Neurosci., 37, p. 1896, DOI: 10.1111/ejn.12233", "listPosition" : 108, "doi" : "10.1111/ejn.12233", "published" : false, "snippet" : true }, { "otype" : "Reference", "mtid" : 21621676, "link" : "/api/reference/21621676", "label" : "109. Grigg-Damberger 2014: Sleep disorders in adults with epilepsy: past, present, and future directions., Curr Opin Pulm Med., 20, p. 542, DOI: 10.1097/MCP.0000000000000101", "listPosition" : 109, "doi" : "10.1097/MCP.0000000000000101", "published" : false, "snippet" : true }, { "otype" : "Reference", "mtid" : 21621677, "link" : "/api/reference/21621677", "label" : "110. Gulyás 2015: Generation of physiological and pathological high frequency oscillations: the role of perisomatic inhibition in sharp-wave ripple and interictal spike generation., Curr Opin Neurobiol., 31, p. 26, DOI: 10.1016/j.conb.2014.07.020", "listPosition" : 110, "doi" : "10.1016/j.conb.2014.07.020", "published" : false, "snippet" : true }, { "otype" : "Reference", "mtid" : 21621678, "link" : "/api/reference/21621678", "label" : "111. Gureviciene 2019: Characterization of Epileptic Spiking Associated With Brain Amyloidosis in APP/PS1 Mice., Front Neurol., 12, p. 1151, DOI: 10.3389/fneur.2019.01151", "listPosition" : 111, "doi" : "10.3389/fneur.2019.01151", "published" : false, "snippet" : true }, { "otype" : "Reference", "mtid" : 21621679, "link" : "/api/reference/21621679", "label" : "112. Hahn 2014: A change in sleep pattern may predict Alzheimer disease., Am J Geriatr Psychiatry., 22, p. 1262, DOI: 10.1016/j.jagp.2013.04.015", "listPosition" : 112, "doi" : "10.1016/j.jagp.2013.04.015", "published" : false, "snippet" : true }, { "otype" : "Reference", "mtid" : 21621680, "link" : "/api/reference/21621680", "label" : "113. Hall 2015: Tau-dependent Kv4.2 depletion and dendritic hyperexcitability in a mouse model of Alzheimer’s disease., J Neurosci., 35, p. 6221, DOI: 10.1523/JNEUROSCI.2552-14.2015", "listPosition" : 113, "doi" : "10.1523/JNEUROSCI.2552-14.2015", "published" : false, "snippet" : true }, { "otype" : "Reference", "mtid" : 21621681, "link" : "/api/reference/21621681", "label" : "114. Hassainia 1997: Quantitative EEG and statistical mapping of wakefulness and REM sleep in the evaluation of mild to moderate Alzheimer’s disease., Eur Neurol., 37, p. 219, DOI: 10.1159/000117446", "listPosition" : 114, "doi" : "10.1159/000117446", "published" : false, "snippet" : true }, { "otype" : "Reference", "mtid" : 21621682, "link" : "/api/reference/21621682", "label" : "115. Harris 2020: Tipping the Scales: Peptide-Dependent Dysregulation of Neural Circuit Dynamics in Alzheimer’s Disease., Neuron., 107, p. 417, DOI: 10.1016/j.neuron.2020.06.005", "listPosition" : 115, "doi" : "10.1016/j.neuron.2020.06.005", "published" : false, "snippet" : true }, { "otype" : "Reference", "mtid" : 21621683, "link" : "/api/reference/21621683", "label" : "116. Hatfield 2004: Disrupted daily activity/rest cycles in relation to daily cortisol rhythms of home-dwelling patients with early Alzheimer’s dementia., Brain., 127, p. 1061, DOI: 10.1093/brain/awh129", "listPosition" : 116, "doi" : "10.1093/brain/awh129", "published" : false, "snippet" : true }, { "otype" : "Reference", "mtid" : 21621684, "link" : "/api/reference/21621684", "label" : "117. Hatch 2017: Hyperphosphorylated Tau Causes Reduced Hippocampal CA1 Excitability by Relocating the Axon Initial Segment., Acta Neuropathol., 133, p. 717, DOI: 10.1007/s00401-017-1674-1", "listPosition" : 117, "doi" : "10.1007/s00401-017-1674-1", "published" : false, "snippet" : true }, { "otype" : "Reference", "mtid" : 21621685, "link" : "/api/reference/21621685", "label" : "118. Hartmann 1997: Twenty-four hour cortisol release profiles in patients with Alzheimer’s and Parkinson’s disease compared to normal controls: ultradian secretory pulsatility and diurnal variation., Neurobiol Aging., 18, p. 285, DOI: 10.1016/S0197-4580(97)80309-0", "listPosition" : 118, "doi" : "10.1016/S0197-4580(97)80309-0", "published" : false, "snippet" : true }, { "otype" : "Reference", "mtid" : 21621686, "link" : "/api/reference/21621686", "label" : "119. Havekes 2016: Sleep deprivation causes memory deficits by negatively impacting neuronal connectivity in hippocampal area CA1., Elife, p. 5", "listPosition" : 119, "published" : false, "snippet" : true }, { "otype" : "Reference", "mtid" : 21621687, "link" : "/api/reference/21621687", "label" : "120. He 2014: Sleep restriction impairs blood-brain barrier function., J Neurosci Off J Soc Neurosci., 34, p. 14697, DOI: 10.1523/JNEUROSCI.2111-14.2014", "listPosition" : 120, "doi" : "10.1523/JNEUROSCI.2111-14.2014", "published" : false, "snippet" : true }, { "otype" : "Reference", "mtid" : 21621688, "link" : "/api/reference/21621688", "label" : "121. Hedrich 2014: Impaired action potential initiation in GABAergic interneurons causes hyperexcitable networks in an epileptic mouse model carrying a human Na(V)1.1 mutation., J Neurosci., 34, p. 14874, DOI: 10.1523/JNEUROSCI.0721-14.2014", "listPosition" : 121, "doi" : "10.1523/JNEUROSCI.0721-14.2014", "published" : false, "snippet" : true }, { "otype" : "Reference", "mtid" : 21621689, "link" : "/api/reference/21621689", "label" : "122. Heneka 2018: Inflammasome signalling in brain function and neurodegenerative disease., Nat Rev Neurosci., 19, p. 610, DOI: 10.1038/s41583-018-0055-7", "listPosition" : 122, "doi" : "10.1038/s41583-018-0055-7", "published" : false, "snippet" : true }, { "otype" : "Reference", "mtid" : 21621690, "link" : "/api/reference/21621690", "label" : "123. Heneka 2010: Locus ceruleus controls Alzheimer’s disease pathology by modulating microglial functions through norepinephrine., Proc. Natl. Acad. Sci. U. S. A., 107, p. 6058, DOI: 10.1073/pnas.0909586107", "listPosition" : 123, "doi" : "10.1073/pnas.0909586107", "published" : false, "snippet" : true }, { "otype" : "Reference", "mtid" : 21621691, "link" : "/api/reference/21621691", "label" : "124. Herring 2020: Polysomnographic Assessment of Suvorexant in Patients With Probable Alzheimer’s Disease Dementia and Insomnia: A Randomized Trial., Alzheimers Dement., 16, p. 541, DOI: 10.1002/alz.12035", "listPosition" : 124, "doi" : "10.1002/alz.12035", "published" : false, "snippet" : true }, { "otype" : "Reference", "mtid" : 21621692, "link" : "/api/reference/21621692", "label" : "125. Herrup 2015: The case for rejecting the amyloid cascade hypothesis., Nat Neurosci., 18, p. 794, DOI: 10.1038/nn.4017", "listPosition" : 125, "doi" : "10.1038/nn.4017", "published" : false, "snippet" : true }, { "otype" : "Reference", "mtid" : 21621693, "link" : "/api/reference/21621693", "label" : "126. Hijazi 2020: Early restoration of parvalbumin interneuron activity prevents memory loss and network hyperexcitability in a mouse model of Alzheimer’s disease., Mol Psychiatry., 25, p. 3380, DOI: 10.1038/s41380-019-0483-4", "listPosition" : 126, "doi" : "10.1038/s41380-019-0483-4", "published" : false, "snippet" : true }, { "otype" : "Reference", "mtid" : 21621694, "link" : "/api/reference/21621694", "label" : "127. Hijazi 2020: Hyperexcitable Parvalbumin Interneurons Render Hippocampal Circuitry Vulnerable to Amyloid Beta., iScience., 23, DOI: 10.1016/j.isci.2020.101271", "listPosition" : 127, "doi" : "10.1016/j.isci.2020.101271", "published" : false, "snippet" : true }, { "otype" : "Reference", "mtid" : 21621695, "link" : "/api/reference/21621695", "label" : "128. Hita-Yañez 2013: Polysomnographic and subjective sleep markers of mild cognitive impairment., Sleep, 36, p. 1327, DOI: 10.5665/sleep.2956", "listPosition" : 128, "doi" : "10.5665/sleep.2956", "published" : false, "snippet" : true }, { "otype" : "Reference", "mtid" : 21621696, "link" : "/api/reference/21621696", "label" : "129. Hita-Yanez 2012: Disturbed sleep patterns in elders with mild cognitive impairment: the role of memory decline and ApoE epsilon4 genotype., Curr Alzheimer Res, 9, p. 290, DOI: 10.2174/156720512800107609", "listPosition" : 129, "doi" : "10.2174/156720512800107609", "published" : false, "snippet" : true }, { "otype" : "Reference", "mtid" : 21621697, "link" : "/api/reference/21621697", "label" : "130. Holth 2017: Altered sleep and EEG power in the P301S Tau transgenic mouse model., Ann Clin Transl Neurol., 4, p. 180, DOI: 10.1002/acn3.390", "listPosition" : 130, "doi" : "10.1002/acn3.390", "published" : false, "snippet" : true }, { "otype" : "Reference", "mtid" : 21621698, "link" : "/api/reference/21621698", "label" : "131. Holth 2013: Tau loss attenuates neuronal network hyperexcitability in mouse and Drosophila genetic models of epilepsy., J Neurosci., 33, p. 1651, DOI: 10.1523/JNEUROSCI.3191-12.2013", "listPosition" : 131, "doi" : "10.1523/JNEUROSCI.3191-12.2013", "published" : false, "snippet" : true }, { "otype" : "Reference", "mtid" : 21621699, "link" : "/api/reference/21621699", "label" : "132. Holth 2019: The sleep-wake cycle regulates brain interstitial fluid tau in mice and CSF tau in humans., Science, 363, p. 880, DOI: 10.1126/science.aav2546", "listPosition" : 132, "doi" : "10.1126/science.aav2546", "published" : false, "snippet" : true }, { "otype" : "Reference", "mtid" : 21621700, "link" : "/api/reference/21621700", "label" : "133. Horváth 2016: Epileptic Seizures in Alzheimer Disease: A Review. Among authors: szucs A., barcs G.., Alzheimer Dis Assoc Disord., 30, p. 186, DOI: 10.1097/WAD.0000000000000134", "listPosition" : 133, "doi" : "10.1097/WAD.0000000000000134", "published" : false, "snippet" : true }, { "otype" : "Reference", "mtid" : 21621701, "link" : "/api/reference/21621701", "label" : "134. Horváth 2017: Interictal Epileptiform Activity in the Foramen Ovale Electrodes of a Frontotemporal Dementia Patient., J Alzheimers Dis Rep., 1, p. 89, DOI: 10.3233/ADR-170020", "listPosition" : 134, "doi" : "10.3233/ADR-170020", "published" : false, "snippet" : true }, { "otype" : "Reference", "mtid" : 21621702, "link" : "/api/reference/21621702", "label" : "135. Hoover 2010: Tau mislocalization to dendritic spines mediates synaptic dysfunction independently of neurodegeneration., Neuron., 68, p. 1067, DOI: 10.1016/j.neuron.2010.11.030", "listPosition" : 135, "doi" : "10.1016/j.neuron.2010.11.030", "published" : false, "snippet" : true }, { "otype" : "Reference", "mtid" : 21621703, "link" : "/api/reference/21621703", "label" : "136. Horváth 2017: Sleep EEG Detects Epileptiform Activity in Alzheimer’s Disease with High Sensitivity., J Alzheimers Dis., 56, p. 1175, DOI: 10.3233/JAD-160994", "listPosition" : 136, "doi" : "10.3233/JAD-160994", "published" : false, "snippet" : true }, { "otype" : "Reference", "mtid" : 21621704, "link" : "/api/reference/21621704", "label" : "137. Huberfeld 2011: Glutamatergic pre-ictal discharges emerge at the transition to seizure in human epilepsy., Nat Neurosci., 14, p. 627, DOI: 10.1038/nn.2790", "listPosition" : 137, "doi" : "10.1038/nn.2790", "published" : false, "snippet" : true }, { "otype" : "Reference", "mtid" : 21621705, "link" : "/api/reference/21621705", "label" : "138. Huberfeld 2007: Perturbed chloride homeostasis and GABAergic signaling in human temporal lobe epilepsy., J Neurosci., 27, p. 9866, DOI: 10.1523/JNEUROSCI.2761-07.2007", "listPosition" : 138, "doi" : "10.1523/JNEUROSCI.2761-07.2007", "published" : false, "snippet" : true }, { "otype" : "Reference", "mtid" : 21621706, "link" : "/api/reference/21621706", "label" : "139. Iaccarino 2016: Gamma frequency entrainment attenuates amyloid load and modifies microglia., Nature, 540, p. 230, DOI: 10.1038/nature20587", "listPosition" : 139, "doi" : "10.1038/nature20587", "published" : false, "snippet" : true }, { "otype" : "Reference", "mtid" : 21621707, "link" : "/api/reference/21621707", "label" : "140. Iliff 2012: A paravascular pathway facilitates CSF flow through the brain parenchyma and the clearance of interstitial solutes., including amyloid beta. Sci Transl Med, 4", "listPosition" : 140, "published" : false, "snippet" : true }, { "otype" : "Reference", "mtid" : 21621708, "link" : "/api/reference/21621708", "label" : "141. Irwin 2019: Implications of Sleep Disturbance and Inflammation for Alzheimer’s Disease Dementia., Lancet Neurol., 18, p. 296, DOI: 10.1016/S1474-4422(18)30450-2", "listPosition" : 141, "doi" : "10.1016/S1474-4422(18)30450-2", "published" : false, "snippet" : true }, { "otype" : "Reference", "mtid" : 21621709, "link" : "/api/reference/21621709", "label" : "142. Ittner 2010: Dendritic function of tau mediates amyloid-beta toxicity in Alzheimer’s disease mouse models., Cell., 142, p. 387, DOI: 10.1016/j.cell.2010.06.036", "listPosition" : 142, "doi" : "10.1016/j.cell.2010.06.036", "published" : false, "snippet" : true }, { "otype" : "Reference", "mtid" : 21621710, "link" : "/api/reference/21621710", "label" : "143. Isomura 2006: Integration and segregation of activity in entorhinal-hippocampal subregions by neocortical slow oscillations., Neuron., 52, p. 871, DOI: 10.1016/j.neuron.2006.10.023", "listPosition" : 143, "doi" : "10.1016/j.neuron.2006.10.023", "published" : false, "snippet" : true }, { "otype" : "Reference", "mtid" : 21621711, "link" : "/api/reference/21621711", "label" : "144. Jain 2014: Effects of epilepsy treatments on sleep architecture and daytime sleepiness: an evidence-based review of objective sleep metrics., Epilepsia., 55, p. 26, DOI: 10.1111/epi.12478", "listPosition" : 144, "doi" : "10.1111/epi.12478", "published" : false, "snippet" : true }, { "otype" : "Reference", "mtid" : 21621712, "link" : "/api/reference/21621712", "label" : "145. Jardanhazi-Kurutz 2010: Induced LC degeneration in APP/PS1 transgenic mice accelerates early cerebral amyloidosis and cognitive deficits., Neurochem. Int., 57, p. 375, DOI: 10.1016/j.neuint.2010.02.001", "listPosition" : 145, "doi" : "10.1016/j.neuint.2010.02.001", "published" : false, "snippet" : true }, { "otype" : "Reference", "mtid" : 21621713, "link" : "/api/reference/21621713", "label" : "146. Jin 2017: Diurnal Fluctuations in Plasma Hydrogen Sulfide of the Mice., Front Pharmacol., 8, p. 682, DOI: 10.3389/fphar.2017.00682", "listPosition" : 146, "doi" : "10.3389/fphar.2017.00682", "published" : false, "snippet" : true }, { "otype" : "Reference", "mtid" : 21621714, "link" : "/api/reference/21621714", "label" : "147. Ju 2017: Slow wave sleep disruption increases cerebrospinal fluid amyloid-β levels., Brain, 140, p. 2104, DOI: 10.1093/brain/awx148", "listPosition" : 147, "doi" : "10.1093/brain/awx148", "published" : false, "snippet" : true }, { "otype" : "Reference", "mtid" : 21621715, "link" : "/api/reference/21621715", "label" : "148. Ju 2013: Sleep quality and preclinical Alzheimer disease., JAMA Neurol., 70, p. 587, DOI: 10.1001/jamaneurol.2013.2334", "listPosition" : 148, "doi" : "10.1001/jamaneurol.2013.2334", "published" : false, "snippet" : true }, { "otype" : "Reference", "mtid" : 21621716, "link" : "/api/reference/21621716", "label" : "149. Kam 2016: Interictal spikes during sleep are an early defect in the Tg2576 mouse model of β-amyloid neuropathology., Sci Rep., 6, p. 20119, DOI: 10.1038/srep20119", "listPosition" : 149, "doi" : "10.1038/srep20119", "published" : false, "snippet" : true }, { "otype" : "Reference", "mtid" : 21621717, "link" : "/api/reference/21621717", "label" : "150. Kang 2009: Amyloid-beta dynamics are regulated by orexin and the sleep-wake cycle., Science, 326, p. 1005, DOI: 10.1126/science.1180962", "listPosition" : 150, "doi" : "10.1126/science.1180962", "published" : false, "snippet" : true }, { "otype" : "Reference", "mtid" : 21621718, "link" : "/api/reference/21621718", "label" : "151. Kang 2009: Amyloid-beta dynamics are regulated by orexin and the sleep-wake cycle., Science, 326, p. 1005, DOI: 10.1126/science.1180962", "listPosition" : 151, "doi" : "10.1126/science.1180962", "published" : false, "snippet" : true }, { "otype" : "Reference", "mtid" : 21621719, "link" : "/api/reference/21621719", "label" : "152. Karunanayaka 2017: Default mode network deactivation during odor-visual association., Hum Brain Mapp., 38, p. 1125, DOI: 10.1002/hbm.23440", "listPosition" : 152, "doi" : "10.1002/hbm.23440", "published" : false, "snippet" : true }, { "otype" : "Reference", "mtid" : 21621720, "link" : "/api/reference/21621720", "label" : "153. Kastanenka 2017: Optogenetic Restoration of Disrupted Slow Oscillations Halts Amyloid Deposition and Restores Calcium Homeostasis in an Animal Model of Alzheimer’s Disease., PLoS One., 12, DOI: 10.1371/journal.pone.0170275", "listPosition" : 153, "doi" : "10.1371/journal.pone.0170275", "published" : false, "snippet" : true }, { "otype" : "Reference", "mtid" : 21621721, "link" : "/api/reference/21621721", "label" : "154. Kapsimalis 2005: Cytokines and normal sleep., Curr Opin Pulm Med., 11, p. 481, DOI: 10.1097/01.mcp.0000183062.98665.6b", "listPosition" : 154, "doi" : "10.1097/01.mcp.0000183062.98665.6b", "published" : false, "snippet" : true }, { "otype" : "Reference", "mtid" : 21621722, "link" : "/api/reference/21621722", "label" : "155. Karlócai 2016: Enhanced expression of potassium-chloride cotransporter KCC2 in human temporal lobe epilepsy., Brain Struct Funct., 221, p. 3601, DOI: 10.1007/s00429-015-1122-8", "listPosition" : 155, "doi" : "10.1007/s00429-015-1122-8", "published" : false, "snippet" : true }, { "otype" : "Reference", "mtid" : 21621723, "link" : "/api/reference/21621723", "label" : "156. Kehrer 2008: Altered Excitatory-Inhibitory Balance in the NMDA-Hypofunction Model of Schizophrenia., Front Mol Neurosci., 8, p. 6", "listPosition" : 156, "published" : false, "snippet" : true }, { "otype" : "Reference", "mtid" : 21621724, "link" : "/api/reference/21621724", "label" : "157. Kent 2020: Sleep and its Regulation: An Emerging Pathogenic and Treatment Frontier in Alzheimer’s disease., Prog Neurobiol.", "listPosition" : 157, "published" : false, "snippet" : true }, { "otype" : "Reference", "mtid" : 21621725, "link" : "/api/reference/21621725", "label" : "158. Kim 2007: BACE1 regulates voltage-gated sodium channels and neuronal activity., Nat Cell Biol., 9, p. 755, DOI: 10.1038/ncb1602", "listPosition" : 158, "doi" : "10.1038/ncb1602", "published" : false, "snippet" : true }, { "otype" : "Reference", "mtid" : 21621726, "link" : "/api/reference/21621726", "label" : "159. Kim 2015: The Role of Oxidative Stress in Neurodegenerative Diseases., Exp Neurobiol., 24, p. 325, DOI: 10.5607/en.2015.24.4.325", "listPosition" : 159, "doi" : "10.5607/en.2015.24.4.325", "published" : false, "snippet" : true }, { "otype" : "Reference", "mtid" : 21621727, "link" : "/api/reference/21621727", "label" : "160. Klohs 2019: An Integrated View on Vascular Dysfunction in Alzheimer’s Disease., Neurodegener Dis., 19, p. 109, DOI: 10.1159/000505625", "listPosition" : 160, "doi" : "10.1159/000505625", "published" : false, "snippet" : true }, { "otype" : "Reference", "mtid" : 21621728, "link" : "/api/reference/21621728", "label" : "161. Kam 2016: Interictal spikes during sleep are an early defect in the Tg2576 mouse model of β-amyloid neuropathology., Sci Rep., p. 20119, DOI: 10.1038/srep20119", "listPosition" : 161, "doi" : "10.1038/srep20119", "published" : false, "snippet" : true }, { "otype" : "Reference", "mtid" : 21621729, "link" : "/api/reference/21621729", "label" : "162. Kent 2018: Sleep and EEG Power Spectral Analysis in Three Transgenic Mouse Models of Alzheimer’s Disease: APP/PS1, 3xTgAD, and Tg2576., J Alzheimers Dis., 64, p. 1325, DOI: 10.3233/JAD-180260", "listPosition" : 162, "doi" : "10.3233/JAD-180260", "published" : false, "snippet" : true }, { "otype" : "Reference", "mtid" : 21621730, "link" : "/api/reference/21621730", "label" : "163. Kondratova 2012: The circadian clock and pathology of the ageing brain., Nat Rev Neurosci., 13, p. 325, DOI: 10.1038/nrn3208", "listPosition" : 163, "doi" : "10.1038/nrn3208", "published" : false, "snippet" : true }, { "otype" : "Reference", "mtid" : 21621731, "link" : "/api/reference/21621731", "label" : "164. Kress 2014: Impairment of paravascular clearance pathways in the aging brain., Ann Neurol., 76, p. 845, DOI: 10.1002/ana.24271", "listPosition" : 164, "doi" : "10.1002/ana.24271", "published" : false, "snippet" : true }, { "otype" : "Reference", "mtid" : 21621732, "link" : "/api/reference/21621732", "label" : "165. Krueger 2008: The role of cytokines in sleep regulation., Curr Pharm Des., 14, p. 3408, DOI: 10.2174/138161208786549281", "listPosition" : 165, "doi" : "10.2174/138161208786549281", "published" : false, "snippet" : true }, { "otype" : "Reference", "mtid" : 21621733, "link" : "/api/reference/21621733", "label" : "166. Koban 2005: Chronic REM-sleep deprivation of rats elevates metabolic rate and increases UCP1 gene expression in brown adipose tissue., Am J Physiol Endocrinol Metab., 289, p. E68, DOI: 10.1152/ajpendo.00543.2004", "listPosition" : 166, "doi" : "10.1152/ajpendo.00543.2004", "published" : false, "snippet" : true }, { "otype" : "Reference", "mtid" : 21621734, "link" : "/api/reference/21621734", "label" : "167. Krantic 2012: Hippocampal GABAergic neurons are susceptible to amyloid-β toxicity in vitro and are decreased in number in the Alzheimer’s disease TgCRND8 mouse model., J Alzheimers Dis., 29, p. 293, DOI: 10.3233/JAD-2011-110830", "listPosition" : 167, "doi" : "10.3233/JAD-2011-110830", "published" : false, "snippet" : true }, { "otype" : "Reference", "mtid" : 21621735, "link" : "/api/reference/21621735", "label" : "168. Krook-Magnuson 2013: On-demand optogenetic control of spontaneous seizures in temporal lobe epilepsy., Nat Commun., 4, p. 1376, DOI: 10.1038/ncomms2376", "listPosition" : 168, "doi" : "10.1038/ncomms2376", "published" : false, "snippet" : true }, { "otype" : "Reference", "mtid" : 21621736, "link" : "/api/reference/21621736", "label" : "169. Ladas 2015: Seizure reduction through interneuron-mediated entrainment using low frequency optical stimulation., Exp Neurol., 269, p. 120, DOI: 10.1016/j.expneurol.2015.04.001", "listPosition" : 169, "doi" : "10.1016/j.expneurol.2015.04.001", "published" : false, "snippet" : true }, { "otype" : "Reference", "mtid" : 21621737, "link" : "/api/reference/21621737", "label" : "170. Lagostena 2010: In the adult hippocampus, chronic nerve growth factor deprivation shifts GABAergic signaling from the hyperpolarizing to the depolarizing direction., J Neurosci., 30, p. 885, DOI: 10.1523/JNEUROSCI.3326-09.2010", "listPosition" : 170, "doi" : "10.1523/JNEUROSCI.3326-09.2010", "published" : false, "snippet" : true }, { "otype" : "Reference", "mtid" : 21621738, "link" : "/api/reference/21621738", "label" : "171. Lalancette-Hébert 2009: Live imaging of Toll-like receptor 2 response in cerebral ischaemia reveals a role of olfactory bulb microglia as modulators of inflammation., Brain, 132, p. 940, DOI: 10.1093/brain/awn345", "listPosition" : 171, "doi" : "10.1093/brain/awn345", "published" : false, "snippet" : true }, { "otype" : "Reference", "mtid" : 21621739, "link" : "/api/reference/21621739", "label" : "172. Lam 2017: Silent hippocampal seizures and spikes identified by foramen ovale electrodes in Alzheimer’s disease., Nat Med., 23, p. 678, DOI: 10.1038/nm.4330", "listPosition" : 172, "doi" : "10.1038/nm.4330", "published" : false, "snippet" : true }, { "otype" : "Reference", "mtid" : 21621740, "link" : "/api/reference/21621740", "label" : "173. Lancel 1999: Role of GABAA receptors in the regulation of sleep: initial sleep responses to peripherally administered modulators and agonists., Sleep., 22, p. 33, DOI: 10.1093/sleep/22.1.33", "listPosition" : 173, "doi" : "10.1093/sleep/22.1.33", "published" : false, "snippet" : true }, { "otype" : "Reference", "mtid" : 21621741, "link" : "/api/reference/21621741", "label" : "174. Lanigar 2017: Sleep and Epilepsy: A Complex Interplay., Mo Med., 114, p. 453", "listPosition" : 174, "published" : false, "snippet" : true }, { "otype" : "Reference", "mtid" : 21621742, "link" : "/api/reference/21621742", "label" : "175. Lapenna 1992: Circadian variations in antioxidant defences and lipid peroxidation in the rat heart., Free Radic Res Commun., 17, p. 187, DOI: 10.3109/10715769209068165", "listPosition" : 175, "doi" : "10.3109/10715769209068165", "published" : false, "snippet" : true }, { "otype" : "Reference", "mtid" : 21621743, "link" : "/api/reference/21621743", "label" : "176. Lauterborn 2021: Increased excitatory to inhibitory synaptic ratio in parietal cortex samples from individuals with Alzheimer’s disease., Nat Commun., 12, p. 2603, DOI: 10.1038/s41467-021-22742-8", "listPosition" : 176, "doi" : "10.1038/s41467-021-22742-8", "published" : false, "snippet" : true }, { "otype" : "Reference", "mtid" : 21621744, "link" : "/api/reference/21621744", "label" : "177. Leibetseder 2009: Clock genes display rhythmic expression in human hearts., Chronobiol. Int., 26, p. 621, DOI: 10.1080/07420520902924939", "listPosition" : 177, "doi" : "10.1080/07420520902924939", "published" : false, "snippet" : true }, { "otype" : "Reference", "mtid" : 21621745, "link" : "/api/reference/21621745", "label" : "178. Lasztoczi 2009: Synchronization of GABAergic inputs to CA3 pyramidal cells precedes seizure-like event onset in juvenile rat hippocampal slices., J Neurophysiol., 102, p. 2538, DOI: 10.1152/jn.91318.2008", "listPosition" : 178, "doi" : "10.1152/jn.91318.2008", "published" : false, "snippet" : true }, { "otype" : "Reference", "mtid" : 21621746, "link" : "/api/reference/21621746", "label" : "179. Ledri 2014: Global optogenetic activation of inhibitory interneurons during epileptiform activity., J Neurosci., 34, p. 3364, DOI: 10.1523/JNEUROSCI.2734-13.2014", "listPosition" : 179, "doi" : "10.1523/JNEUROSCI.2734-13.2014", "published" : false, "snippet" : true }, { "otype" : "Reference", "mtid" : 21621747, "link" : "/api/reference/21621747", "label" : "180. Lee 2020: Individually customized transcranial temporal interference stimulation for focused modulation of deep brain structures: A simulation study with different head models., Sci. Rep., 10, p. 11730, DOI: 10.1038/s41598-020-68660-5", "listPosition" : 180, "doi" : "10.1038/s41598-020-68660-5", "published" : false, "snippet" : true }, { "otype" : "Reference", "mtid" : 21621748, "link" : "/api/reference/21621748", "label" : "181. Legros 2003: Effects of antiepileptic drugs on sleep architecture: a pilot study., Sleep Med., 4, p. 51, DOI: 10.1016/s1389-9457(02)00217-4", "listPosition" : 181, "doi" : "10.1016/s1389-9457(02)00217-4", "published" : false, "snippet" : true }, { "otype" : "Reference", "mtid" : 21621749, "link" : "/api/reference/21621749", "label" : "182. Leng 2019: Association between circadian rhythms and neurodegenerative diseases., Lancet Neurol., 18, p. 307, DOI: 10.1016/S1474-4422(18)30461-7", "listPosition" : 182, "doi" : "10.1016/S1474-4422(18)30461-7", "published" : false, "snippet" : true }, { "otype" : "Reference", "mtid" : 21621750, "link" : "/api/reference/21621750", "label" : "183. Long 2019: Alzheimer Disease: An Update on Pathobiology and Treatment Strategies., Cell, 179, p. 312, DOI: 10.1016/j.cell.2019.09.001", "listPosition" : 183, "doi" : "10.1016/j.cell.2019.09.001", "published" : false, "snippet" : true }, { "otype" : "Reference", "mtid" : 21621751, "link" : "/api/reference/21621751", "label" : "184. Li 2017: REM sleep selectively prunes and maintains new synapses in development and learning., Nat Neurosci, 20, DOI: 10.1038/nn.4479", "listPosition" : 184, "doi" : "10.1038/nn.4479", "published" : false, "snippet" : true }, { "otype" : "Reference", "mtid" : 21621752, "link" : "/api/reference/21621752", "label" : "185. Li 2008: Long-term expressional changes of Na+ -K+ -Cl- co-transporter 1 (NKCC1) and K+ -Cl- co-transporter 2 (KCC2) in CA1 region of hippocampus following lithium-pilocarpine induced status epilepticus (PISE)., Brain Res., 1221, p. 141, DOI: 10.1016/j.brainres.2008.04.047", "listPosition" : 185, "doi" : "10.1016/j.brainres.2008.04.047", "published" : false, "snippet" : true }, { "otype" : "Reference", "mtid" : 21621753, "link" : "/api/reference/21621753", "label" : "186. Li 2014: Seizure resistance without parkinsonism in aged mice after tau reduction., Neurobiol Aging., 35, p. 2617, DOI: 10.1016/j.neurobiolaging.2014.05.001", "listPosition" : 186, "doi" : "10.1016/j.neurobiolaging.2014.05.001", "published" : false, "snippet" : true }, { "otype" : "Reference", "mtid" : 21621754, "link" : "/api/reference/21621754", "label" : "187. Liguori 2014: Placidi F Orexinergic system dysregulation, sleep impairment, and cognitive decline in Alzheimer disease., JAMA Neurol., 71, p. 1498, DOI: 10.1001/jamaneurol.2014.2510", "listPosition" : 187, "doi" : "10.1001/jamaneurol.2014.2510", "published" : false, "snippet" : true }, { "otype" : "Reference", "mtid" : 21621755, "link" : "/api/reference/21621755", "label" : "188. Iliff 2012: A paravascular pathway facilitates CSF flow through the brain parenchyma and the clearance of interstitial solutes, including amyloid β., Sci Transl Med, 4, DOI: 10.1126/scitranslmed.3003748", "listPosition" : 188, "doi" : "10.1126/scitranslmed.3003748", "published" : false, "snippet" : true }, { "otype" : "Reference", "mtid" : 21621756, "link" : "/api/reference/21621756", "label" : "189. Lillis 2012: Pyramidal cells accumulate chloride at seizure onset., Neurobiol Dis., 47, p. 358, DOI: 10.1016/j.nbd.2012.05.016", "listPosition" : 189, "doi" : "10.1016/j.nbd.2012.05.016", "published" : false, "snippet" : true }, { "otype" : "Reference", "mtid" : 21621757, "link" : "/api/reference/21621757", "label" : "190. Lim 2016: Regional Neocortical Gray Matter Structure and Sleep Fragmentation in Older Adul., Sleep., 39, p. 227, DOI: 10.5665/sleep.5354", "listPosition" : 190, "doi" : "10.5665/sleep.5354", "published" : false, "snippet" : true }, { "otype" : "Reference", "mtid" : 21621758, "link" : "/api/reference/21621758", "label" : "191. Lim 2013: Sleep fragmentation and the risk of incident Alzheimer’s disease and cognitive decline in older persons., Sleep, 36, p. 1027, DOI: 10.5665/sleep.2802", "listPosition" : 191, "doi" : "10.5665/sleep.2802", "published" : false, "snippet" : true }, { "otype" : "Reference", "mtid" : 21621759, "link" : "/api/reference/21621759", "label" : "192. Lim 2014: The sleep–wake cycle and Alzheimer’s disease: What do we know?., Neurodegen Dis Manag, 4, p. 351, DOI: 10.2217/nmt.14.33", "listPosition" : 192, "doi" : "10.2217/nmt.14.33", "published" : false, "snippet" : true }, { "otype" : "Reference", "mtid" : 21621760, "link" : "/api/reference/21621760", "label" : "193. Lippa 2010: Levetiracetam: A practical option for seizure management in elderly patients with cognitive impairment., Am. J. Alzheimer’s Dis. Other Demen., 25, p. 149, DOI: 10.1177/1533317508325095", "listPosition" : 193, "doi" : "10.1177/1533317508325095", "published" : false, "snippet" : true }, { "otype" : "Reference", "mtid" : 21621761, "link" : "/api/reference/21621761", "label" : "194. Liu 2017: Continuous theta burst stimulation facilitates the clearance efficiency of the glymphatic pathway in a mouse model of sleep deprivation., Neurosci Lett., 653, p. 189, DOI: 10.1016/j.neulet.2017.05.064", "listPosition" : 194, "doi" : "10.1016/j.neulet.2017.05.064", "published" : false, "snippet" : true }, { "otype" : "Reference", "mtid" : 21621762, "link" : "/api/reference/21621762", "label" : "195. Liu 2020: Beneficial effects of low-dose lithium on cognitive ability and pathological alteration of Alzheimer’s disease transgenic mice model., Neuroreport., 31, p. 943, DOI: 10.1097/WNR.0000000000001499", "listPosition" : 195, "doi" : "10.1097/WNR.0000000000001499", "published" : false, "snippet" : true }, { "otype" : "Reference", "mtid" : 21621763, "link" : "/api/reference/21621763", "label" : "196. Liu 2013: Decreased coherence between the two olfactory bulbs in Alzheimer’s disease model mice., Neurosci Lett., 545, p. 81, DOI: 10.1016/j.neulet.2013.04.023", "listPosition" : 196, "doi" : "10.1016/j.neulet.2013.04.023", "published" : false, "snippet" : true }, { "otype" : "Reference", "mtid" : 21621764, "link" : "/api/reference/21621764", "label" : "197. Liu 2020: Role of NKCC1 and KCC2 in Epilepsy: From Expression to Function., Front Neurol., 10, p. 1407, DOI: 10.3389/fneur.2019.01407", "listPosition" : 197, "doi" : "10.3389/fneur.2019.01407", "published" : false, "snippet" : true }, { "otype" : "Reference", "mtid" : 21621765, "link" : "/api/reference/21621765", "label" : "198. Liu 2020: Activation of Inflammation is Associated with Amyloid-β Accumulation Induced by Chronic Sleep Restriction in Rats., J Alzheimers Dis., 74, p. 759, DOI: 10.3233/JAD-191317", "listPosition" : 198, "doi" : "10.3233/JAD-191317", "published" : false, "snippet" : true }, { "otype" : "Reference", "mtid" : 21621766, "link" : "/api/reference/21621766", "label" : "199. Lliff 2012: A paravascular pathway facilitates CSF flow through the brain parenchyma and the clearance of interstitial solutes, including amyloid beta., Sci Transl Med, 4", "listPosition" : 199, "published" : false, "snippet" : true }, { "otype" : "Reference", "mtid" : 21621767, "link" : "/api/reference/21621767", "label" : "200. Lloret 2020: Is Sleep Disruption a Cause or Consequence of Alzheimer’s Disease? Reviewing Its Possible Role as a Biomarker., Int J Mol Sci., 21, p. 3, DOI: 10.3390/ijms21031168", "listPosition" : 200, "doi" : "10.3390/ijms21031168", "published" : false, "snippet" : true }, { "otype" : "Reference", "mtid" : 21621768, "link" : "/api/reference/21621768", "label" : "201. Lu 2019: Karunanayaka PR Disruptions of the olfactory and default mode networks in Alzheimer’s disease., Brain Behav., 9, DOI: 10.1002/brb3.1296", "listPosition" : 201, "doi" : "10.1002/brb3.1296", "published" : false, "snippet" : true }, { "otype" : "Reference", "mtid" : 21621769, "link" : "/api/reference/21621769", "label" : "202. Lu 2019: Functional Connectivity between the Resting-State Olfactory Network and the Hippocampus in Alzheimer’s Disease., Brain Sci., 9, p. 338, DOI: 10.3390/brainsci9120338", "listPosition" : 202, "doi" : "10.3390/brainsci9120338", "published" : false, "snippet" : true }, { "otype" : "Reference", "mtid" : 21621770, "link" : "/api/reference/21621770", "label" : "203. Lucey 2019: Reduced non-rapid eye movement sleep is associated with tau pathology in early Alzheimer’s disease., Sci Transl Med., 11, DOI: 10.1126/scitranslmed.aau6550", "listPosition" : 203, "doi" : "10.1126/scitranslmed.aau6550", "published" : false, "snippet" : true }, { "otype" : "Reference", "mtid" : 21621771, "link" : "/api/reference/21621771", "label" : "204. Lundgaard 2017: Glymphatic clearance controls state-dependent changes in brain lactate concentration., J Cereb Blood Flow Metab., 37, p. 2112, DOI: 10.1177/0271678X16661202", "listPosition" : 204, "doi" : "10.1177/0271678X16661202", "published" : false, "snippet" : true }, { "otype" : "Reference", "mtid" : 21621772, "link" : "/api/reference/21621772", "label" : "205. Macedo 2017: Is sleep disruption a risk factor for Alzheimer’s disease?., J Alzheimers Dis., 58, p. 993, DOI: 10.3233/JAD-161287", "listPosition" : 205, "doi" : "10.3233/JAD-161287", "published" : false, "snippet" : true }, { "otype" : "Reference", "mtid" : 21621773, "link" : "/api/reference/21621773", "label" : "206. Mackiewicz 2007: Macromolecule biosynthesis. a key function of sleep., Physiol Genomics, 31, p. 441, DOI: 10.1152/physiolgenomics.00275.2006", "listPosition" : 206, "doi" : "10.1152/physiolgenomics.00275.2006", "published" : false, "snippet" : true }, { "otype" : "Reference", "mtid" : 21621774, "link" : "/api/reference/21621774", "label" : "207. Mackiewicz 2009: What are microarrays teaching us about sleep?., Trends Mol Med., 15, p. 79, DOI: 10.1016/j.molmed.2008.12.002", "listPosition" : 207, "doi" : "10.1016/j.molmed.2008.12.002", "published" : false, "snippet" : true }, { "otype" : "Reference", "mtid" : 21621775, "link" : "/api/reference/21621775", "label" : "208. Maeda 2016: Expression of A152T human tau causes age-dependent neuronal dysfunction and loss in transgenic mice., EMBO Rep., 17, p. 530, DOI: 10.15252/embr.201541438", "listPosition" : 208, "doi" : "10.15252/embr.201541438", "published" : false, "snippet" : true }, { "otype" : "Reference", "mtid" : 21621776, "link" : "/api/reference/21621776", "label" : "209. Machii 2006: Safety of rTMS to non-motor cortical areas in healthy participants and patients., Clin. Neurophysiol., 117, p. 455, DOI: 10.1016/j.clinph.2005.10.014", "listPosition" : 209, "doi" : "10.1016/j.clinph.2005.10.014", "published" : false, "snippet" : true }, { "otype" : "Reference", "mtid" : 21621777, "link" : "/api/reference/21621777", "label" : "210. Maljevic 2008: Nervous system KV7 disorders: breakdown of a subthreshold brake., J Physiol., 586, p. 1791, DOI: 10.1113/jphysiol.2008.150656", "listPosition" : 210, "doi" : "10.1113/jphysiol.2008.150656", "published" : false, "snippet" : true }, { "otype" : "Reference", "mtid" : 21621778, "link" : "/api/reference/21621778", "label" : "211. Malow 2004: Sleep deprivation and epilepsy., Epilepsy Curr., 4, p. 193, DOI: 10.1111/j.1535-7597.2004.04509.x", "listPosition" : 211, "doi" : "10.1111/j.1535-7597.2004.04509.x", "published" : false, "snippet" : true }, { "otype" : "Reference", "mtid" : 21621779, "link" : "/api/reference/21621779", "label" : "212. Wallace 2018: Altered circadian rhythms and oscillation of clock genes and sirtuin 1 in a model of sudden unexpected death in epilepsy., Epilepsia., 59, p. 1527, DOI: 10.1111/epi.14513", "listPosition" : 212, "doi" : "10.1111/epi.14513", "published" : false, "snippet" : true }, { "otype" : "Reference", "mtid" : 21621780, "link" : "/api/reference/21621780", "label" : "213. Mander 2015: β-amyloid disrupts human NREM slow waves and related hippocampus-dependent memory consolidation., Nat Neurosci., 18, p. 1051, DOI: 10.1038/nn.4035", "listPosition" : 213, "doi" : "10.1038/nn.4035", "published" : false, "snippet" : true }, { "otype" : "Reference", "mtid" : 21621781, "link" : "/api/reference/21621781", "label" : "214. Mander 2016: Sleep: A Novel Mechanistic Pathway, Biomarker, and Treatment Target in the Pathology of Alzheimer’s Disease?., Trends Neurosci., 39, p. 552, DOI: 10.1016/j.tins.2016.05.002", "listPosition" : 214, "doi" : "10.1016/j.tins.2016.05.002", "published" : false, "snippet" : true }, { "otype" : "Reference", "mtid" : 21621782, "link" : "/api/reference/21621782", "label" : "215. Mander 2017: Sleep and Human Aging., Neuron., 94, p. 19, DOI: 10.1016/j.neuron.2017.02.004", "listPosition" : 215, "doi" : "10.1016/j.neuron.2017.02.004", "published" : false, "snippet" : true }, { "otype" : "Reference", "mtid" : 21621783, "link" : "/api/reference/21621783", "label" : "216. Mathangi 2012: Effect of REM sleep deprivation on the antioxidant status in the brain of Wistar rats., Ann Neurosci., 19, p. 161, DOI: 10.5214/ans.0972.7531.190405", "listPosition" : 216, "doi" : "10.5214/ans.0972.7531.190405", "published" : false, "snippet" : true }, { "otype" : "Reference", "mtid" : 21621784, "link" : "/api/reference/21621784", "label" : "217. Matos 2010: The relationship between sleep and epilepsy: evidence from clinical trials and animal models., J Neurol Sci., 295, p. 1, DOI: 10.1016/j.jns.2010.05.003", "listPosition" : 217, "doi" : "10.1016/j.jns.2010.05.003", "published" : false, "snippet" : true }, { "otype" : "Reference", "mtid" : 21621785, "link" : "/api/reference/21621785", "label" : "218. Matsubara 2003: Melatonin increases survival and inhibits oxidative and amyloid pathology in a transgenic model of Alzheimer’s disease., J. Neurochem., 85, p. 1101, DOI: 10.1046/j.1471-4159.2003.01654.x", "listPosition" : 218, "doi" : "10.1046/j.1471-4159.2003.01654.x", "published" : false, "snippet" : true }, { "otype" : "Reference", "mtid" : 21621786, "link" : "/api/reference/21621786", "label" : "219. Maret 2011: Sleep and waking modulate spine turnover in the adolescent mouse cortex., Nat Neurosci, 14", "listPosition" : 219, "published" : false, "snippet" : true }, { "otype" : "Reference", "mtid" : 21621787, "link" : "/api/reference/21621787", "label" : "220. Martin 2010: Altered function of the SCN1A voltagegated sodium channel leads to gamma-aminobutyric acid-ergic (GABAergic) interneuron abnormalities., J Biol Chem., 285, p. 9823, DOI: 10.1074/jbc.M109.078568", "listPosition" : 220, "doi" : "10.1074/jbc.M109.078568", "published" : false, "snippet" : true }, { "otype" : "Reference", "mtid" : 21621788, "link" : "/api/reference/21621788", "label" : "221. Martinez-Losa 2018: Nav1.1-Overexpressing Interneuron Transplants Restore Brain Rhythms and Cognition in a Mouse Model of Alzheimer’s Disease., Neuron., 98, DOI: 10.1016/j.neuron.2018.02.029", "listPosition" : 221, "doi" : "10.1016/j.neuron.2018.02.029", "published" : false, "snippet" : true }, { "otype" : "Reference", "mtid" : 21621789, "link" : "/api/reference/21621789", "label" : "222. Martorell 2019: Multi-sensory Gamma Stimulation Ameliorates Alzheimer’s-Associated Pathology and Improves Cognition., Cell, 177, DOI: 10.1016/j.cell.2019.02.014", "listPosition" : 222, "doi" : "10.1016/j.cell.2019.02.014", "published" : false, "snippet" : true }, { "otype" : "Reference", "mtid" : 21621790, "link" : "/api/reference/21621790", "label" : "223. Matos 2011: Sleep, epilepsy and translational research: what can we learn from the laboratory bench?., Prog Neurobiol., 95, p. 396, DOI: 10.1016/j.pneurobio.2011.09.006", "listPosition" : 223, "doi" : "10.1016/j.pneurobio.2011.09.006", "published" : false, "snippet" : true }, { "otype" : "Reference", "mtid" : 21621791, "link" : "/api/reference/21621791", "label" : "224. Matos 2013: Sleep and epilepsy: exploring an intriguing relationship with a translational approach., Epilepsy Behav., 26, p. 405, DOI: 10.1016/j.yebeh.2012.12.003", "listPosition" : 224, "doi" : "10.1016/j.yebeh.2012.12.003", "published" : false, "snippet" : true }, { "otype" : "Reference", "mtid" : 21621792, "link" : "/api/reference/21621792", "label" : "225. Maestri 2015: Non-rapid eye movement sleep instability in mild cognitive impairment: a pilot study., Sleep Med., 16, p. 1139, DOI: 10.1016/j.sleep.2015.04.027", "listPosition" : 225, "doi" : "10.1016/j.sleep.2015.04.027", "published" : false, "snippet" : true }, { "otype" : "Reference", "mtid" : 21621793, "link" : "/api/reference/21621793", "label" : "226. Most 2012: Discrepancy between subjective and objective sleep disturbances in early- and moderate-stage Alzheimer disease., Am J Geriatr Psychiatry., 20, p. 460, DOI: 10.1097/JGP.0b013e318252e3ff", "listPosition" : 226, "doi" : "10.1097/JGP.0b013e318252e3ff", "published" : false, "snippet" : true }, { "otype" : "Reference", "mtid" : 21621794, "link" : "/api/reference/21621794", "label" : "227. McCurry 1999: Characteristics of sleep disturbance in community-dwelling Alzheimer’s disease patients., J Geriatr Psychiatry Neurol., 12, p. 53, DOI: 10.1177/089198879901200203", "listPosition" : 227, "doi" : "10.1177/089198879901200203", "published" : false, "snippet" : true }, { "otype" : "Reference", "mtid" : 21621795, "link" : "/api/reference/21621795", "label" : "228. McCurry 2003: Sleep Dysfunction in Alzheimer’s Disease and Other Dementias., Curr Treat Options Neurol., 53, p. 261, DOI: 10.1007/s11940-003-0017-9", "listPosition" : 228, "doi" : "10.1007/s11940-003-0017-9", "published" : false, "snippet" : true }, { "otype" : "Reference", "mtid" : 21621796, "link" : "/api/reference/21621796", "label" : "229. Medina 2014: Current view on the functional regulation of the neuronal K(+)-Cl(-) cotransporter KCC2., Front Cell Neurosci., 8, p. 27, DOI: 10.3389/fncel.2014.00027", "listPosition" : 229, "doi" : "10.3389/fncel.2014.00027", "published" : false, "snippet" : true }, { "otype" : "Reference", "mtid" : 21621797, "link" : "/api/reference/21621797", "label" : "230. Mendes 2002: Transient epileptic amnesia: an under-diagnosed phenomenon? Three more cases., Seizure, 11, p. 238, DOI: 10.1053/seiz.2001.0587", "listPosition" : 230, "doi" : "10.1053/seiz.2001.0587", "published" : false, "snippet" : true }, { "otype" : "Reference", "mtid" : 21621798, "link" : "/api/reference/21621798", "label" : "231. Méndez 2001: Interactions between sleep and epilepsy., J Clin Neurophysiol., 18, p. 106, DOI: 10.1097/00004691-200103000-00003", "listPosition" : 231, "doi" : "10.1097/00004691-200103000-00003", "published" : false, "snippet" : true }, { "otype" : "Reference", "mtid" : 21621799, "link" : "/api/reference/21621799", "label" : "232. McLean 1989: Chemoanatomical organization of the noradrenergic input from locus coeruleus to the olfactory bulb of the adult rat., J. Comp. Neurol., 285, p. 339, DOI: 10.1002/cne.902850305", "listPosition" : 232, "doi" : "10.1002/cne.902850305", "published" : false, "snippet" : true }, { "otype" : "Reference", "mtid" : 21621800, "link" : "/api/reference/21621800", "label" : "233. Milán-Tomás 2018: Circadian Rhythms Disturbances in Alzheimer Disease: Current Concepts, Diagnosis, and Management., Alzheimer Dis Assoc Disord., 32, p. 162, DOI: 10.1097/WAD.0000000000000243", "listPosition" : 233, "doi" : "10.1097/WAD.0000000000000243", "published" : false, "snippet" : true }, { "otype" : "Reference", "mtid" : 21621801, "link" : "/api/reference/21621801", "label" : "234. Milhavet 2002: Oxidative stress and the prion protein in transmissible spongiform encephalopathies., Brain Res Brain Res Rev., 38, p. 328, DOI: 10.1016/S0165-0173(01)00150-3", "listPosition" : 234, "doi" : "10.1016/S0165-0173(01)00150-3", "published" : false, "snippet" : true }, { "otype" : "Reference", "mtid" : 21621802, "link" : "/api/reference/21621802", "label" : "235. Mölle 2006: Hippocampal sharp wave-ripples linked to slow oscillations in rat slow-wave sleep., J Neurophysiol., 96, p. 62, DOI: 10.1152/jn.00014.2006", "listPosition" : 235, "doi" : "10.1152/jn.00014.2006", "published" : false, "snippet" : true }, { "otype" : "Reference", "mtid" : 21621803, "link" : "/api/reference/21621803", "label" : "236. Mondragón-Rodríguez 2019: Functional Connectivity between Hippocampus and Lateral Septum is Affected in Very Young Alzheimer’s Transgenic Mouse Model., Neuroscience., 401, p. 96, DOI: 10.1016/j.neuroscience.2018.12.042", "listPosition" : 236, "doi" : "10.1016/j.neuroscience.2018.12.042", "published" : false, "snippet" : true }, { "otype" : "Reference", "mtid" : 21621804, "link" : "/api/reference/21621804", "label" : "237. Mongrain 2010: Separating the contribution of glucocorticoids and wakefulness to the molecular and electrophysiological correlates of sleep homeostasis., Sleep, 33, p. 1147, DOI: 10.1093/sleep/33.9.1147", "listPosition" : 237, "doi" : "10.1093/sleep/33.9.1147", "published" : false, "snippet" : true }, { "otype" : "Reference", "mtid" : 21621805, "link" : "/api/reference/21621805", "label" : "238. Montero 1995: Antidepressant and antimanic drugs.The Pharmacology of Sleep, p. 465", "listPosition" : 238, "published" : false, "snippet" : true }, { "otype" : "Reference", "mtid" : 21621806, "link" : "/api/reference/21621806", "label" : "239. Moore 2017: Seizing control of KCC2: A new therapeutic target for epilepsy., Trends Neurosci., 40, p. 555, DOI: 10.1016/j.tins.2017.06.008", "listPosition" : 239, "doi" : "10.1016/j.tins.2017.06.008", "published" : false, "snippet" : true }, { "otype" : "Reference", "mtid" : 21621807, "link" : "/api/reference/21621807", "label" : "240. Moore 2018: Potentiating KCC2 activity is sufficient to limit the onset and severity of seizures., Proc. Natl. Acad. Sci. USA., 115, p. 10166, DOI: 10.1073/pnas.1810134115", "listPosition" : 240, "doi" : "10.1073/pnas.1810134115", "published" : false, "snippet" : true }, { "otype" : "Reference", "mtid" : 21621808, "link" : "/api/reference/21621808", "label" : "241. Morris 2011: The many faces of tau., Neuron., 12, p. 410, DOI: 10.1016/j.neuron.2011.04.009", "listPosition" : 241, "doi" : "10.1016/j.neuron.2011.04.009", "published" : false, "snippet" : true }, { "otype" : "Reference", "mtid" : 21621809, "link" : "/api/reference/21621809", "label" : "242. Murugaiah 2003: Functional reactivity of central cholinergic systems following desipramine treatments and sleep deprivation., Naunyn Schmiedebergs, 368, p. 294, DOI: 10.1007/s00210-003-0784-6", "listPosition" : 242, "doi" : "10.1007/s00210-003-0784-6", "published" : false, "snippet" : true }, { "otype" : "Reference", "mtid" : 21621810, "link" : "/api/reference/21621810", "label" : "243. Murphy 2003: Left hippocampal volume loss in Alzheimer’s disease is reflected in performance on odor identification: a structural MRI study., J Int Neuropsychol Soc., 9, p. 459, DOI: 10.1017/S1355617703930116", "listPosition" : 243, "doi" : "10.1017/S1355617703930116", "published" : false, "snippet" : true }, { "otype" : "Reference", "mtid" : 21621811, "link" : "/api/reference/21621811", "label" : "244. Musiek 2016: Mechanisms linking circadian clocks, sleep, and neurodegeneration., Science., 354, p. 1004, DOI: 10.1126/science.aah4968", "listPosition" : 244, "doi" : "10.1126/science.aah4968", "published" : false, "snippet" : true }, { "otype" : "Reference", "mtid" : 21621812, "link" : "/api/reference/21621812", "label" : "245. Musiek 2013: Circadian clock proteins regulate neuronal redox homeostasis and neurodegeneration., J Clin Invest., 123, p. 5389, DOI: 10.1172/JCI70317", "listPosition" : 245, "doi" : "10.1172/JCI70317", "published" : false, "snippet" : true }, { "otype" : "Reference", "mtid" : 21621813, "link" : "/api/reference/21621813", "label" : "246. Naro 2016: Promising Role of Neuromodulation in Predicting the Progression of Mild Cognitive Impairment to Dementia., J Alzheimers Dis., 53, p. 1375, DOI: 10.3233/JAD-160305", "listPosition" : 246, "doi" : "10.3233/JAD-160305", "published" : false, "snippet" : true }, { "otype" : "Reference", "mtid" : 21621814, "link" : "/api/reference/21621814", "label" : "247. Naidoo 2005: Sleep deprivation induces the unfolded protein response in mouse cerebral cortex., J Neurochem., 92, p. 1150, DOI: 10.1111/j.1471-4159.2004.02952.x", "listPosition" : 247, "doi" : "10.1111/j.1471-4159.2004.02952.x", "published" : false, "snippet" : true }, { "otype" : "Reference", "mtid" : 21621815, "link" : "/api/reference/21621815", "label" : "248. Nordin 1998: Odor memory in normal aging and Alzheimer’s disease., Ann N Y Acad Sci., 855, p. 686, DOI: 10.1111/j.1749-6632.1998.tb10646.x", "listPosition" : 248, "doi" : "10.1111/j.1749-6632.1998.tb10646.x", "published" : false, "snippet" : true }, { "otype" : "Reference", "mtid" : 21621816, "link" : "/api/reference/21621816", "label" : "249. Nygaard 2015: Brivaracetam, but not ethosuximide, reverses memory impairments in an Alzheimer’s disease mouse model., Alzheimers Res Ther., 7, p. 25, DOI: 10.1186/s13195-015-0110-9", "listPosition" : 249, "doi" : "10.1186/s13195-015-0110-9", "published" : false, "snippet" : true }, { "otype" : "Reference", "mtid" : 21621817, "link" : "/api/reference/21621817", "label" : "250. Olcese 2009: Protection against cognitive deficits and markers of neurodegeneration by long-term oral administration of melatonin in a transgenic model of Alzheimer disease., J Pineal Res., 47, p. 82, DOI: 10.1111/j.1600-079X.2009.00692.x", "listPosition" : 250, "doi" : "10.1111/j.1600-079X.2009.00692.x", "published" : false, "snippet" : true }, { "otype" : "Reference", "mtid" : 21621818, "link" : "/api/reference/21621818", "label" : "251. Ooms 2014: Effect of 1 night of total sleep deprivation on cerebrospinal fluid b-amyloid 42 in healthy middle-aged men: A randomized clinical trial., JAMA Neurol., 71, p. 971, DOI: 10.1001/jamaneurol.2014.1173", "listPosition" : 251, "doi" : "10.1001/jamaneurol.2014.1173", "published" : false, "snippet" : true }, { "otype" : "Reference", "mtid" : 21621819, "link" : "/api/reference/21621819", "label" : "252. Opp 2005: Cytokines and sleep., Sleep Med Rev., 9, p. 355, DOI: 10.1016/j.smrv.2005.01.002", "listPosition" : 252, "doi" : "10.1016/j.smrv.2005.01.002", "published" : false, "snippet" : true }, { "otype" : "Reference", "mtid" : 21621820, "link" : "/api/reference/21621820", "label" : "253. Opp 1991: Interleukin 1 alters rat sleep: temporal and dose-related effects., Am. J. Phys. Regul. Integr. Comp. Phys., 260, p. R52", "listPosition" : 253, "published" : false, "snippet" : true }, { "otype" : "Reference", "mtid" : 21621821, "link" : "/api/reference/21621821", "label" : "254. Osorio 2011: Greater risk of Alzheimer’s disease in older adults with insomnia., J Am Geriatr Soc., 59, p. 559, DOI: 10.1111/j.1532-5415.2010.03288.x", "listPosition" : 254, "doi" : "10.1111/j.1532-5415.2010.03288.x", "published" : false, "snippet" : true }, { "otype" : "Reference", "mtid" : 21621822, "link" : "/api/reference/21621822", "label" : "255. Owen 2020: Impact of sleep disturbances on neurodegeneration: Insight from studies in animal models., Neurobiol Dis., 139, DOI: 10.1016/j.nbd.2020.104820", "listPosition" : 255, "doi" : "10.1016/j.nbd.2020.104820", "published" : false, "snippet" : true }, { "otype" : "Reference", "mtid" : 21621823, "link" : "/api/reference/21621823", "label" : "256. Pal 2006: Apoptotic surface delivery of K+ channels., Cell Death Differ., 13, p. 661, DOI: 10.1038/sj.cdd.4401792", "listPosition" : 256, "doi" : "10.1038/sj.cdd.4401792", "published" : false, "snippet" : true }, { "otype" : "Reference", "mtid" : 21621824, "link" : "/api/reference/21621824", "label" : "257. Palma 2017: Modulation of GABAA Receptors in the Treatment of Epilepsy., Curr Pharm Des., 23, p. 5563, DOI: 10.2174/1381612823666170809100230", "listPosition" : 257, "doi" : "10.2174/1381612823666170809100230", "published" : false, "snippet" : true }, { "otype" : "Reference", "mtid" : 21621825, "link" : "/api/reference/21621825", "label" : "258. Palop 2009: Epilepsy and cognitive impairments in Alzheimer disease., Arch Neurol., 66, p. 435, DOI: 10.1001/archneurol.2009.15", "listPosition" : 258, "doi" : "10.1001/archneurol.2009.15", "published" : false, "snippet" : true }, { "otype" : "Reference", "mtid" : 21621826, "link" : "/api/reference/21621826", "label" : "259. Palop 2010: Amyloid-beta-induced neuronal dysfunction in Alzheimer’s disease: from synapses toward neural networks., Nat Neurosci, 13, p. 812, DOI: 10.1038/nn.2583", "listPosition" : 259, "doi" : "10.1038/nn.2583", "published" : false, "snippet" : true }, { "otype" : "Reference", "mtid" : 21621827, "link" : "/api/reference/21621827", "label" : "260. Pan 2018: Cognitive benefits of lithium chloride in APP/PS1 mice are associated with enhanced brain clearance of β-amyloid., Brain Behav Immun., 70, p. 36, DOI: 10.1016/j.bbi.2018.03.007", "listPosition" : 260, "doi" : "10.1016/j.bbi.2018.03.007", "published" : false, "snippet" : true }, { "otype" : "Reference", "mtid" : 21621828, "link" : "/api/reference/21621828", "label" : "261. Panza 2019: Amyloid-β immunotherapy for alzheimer disease: Is it now a long shot?., Ann Neurol., 85, p. 303, DOI: 10.1002/ana.25410", "listPosition" : 261, "doi" : "10.1002/ana.25410", "published" : false, "snippet" : true }, { "otype" : "Reference", "mtid" : 21621829, "link" : "/api/reference/21621829", "label" : "262. Patel 2008: Short sleep duration and weight gain: a systematic review., Obesity (Silver Spring), 16, p. 643, DOI: 10.1038/oby.2007.118", "listPosition" : 262, "doi" : "10.1038/oby.2007.118", "published" : false, "snippet" : true }, { "otype" : "Reference", "mtid" : 21621830, "link" : "/api/reference/21621830", "label" : "263. Patel 2009: Sleep duration and biomarkers of inflammation., Sleep., 32, p. 200, DOI: 10.1093/sleep/32.2.200", "listPosition" : 263, "doi" : "10.1093/sleep/32.2.200", "published" : false, "snippet" : true }, { "otype" : "Reference", "mtid" : 21621831, "link" : "/api/reference/21621831", "label" : "264. Papageorgakopoulos 2017: The association between Alzheimer’s disease and cancer: Systematic review - Meta-analysis., Hell J Nucl Med., 20, p. 45", "listPosition" : 264, "published" : false, "snippet" : true }, { "otype" : "Reference", "mtid" : 21621832, "link" : "/api/reference/21621832", "label" : "265. Pathak 2007: Disrupted dentate granule cell chloride regulation enhances synaptic excitability during development of temporal lobe epilepsy., J Neurosci., 27, p. 14012, DOI: 10.1523/JNEUROSCI.4390-07.2007", "listPosition" : 265, "doi" : "10.1523/JNEUROSCI.4390-07.2007", "published" : false, "snippet" : true }, { "otype" : "Reference", "mtid" : 21621833, "link" : "/api/reference/21621833", "label" : "266. Peng 2016: Suppression of glymphatic fluid transport in a mouse model of Alzheimer’s disease., Neurobiol Dis., 93, p. 215, DOI: 10.1016/j.nbd.2016.05.015", "listPosition" : 266, "doi" : "10.1016/j.nbd.2016.05.015", "published" : false, "snippet" : true }, { "otype" : "Reference", "mtid" : 21621834, "link" : "/api/reference/21621834", "label" : "267. Paz 2015: Microcircuits and their interactions in epilepsy: is the focus out of focus?., Nat Neurosci., 18, p. 351, DOI: 10.1038/nn.3950", "listPosition" : 267, "doi" : "10.1038/nn.3950", "published" : false, "snippet" : true }, { "otype" : "Reference", "mtid" : 21621835, "link" : "/api/reference/21621835", "label" : "268. Peng 2017: Apolipoprotein E4 causes early olfactory network abnormalities and short-term olfactory memory impairments., Neuroscience., 343, p. 364, DOI: 10.1016/j.neuroscience.2016.12.004", "listPosition" : 268, "doi" : "10.1016/j.neuroscience.2016.12.004", "published" : false, "snippet" : true }, { "otype" : "Reference", "mtid" : 21621836, "link" : "/api/reference/21621836", "label" : "269. Peng 2004: Altered expression of the delta subunit of the GABAA receptor in a mouse model of temporal lobe epilepsy., J Neurosci., 24, p. 8629, DOI: 10.1523/JNEUROSCI.2877-04.2004", "listPosition" : 269, "doi" : "10.1523/JNEUROSCI.2877-04.2004", "published" : false, "snippet" : true }, { "otype" : "Reference", "mtid" : 21621837, "link" : "/api/reference/21621837", "label" : "270. Peretz 2005: Meclofenamic acid and diclofenac, novel templates of KCNQ2/Q3 potassium channel openers, depress cortical neuron activity and exhibit anticonvulsant properties., Mol Pharmacol., 67, p. 1053, DOI: 10.1124/mol.104.007112", "listPosition" : 270, "doi" : "10.1124/mol.104.007112", "published" : false, "snippet" : true }, { "otype" : "Reference", "mtid" : 21621838, "link" : "/api/reference/21621838", "label" : "271. Petit 2004: Sleep and quantitative EEG in neurodegenerative disorders., J Psychosom Res., 56, p. 487, DOI: 10.1016/j.jpsychores.2004.02.001", "listPosition" : 271, "doi" : "10.1016/j.jpsychores.2004.02.001", "published" : false, "snippet" : true }, { "otype" : "Reference", "mtid" : 21621839, "link" : "/api/reference/21621839", "label" : "272. Peter-Derex 2015: Croisile B Sleep and Alzheimer’s disease., Sleep Med Rev., 19, p. 29, DOI: 10.1016/j.smrv.2014.03.007", "listPosition" : 272, "doi" : "10.1016/j.smrv.2014.03.007", "published" : false, "snippet" : true }, { "otype" : "Reference", "mtid" : 21621840, "link" : "/api/reference/21621840", "label" : "273. Peter-Derex 2015: Sleep and Alzheimer’s disease., Sleep Med Rev., 19, p. 29, DOI: 10.1016/j.smrv.2014.03.007", "listPosition" : 273, "doi" : "10.1016/j.smrv.2014.03.007", "published" : false, "snippet" : true }, { "otype" : "Reference", "mtid" : 21621841, "link" : "/api/reference/21621841", "label" : "274. Prinz 1982: Changes in the sleep and waking EEGs of nondemented and demented elderly subjects., J Am Geriatr Soc., 30, p. 86, DOI: 10.1111/j.1532-5415.1982.tb01279.x", "listPosition" : 274, "doi" : "10.1111/j.1532-5415.1982.tb01279.x", "published" : false, "snippet" : true }, { "otype" : "Reference", "mtid" : 21621842, "link" : "/api/reference/21621842", "label" : "275. Prinz 1982: Sleep, EEG and mental function changes in senile dementia of the Alzheimer’s type., Neurobiol Aging, 3, p. 361, DOI: 10.1016/0197-4580(82)90024-0", "listPosition" : 275, "doi" : "10.1016/0197-4580(82)90024-0", "published" : false, "snippet" : true }, { "otype" : "Reference", "mtid" : 21621843, "link" : "/api/reference/21621843", "label" : "276. Quigg 2000: Circadian rhythms: interactions with seizures and epilepsy., Epilepsy Res., 42, p. 43, DOI: 10.1016/S0920-1211(00)00157-1", "listPosition" : 276, "doi" : "10.1016/S0920-1211(00)00157-1", "published" : false, "snippet" : true }, { "otype" : "Reference", "mtid" : 21621844, "link" : "/api/reference/21621844", "label" : "277. Qiu 2016: Chronic Sleep Deprivation Exacerbates Learning-Memory Disability and Alzheimer’s Disease-Like Pathologies in AβPP(swe)/PS1(ΔE9) Mice., J Alzheimers Dis., 50, p. 669, DOI: 10.3233/JAD-150774", "listPosition" : 277, "doi" : "10.3233/JAD-150774", "published" : false, "snippet" : true }, { "otype" : "Reference", "mtid" : 21621845, "link" : "/api/reference/21621845", "label" : "278. Rabinowicz 2000: Transient epileptic amnesia in dementia: a treatable unrecognized cause of episodic amnestic wandering., Alzheimer Dis Assoc Disord., 14, p. 231, DOI: 10.1097/00002093-200010000-00008", "listPosition" : 278, "doi" : "10.1097/00002093-200010000-00008", "published" : false, "snippet" : true }, { "otype" : "Reference", "mtid" : 21621846, "link" : "/api/reference/21621846", "label" : "279. Rae-Grant 1987: The electroencephalogram in Alzheimer-type dementia. A sequential study correlating the electroencephalogram with psychometric and quantitative pathologic data., Arch Neurol., 44, p. 50, DOI: 10.1001/archneur.1987.00520130042015", "listPosition" : 279, "doi" : "10.1001/archneur.1987.00520130042015", "published" : false, "snippet" : true }, { "otype" : "Reference", "mtid" : 21621847, "link" : "/api/reference/21621847", "label" : "280. Ramanathan 2002: Sleep deprivation decreases superoxide dismutase activity in rat hippocampus and brainstem., Neuroreport., 13, p. 1387, DOI: 10.1097/00001756-200208070-00007", "listPosition" : 280, "doi" : "10.1097/00001756-200208070-00007", "published" : false, "snippet" : true }, { "otype" : "Reference", "mtid" : 21621848, "link" : "/api/reference/21621848", "label" : "281. Ramírez-Toraño 2020: Functional Connectivity Hypersynchronization in Relatives of Alzheimer’s Disease Patients: An Early E/I Balance Dysfunction?., Cereb Cortex", "listPosition" : 281, "published" : false, "snippet" : true }, { "otype" : "Reference", "mtid" : 21621849, "link" : "/api/reference/21621849", "label" : "282. Raven 2018: A brief period of sleep deprivation causes spine loss in the dentate gyrus of mice., Neurobiol Learn Mem., S1074-7427, p. 30072", "listPosition" : 282, "published" : false, "snippet" : true }, { "otype" : "Reference", "mtid" : 21621850, "link" : "/api/reference/21621850", "label" : "283. Raven 2018: The role of sleep in regulating structural plasticity and synaptic strength: Implications for memory and cognitive function., Sleep Med Rev., 39, p. 3, DOI: 10.1016/j.smrv.2017.05.002", "listPosition" : 283, "doi" : "10.1016/j.smrv.2017.05.002", "published" : false, "snippet" : true }, { "otype" : "Reference", "mtid" : 21621851, "link" : "/api/reference/21621851", "label" : "284. Ravizza 2006: Status epilepticus induces time-dependent neuronal and astrocytic expression of interleukin-1 receptor type I in the rat limbic system., Neuroscience., 137, p. 301, DOI: 10.1016/j.neuroscience.2005.07.063", "listPosition" : 284, "doi" : "10.1016/j.neuroscience.2005.07.063", "published" : false, "snippet" : true }, { "otype" : "Reference", "mtid" : 21621852, "link" : "/api/reference/21621852", "label" : "285. Rauchs 2008: Is there a link between sleep changes and memory in Alzheimer’s disease?., Neuroreport., 19, p. 1159, DOI: 10.1097/WNR.0b013e32830867c4", "listPosition" : 285, "doi" : "10.1097/WNR.0b013e32830867c4", "published" : false, "snippet" : true }, { "otype" : "Reference", "mtid" : 21621853, "link" : "/api/reference/21621853", "label" : "286. Richards 2018: Slective NaV1.1 activation rescues Dravet syndrome mice from seizures and premature death., Proc Natl Acad Sci U S A., 115, p. E8077, DOI: 10.1073/pnas.1804764115", "listPosition" : 286, "doi" : "10.1073/pnas.1804764115", "published" : false, "snippet" : true }, { "otype" : "Reference", "mtid" : 21621854, "link" : "/api/reference/21621854", "label" : "287. Riemersma-van der Lek 2008: Effect of bright light and melatonin on cognitive and noncognitive function in elderly residents of group care facilities: a randomized controlled trial., JAMA., 299, p. 2642, DOI: 10.1001/jama.299.22.2642", "listPosition" : 287, "doi" : "10.1001/jama.299.22.2642", "published" : false, "snippet" : true }, { "otype" : "Reference", "mtid" : 21621855, "link" : "/api/reference/21621855", "label" : "288. Roberson 2007: Reducing endogenous tau ameliorates amyloid beta-induced deficits in an Alzheimer’s disease mouse model., Science, 316, p. 750, DOI: 10.1126/science.1141736", "listPosition" : 288, "doi" : "10.1126/science.1141736", "published" : false, "snippet" : true }, { "otype" : "Reference", "mtid" : 21621856, "link" : "/api/reference/21621856", "label" : "289. Roberson 2011: Amyloid-β/Fyn-induced synaptic, network, and cognitive impairments depend on tau levels in multiple mouse models of Alzheimer’s disease., J Neurosci., 31, p. 700, DOI: 10.1523/JNEUROSCI.4152-10.2011", "listPosition" : 289, "doi" : "10.1523/JNEUROSCI.4152-10.2011", "published" : false, "snippet" : true }, { "otype" : "Reference", "mtid" : 21621857, "link" : "/api/reference/21621857", "label" : "290. Roh 2012: Disruption of the sleep-wake cycle and diurnal fluctuation of β-amyloid in mice with Alzheimer’s disease pathology., Sci Transl Med., 4, DOI: 10.1126/scitranslmed.3004291", "listPosition" : 290, "doi" : "10.1126/scitranslmed.3004291", "published" : false, "snippet" : true }, { "otype" : "Reference", "mtid" : 21621858, "link" : "/api/reference/21621858", "label" : "291. Romcy-Pereira 2009: Synaptic plasticity along the sleep-wake cycle: implications for epilepsy., Epilepsy Behav., 1, p. 47, DOI: 10.1016/j.yebeh.2008.09.026", "listPosition" : 291, "doi" : "10.1016/j.yebeh.2008.09.026", "published" : false, "snippet" : true }, { "otype" : "Reference", "mtid" : 21621859, "link" : "/api/reference/21621859", "label" : "292. Roselli 2015: From intrinsic firing properties to selective neuronal vulnerability in neurodegenerative diseases., Neuron, 85, p. 901, DOI: 10.1016/j.neuron.2014.12.063", "listPosition" : 292, "doi" : "10.1016/j.neuron.2014.12.063", "published" : false, "snippet" : true }, { "otype" : "Reference", "mtid" : 21621860, "link" : "/api/reference/21621860", "label" : "293. Rossi 2020: Insufficient Sleep, electroencephalogram activation, and seizure risk: Re-evaluating the evidence., Ann Neurol., 87, p. 798, DOI: 10.1002/ana.25710", "listPosition" : 293, "doi" : "10.1002/ana.25710", "published" : false, "snippet" : true }, { "otype" : "Reference", "mtid" : 21621861, "link" : "/api/reference/21621861", "label" : "294. Rothman 2013: Chronic mild sleep restriction accentuates contextual memory impairments, and accumulations of cortical Aβ and pTau in a mouse model of Alzheimer’s disease., Brain Res., 1529, p. 200, DOI: 10.1016/j.brainres.2013.07.010", "listPosition" : 294, "doi" : "10.1016/j.brainres.2013.07.010", "published" : false, "snippet" : true }, { "otype" : "Reference", "mtid" : 21621862, "link" : "/api/reference/21621862", "label" : "295. Roundtree 2016: Orexin Receptor Antagonism Improves Sleep and Reduces Seizures in Kcna1-null Mice., Sleep., 39, p. 357, DOI: 10.5665/sleep.5444", "listPosition" : 295, "doi" : "10.5665/sleep.5444", "published" : false, "snippet" : true }, { "otype" : "Reference", "mtid" : 21621863, "link" : "/api/reference/21621863", "label" : "296. Roberson 2011: Amyloid-β/Fyn-induced synaptic, network, and cognitive impairments depend on tau levels in multiple mouse models of Alzheimer’s disease., J Neurosci, 31, p. 700, DOI: 10.1523/JNEUROSCI.4152-10.2011", "listPosition" : 296, "doi" : "10.1523/JNEUROSCI.4152-10.2011", "published" : false, "snippet" : true }, { "otype" : "Reference", "mtid" : 21621864, "link" : "/api/reference/21621864", "label" : "297. Salami 2014: Dynamics of interictal spikes and high-frequency oscillations during epileptogenesis in temporal lobe epilepsy., Neurobiol Dis., 67, p. 97, DOI: 10.1016/j.nbd.2014.03.012", "listPosition" : 297, "doi" : "10.1016/j.nbd.2014.03.012", "published" : false, "snippet" : true }, { "otype" : "Reference", "mtid" : 21621865, "link" : "/api/reference/21621865", "label" : "298. Samsonsen 2016: The impact of sleep loss on the facilitation of seizures: A prospective case‐crossover study., Epilepsy Res., 127, p. 260, DOI: 10.1016/j.eplepsyres.2016.09.014", "listPosition" : 298, "doi" : "10.1016/j.eplepsyres.2016.09.014", "published" : false, "snippet" : true }, { "otype" : "Reference", "mtid" : 21621866, "link" : "/api/reference/21621866", "label" : "299. Ellingson 1984: Efficacy of sleep deprivation as an activation procedure in epilepsy patients., J. Clin. Neurophysiol., 1, p. 83, DOI: 10.1097/00004691-198401000-00005", "listPosition" : 299, "doi" : "10.1097/00004691-198401000-00005", "published" : false, "snippet" : true }, { "otype" : "Reference", "mtid" : 21621867, "link" : "/api/reference/21621867", "label" : "300. Sanchez 2012: Leveteracetam suppresses neuronal network dysfunction and reverses synaptic and cognitive deficits in an Alzheimer’s disease model., Proc Natl Acad Sci U S A., 109, p. E2895, DOI: 10.1073/pnas.1121081109", "listPosition" : 300, "doi" : "10.1073/pnas.1121081109", "published" : false, "snippet" : true }, { "otype" : "Reference", "mtid" : 21621868, "link" : "/api/reference/21621868", "label" : "301. Sanchez-Mejias 2020: Distinct disease‐sensitive GABAergic neurons in the perirhinal cortex of Alzheimer’s mice and patients., Brain Pathol., 30, p. 345, DOI: 10.1111/bpa.12785", "listPosition" : 301, "doi" : "10.1111/bpa.12785", "published" : false, "snippet" : true }, { "otype" : "Reference", "mtid" : 21621869, "link" : "/api/reference/21621869", "label" : "302. Sara 2009: The locus coeruleus and noradrenergic modulation of cognition., Nat Rev Neurosci., 10, p. 211, DOI: 10.1038/nrn2573", "listPosition" : 302, "doi" : "10.1038/nrn2573", "published" : false, "snippet" : true }, { "otype" : "Reference", "mtid" : 21621870, "link" : "/api/reference/21621870", "label" : "303. Scanzano 2015: Adrenergic regulation of innate immunity: a review., Front Pharmacol, 6, p. 171, DOI: 10.3389/fphar.2015.00171", "listPosition" : 303, "doi" : "10.3389/fphar.2015.00171", "published" : false, "snippet" : true }, { "otype" : "Reference", "mtid" : 21621871, "link" : "/api/reference/21621871", "label" : "304. Scarmeas 2009: Seizures in Alzheimer disease: who, when, and how common?., Arch Neurol., 66, p. 992, DOI: 10.1001/archneurol.2009.130", "listPosition" : 304, "doi" : "10.1001/archneurol.2009.130", "published" : false, "snippet" : true }, { "otype" : "Reference", "mtid" : 21621872, "link" : "/api/reference/21621872", "label" : "305. Schmid 2016: Dysfunction of Somatostatin-Positive Interneurons Associated with Memory Deficits in an Alzheimer’s Disease Model., Neuron., 92, p. 114, DOI: 10.1016/j.neuron.2016.08.034", "listPosition" : 305, "doi" : "10.1016/j.neuron.2016.08.034", "published" : false, "snippet" : true }, { "otype" : "Reference", "mtid" : 21621873, "link" : "/api/reference/21621873", "label" : "306. Seibt 2008: The non-benzodiazepine hypnotic zolpidem impairs sleep-dependent cortical plasticity., Sleep., 31, p. 1381", "listPosition" : 306, "published" : false, "snippet" : true }, { "otype" : "Reference", "mtid" : 21621874, "link" : "/api/reference/21621874", "label" : "307. Scharfman 2012: Alzheimer’s disease and epilepsy: insight from animal models., Future Neurol., 7, p. 177, DOI: 10.2217/fnl.12.8", "listPosition" : 307, "doi" : "10.2217/fnl.12.8", "published" : false, "snippet" : true }, { "otype" : "Reference", "mtid" : 21621875, "link" : "/api/reference/21621875", "label" : "308. Schule 2004: Neuroactive steroids in responders and nonresponders to sleep deprivation., Ann N Y Acad Sci., 1032, p. 216, DOI: 10.1196/annals.1314.024", "listPosition" : 308, "doi" : "10.1196/annals.1314.024", "published" : false, "snippet" : true }, { "otype" : "Reference", "mtid" : 21621876, "link" : "/api/reference/21621876", "label" : "309. Schmidt 2015: Effects of an interleukin-1 receptor antagonist on human sleep, sleep-associated memory consolidation, and blood monocytes., Brain Behav Immun., 47, p. 178, DOI: 10.1016/j.bbi.2014.11.012", "listPosition" : 309, "doi" : "10.1016/j.bbi.2014.11.012", "published" : false, "snippet" : true }, { "otype" : "Reference", "mtid" : 21621877, "link" : "/api/reference/21621877", "label" : "310. Semyachkina-Glushkovskaya 2020: Sleep as a Novel Biomarker, and a Promising Therapeutic Target for Cerebral Small Vessel Disease: A Review Focusing on Alzheimer’s Disease and the Blood-Brain Barrier., Int J Mol Sci., 21, p. E6293, DOI: 10.3390/ijms21176293", "listPosition" : 310, "doi" : "10.3390/ijms21176293", "published" : false, "snippet" : true }, { "otype" : "Reference", "mtid" : 21621878, "link" : "/api/reference/21621878", "label" : "311. Sinha 2008: Do cytokines have any role in epilepsy?., Epilepsy Res., 82, p. 171, DOI: 10.1016/j.eplepsyres.2008.07.018", "listPosition" : 311, "doi" : "10.1016/j.eplepsyres.2008.07.018", "published" : false, "snippet" : true }, { "otype" : "Reference", "mtid" : 21621879, "link" : "/api/reference/21621879", "label" : "312. Sharma 2020: Circadian rhythm disruption and Alzheimer’s disease: The dynamics of a vicious cycle., Curr Neuropharmacol., DOI: 10.2174/1570159X18666200429013041", "listPosition" : 312, "doi" : "10.2174/1570159X18666200429013041", "published" : false, "snippet" : true }, { "otype" : "Reference", "mtid" : 21621880, "link" : "/api/reference/21621880", "label" : "313. Sherzai 2014: Seizures and dementia in the elderly: nationwide inpatient sample 1999–2008., Epilepsy Behav, 36, p. 53, DOI: 10.1016/j.yebeh.2014.04.015", "listPosition" : 313, "doi" : "10.1016/j.yebeh.2014.04.015", "published" : false, "snippet" : true }, { "otype" : "Reference", "mtid" : 21621881, "link" : "/api/reference/21621881", "label" : "314. Shi 2017: Sleep disturbances increase the risk of dementia: A systematic review and meta-analysis., Sleep Med Rev., S1087-0792, p. 30011", "listPosition" : 314, "published" : false, "snippet" : true }, { "otype" : "Reference", "mtid" : 21621882, "link" : "/api/reference/21621882", "label" : "315. Shi 2013: Antiepileptics topiramate and levetiracetam alleviate behavioral deficits and reduce neuropathology in APPswe/PS1dE9 transgenic mice., CNS Neurosci Ther., 19, p. 871, DOI: 10.1111/cns.12144", "listPosition" : 315, "doi" : "10.1111/cns.12144", "published" : false, "snippet" : true }, { "otype" : "Reference", "mtid" : 21621883, "link" : "/api/reference/21621883", "label" : "316. Shors 2001: Sex differences and opposite effects of stress on dendritic spine density in the male versus female hippocampus., J Neurosci, 21", "listPosition" : 316, "published" : false, "snippet" : true }, { "otype" : "Reference", "mtid" : 21621884, "link" : "/api/reference/21621884", "label" : "317. Shokri-Kojori 2018: β-Amyloid accumulation in the human brain after one night of sleep deprivation., Proc Natl Acad Sci U S A., 115, p. 4483, DOI: 10.1073/pnas.1721694115", "listPosition" : 317, "doi" : "10.1073/pnas.1721694115", "published" : false, "snippet" : true }, { "otype" : "Reference", "mtid" : 21621885, "link" : "/api/reference/21621885", "label" : "318. Simon 2016: Regulation of cerebrospinal fluid (CSF) flow in neurodegenerative, neurovascular and neuroinflammatory disease., Biochim Biophys Acta, 1862, p. 442, DOI: 10.1016/j.bbadis.2015.10.014", "listPosition" : 318, "doi" : "10.1016/j.bbadis.2015.10.014", "published" : false, "snippet" : true }, { "otype" : "Reference", "mtid" : 21621886, "link" : "/api/reference/21621886", "label" : "319. Skene 2003: Melatonin rhythmicity: effect of age and Alzheimer’s disease., Exp. Gerontol., 38, p. 199, DOI: 10.1016/S0531-5565(02)00198-5", "listPosition" : 319, "doi" : "10.1016/S0531-5565(02)00198-5", "published" : false, "snippet" : true }, { "otype" : "Reference", "mtid" : 21621887, "link" : "/api/reference/21621887", "label" : "320. Spira 2013: Self-reported sleep and β-amyloid deposition in community-dwelling older adults., JAMA Neurol., 70, p. 1537", "listPosition" : 320, "published" : false, "snippet" : true }, { "otype" : "Reference", "mtid" : 21621888, "link" : "/api/reference/21621888", "label" : "321. Sultana 2010: Role of oxidative stress in the progression of Alzheimer’s disease., J Alzheimers Dis., 19, p. 341, DOI: 10.3233/JAD-2010-1222", "listPosition" : 321, "doi" : "10.3233/JAD-2010-1222", "published" : false, "snippet" : true }, { "otype" : "Reference", "mtid" : 21621889, "link" : "/api/reference/21621889", "label" : "322. Sun 2009: Imbalance between GABAergic and Glutamatergic Transmission Impairs Adult Neurogenesis in an Animal Model of Alzheimer’s Disease., Cell Stem Cell., 5, p. 624, DOI: 10.1016/j.stem.2009.10.003", "listPosition" : 322, "doi" : "10.1016/j.stem.2009.10.003", "published" : false, "snippet" : true }, { "otype" : "Reference", "mtid" : 21621890, "link" : "/api/reference/21621890", "label" : "323. Surace 2012: Targeting microglia-mediated neurotoxicity: the potential of NOX2 inhibitors., Cell Mol Life Sci., 69, p. 2409, DOI: 10.1007/s00018-012-1015-4", "listPosition" : 323, "doi" : "10.1007/s00018-012-1015-4", "published" : false, "snippet" : true }, { "otype" : "Reference", "mtid" : 21621891, "link" : "/api/reference/21621891", "label" : "324. Tai 2014: Impaired excitability of somatostatin- and parvalbumin-expressing cortical interneurons in a mouse model of Dravet syndrome., Proc Natl Acad Sci U S A., 111, p. E3139, DOI: 10.1073/pnas.1411131111", "listPosition" : 324, "doi" : "10.1073/pnas.1411131111", "published" : false, "snippet" : true }, { "otype" : "Reference", "mtid" : 21621892, "link" : "/api/reference/21621892", "label" : "325. Tarasoff-Conway 2015: Clearance systems in the brain-implications for Alzheimer disease., Nat Rev Neurol., 11, p. 457, DOI: 10.1038/nrneurol.2015.119", "listPosition" : 325, "doi" : "10.1038/nrneurol.2015.119", "published" : false, "snippet" : true }, { "otype" : "Reference", "mtid" : 21621893, "link" : "/api/reference/21621893", "label" : "326. Tononi 2006: Sleep function and synaptic homeostasis., Sleep Med Rev, 10, DOI: 10.1016/j.smrv.2005.05.002", "listPosition" : 326, "doi" : "10.1016/j.smrv.2005.05.002", "published" : false, "snippet" : true }, { "otype" : "Reference", "mtid" : 21621894, "link" : "/api/reference/21621894", "label" : "327. Tononi 2014: Sleep and the price of plasticity: from synaptic and cellular homeostasis to memory consolidation and integration., Neuron, 81, DOI: 10.1016/j.neuron.2013.12.025", "listPosition" : 327, "doi" : "10.1016/j.neuron.2013.12.025", "published" : false, "snippet" : true }, { "otype" : "Reference", "mtid" : 21621895, "link" : "/api/reference/21621895", "label" : "328. Tse 2017: Re-imagining Alzheimer’s disease - the diminishing importance of amyloid and a glimpse of what lies ahead., J Neurochem., 143, p. 432, DOI: 10.1111/jnc.14079", "listPosition" : 328, "doi" : "10.1111/jnc.14079", "published" : false, "snippet" : true }, { "otype" : "Reference", "mtid" : 21621896, "link" : "/api/reference/21621896", "label" : "329. Unterberger 2014: Sleep disorders and circadian rhythm in epilepsy revisited: a prospective controlled study., Sleep Med, 16, p. 237, DOI: 10.1016/j.sleep.2014.09.021", "listPosition" : 329, "doi" : "10.1016/j.sleep.2014.09.021", "published" : false, "snippet" : true }, { "otype" : "Reference", "mtid" : 21621897, "link" : "/api/reference/21621897", "label" : "330. Van Dongen 2003: The cumulative cost of additional wakefulness: dose-response effects on neurobehavioral functions and sleep physiology from chronic sleep restriction and total sleep deprivation., Sleep, 26, p. 117, DOI: 10.1093/sleep/26.2.117", "listPosition" : 330, "doi" : "10.1093/sleep/26.2.117", "published" : false, "snippet" : true }, { "otype" : "Reference", "mtid" : 21621898, "link" : "/api/reference/21621898", "label" : "331. van Golde 2011: Sleep disturbances in people with epilepsy; prevalence, impact and treatment., Sleep Med Rev, 15, p. 357, DOI: 10.1016/j.smrv.2011.01.002", "listPosition" : 331, "doi" : "10.1016/j.smrv.2011.01.002", "published" : false, "snippet" : true }, { "otype" : "Reference", "mtid" : 21621899, "link" : "/api/reference/21621899", "label" : "332. Vezzani 2011: IL-1 receptor/Toll-like receptor signaling in infection, inflammation, stress and neurodegeneration couples hyperexcitability and seizures., Brain Behav Immun., 25, p. 1281, DOI: 10.1016/j.bbi.2011.03.018", "listPosition" : 332, "doi" : "10.1016/j.bbi.2011.03.018", "published" : false, "snippet" : true }, { "otype" : "Reference", "mtid" : 21621900, "link" : "/api/reference/21621900", "label" : "333. Vezzani 2008: The role of cytokines in the pathophysiology of epilepsy., Brain Behav Immun., 22, p. 797, DOI: 10.1016/j.bbi.2008.03.009", "listPosition" : 333, "doi" : "10.1016/j.bbi.2008.03.009", "published" : false, "snippet" : true }, { "otype" : "Reference", "mtid" : 21621901, "link" : "/api/reference/21621901", "label" : "334. Verret 2012: Inhibitory interneuron deficit linksaltered network activity and cognitive dysfunction in Alzheimer model., Cell, 149, p. 708, DOI: 10.1016/j.cell.2012.02.046", "listPosition" : 334, "doi" : "10.1016/j.cell.2012.02.046", "published" : false, "snippet" : true }, { "otype" : "Reference", "mtid" : 21621902, "link" : "/api/reference/21621902", "label" : "335. Villette 2017: GABAergic Microcircuits in Alzheimer’s Disease Models., Curr Alzheimer Res., 14, p. 30, DOI: 10.2174/1567205013666160819125757", "listPosition" : 335, "doi" : "10.2174/1567205013666160819125757", "published" : false, "snippet" : true }, { "otype" : "Reference", "mtid" : 21621903, "link" : "/api/reference/21621903", "label" : "336. Voet 2019: Inflammasomes in neuroinflammatory and neurodegenerative diseases., EMBO Mol Med., 11, DOI: 10.15252/emmm.201810248", "listPosition" : 336, "doi" : "10.15252/emmm.201810248", "published" : false, "snippet" : true }, { "otype" : "Reference", "mtid" : 21621904, "link" : "/api/reference/21621904", "label" : "337. Vogt 2011: Abnormal neuronal networks and seizure susceptibility in mice overexpressing the APP intracellular domain., Neurobiol Aging., 32, p. 1725, DOI: 10.1016/j.neurobiolaging.2009.09.002", "listPosition" : 337, "doi" : "10.1016/j.neurobiolaging.2009.09.002", "published" : false, "snippet" : true }, { "otype" : "Reference", "mtid" : 21621905, "link" : "/api/reference/21621905", "label" : "338. Vossel 2013: Seizures and epileptiform activity in the early stages of Alzheimer disease., JAMA Neurol., 70, p. 1158, DOI: 10.1001/jamaneurol.2013.136", "listPosition" : 338, "doi" : "10.1001/jamaneurol.2013.136", "published" : false, "snippet" : true }, { "otype" : "Reference", "mtid" : 21621906, "link" : "/api/reference/21621906", "label" : "339. Vossel 2016: Incidence and impact of subclinical epileptiform activity in Alzheimer’s disease., Ann Neurol., 80, p. 858, DOI: 10.1002/ana.24794", "listPosition" : 339, "doi" : "10.1002/ana.24794", "published" : false, "snippet" : true }, { "otype" : "Reference", "mtid" : 21621907, "link" : "/api/reference/21621907", "label" : "340. Vossel 2017: Epileptic activity in Alzheimer’s disease: causes and clinical relevance., Lancet Neurol., 16, p. 311, DOI: 10.1016/S1474-4422(17)30044-3", "listPosition" : 340, "doi" : "10.1016/S1474-4422(17)30044-3", "published" : false, "snippet" : true }, { "otype" : "Reference", "mtid" : 21621908, "link" : "/api/reference/21621908", "label" : "341. Vyazovskiy 2008: Molecular and electrophysiological evidence for net synaptic potentiation in wake and depression in sleep., Nat Neurosci., 11, p. 200, DOI: 10.1038/nn2035", "listPosition" : 341, "doi" : "10.1038/nn2035", "published" : false, "snippet" : true }, { "otype" : "Reference", "mtid" : 21621909, "link" : "/api/reference/21621909", "label" : "342. Vyhnalek 2015: Olfactory identification in amnestic and non-amnestic mild cognitive impairment and its neuropsychological correlates., J Neurol Sci., 15, p. 179, DOI: 10.1016/j.jns.2015.01.014", "listPosition" : 342, "doi" : "10.1016/j.jns.2015.01.014", "published" : false, "snippet" : true }, { "otype" : "Reference", "mtid" : 21621910, "link" : "/api/reference/21621910", "label" : "343. Walker 2006: Sleep, memory, and plasticity., Annu Rev Psychol., 57, p. 139, DOI: 10.1146/annurev.psych.56.091103.070307", "listPosition" : 343, "doi" : "10.1146/annurev.psych.56.091103.070307", "published" : false, "snippet" : true }, { "otype" : "Reference", "mtid" : 21621911, "link" : "/api/reference/21621911", "label" : "344. Wadhwa 2017: Sleep deprivation induces spatial memory impairment by altered hippocampus neuroinflammatory responses and glial cells activation in rats., J Neuroimmunol., 312, p. 38, DOI: 10.1016/j.jneuroim.2017.09.003", "listPosition" : 344, "doi" : "10.1016/j.jneuroim.2017.09.003", "published" : false, "snippet" : true }, { "otype" : "Reference", "mtid" : 21621912, "link" : "/api/reference/21621912", "label" : "345. Walsh 2017: Neurophysiological assessment of neural network plasticity and connectivity: Progress towards early functional biomarkers for disease interception therapies in Alzheimer’s disease., Neurosci Biobehav Rev., 73, p. 340, DOI: 10.1016/j.neubiorev.2016.12.020", "listPosition" : 345, "doi" : "10.1016/j.neubiorev.2016.12.020", "published" : false, "snippet" : true }, { "otype" : "Reference", "mtid" : 21621913, "link" : "/api/reference/21621913", "label" : "346. Wang 2020: Bidirectional relationship between sleep and Alzheimer’s disease: role of amyloid, tau, and other factors., Neuropsychopharmacology., 45, p. 104, DOI: 10.1038/s41386-019-0478-5", "listPosition" : 346, "doi" : "10.1038/s41386-019-0478-5", "published" : false, "snippet" : true }, { "otype" : "Reference", "mtid" : 21621914, "link" : "/api/reference/21621914", "label" : "347. Wesson 2011: Sensory network dysfunction, behavioral impairments, and their reversibility in an Alzheimer’s β-amyloidosis mouse model., J Neurosci., 31, p. 15962, DOI: 10.1523/JNEUROSCI.2085-11.2011", "listPosition" : 347, "doi" : "10.1523/JNEUROSCI.2085-11.2011", "published" : false, "snippet" : true }, { "otype" : "Reference", "mtid" : 21621915, "link" : "/api/reference/21621915", "label" : "348. Westerberg 2012: Concurrent impairments in sleep and memory in amnestic mild cognitive impairment., J Int Neuropsychol Soc, 18, p. 490, DOI: 10.1017/S135561771200001X", "listPosition" : 348, "doi" : "10.1017/S135561771200001X", "published" : false, "snippet" : true }, { "otype" : "Reference", "mtid" : 21621916, "link" : "/api/reference/21621916", "label" : "349. Wickenden 2000: Retigabine, a novel anti-convulsant, enhances activation of KCNQ2/Q3 potassium channels., Mol Pharmacol., 58, p. 591, DOI: 10.1124/mol.58.3.591", "listPosition" : 349, "doi" : "10.1124/mol.58.3.591", "published" : false, "snippet" : true }, { "otype" : "Reference", "mtid" : 21621917, "link" : "/api/reference/21621917", "label" : "350. Wilking 2013: Circadian rhythm connections to oxidative stress: implications for human health., Antioxid Redox Signal., 19, p. 192, DOI: 10.1089/ars.2012.4889", "listPosition" : 350, "doi" : "10.1089/ars.2012.4889", "published" : false, "snippet" : true }, { "otype" : "Reference", "mtid" : 21621918, "link" : "/api/reference/21621918", "label" : "351. Wilson 2018: Brainwave therapy for Alzheimer’s. Can flickering lights, low hums and vibrating pads zap brain plaques., . New Sci, 237, p. 6, DOI: 10.1016/S0262-4079(18)30543-8", "listPosition" : 351, "doi" : "10.1016/S0262-4079(18)30543-8", "published" : false, "snippet" : true }, { "otype" : "Reference", "mtid" : 21621919, "link" : "/api/reference/21621919", "label" : "352. Wong 2004: Cytokines, nitric oxide, and cGMP modulate the permeability of an in vitro model of the human blood-brain barrier., Exp. Neurol., 190, p. 446, DOI: 10.1016/j.expneurol.2004.08.008", "listPosition" : 352, "doi" : "10.1016/j.expneurol.2004.08.008", "published" : false, "snippet" : true }, { "otype" : "Reference", "mtid" : 21621920, "link" : "/api/reference/21621920", "label" : "353. Wu 2003: Molecular changes underlying reduced pineal melatonin levels in Alzheimer disease: alterations in preclinical and clinical stages., J. Clin. Endocrinol. Metab., 88, p. 5898, DOI: 10.1210/jc.2003-030833", "listPosition" : 353, "doi" : "10.1210/jc.2003-030833", "published" : false, "snippet" : true }, { "otype" : "Reference", "mtid" : 21621921, "link" : "/api/reference/21621921", "label" : "354. Wu 2006: Pineal clock gene oscillation is disturbed in Alzheimer’s disease, due to functional disconnection from the \"master clock\"., FASEB J., 20, p. 1874, DOI: 10.1096/fj.05-4446fje", "listPosition" : 354, "doi" : "10.1096/fj.05-4446fje", "published" : false, "snippet" : true }, { "otype" : "Reference", "mtid" : 21621922, "link" : "/api/reference/21621922", "label" : "355. Wu 2007: Disturbance and strategies for reactivation of the circadian rhythm system in aging and Alzheimer’s disease., Sleep Med., 8, p. 623, DOI: 10.1016/j.sleep.2006.11.010", "listPosition" : 355, "doi" : "10.1016/j.sleep.2006.11.010", "published" : false, "snippet" : true }, { "otype" : "Reference", "mtid" : 21621923, "link" : "/api/reference/21621923", "label" : "356. Wulff 2010: Sleep and circadian rhythm disruption in psychiatric and neurodegenerative disease., Nat Rev Neurosci., 11, p. 589, DOI: 10.1038/nrn2868", "listPosition" : 356, "doi" : "10.1038/nrn2868", "published" : false, "snippet" : true }, { "otype" : "Reference", "mtid" : 21621924, "link" : "/api/reference/21621924", "label" : "357. Xie 2013: Sleep drives metabolite clearance from the adult brain., Science, 342, p. 373, DOI: 10.1126/science.1241224", "listPosition" : 357, "doi" : "10.1126/science.1241224", "published" : false, "snippet" : true }, { "otype" : "Reference", "mtid" : 21621925, "link" : "/api/reference/21621925", "label" : "358. Xing 2020: Transcranial Alternating current stimulation for patients with Mild Alzheimer’s Disease (TRANSFORM-AD study): Protocol for a randomized controlled clinical trial., Alzheimer’s Dement. Transl. Res. Clin. Interv., 6", "listPosition" : 358, "published" : false, "snippet" : true }, { "otype" : "Reference", "mtid" : 21621926, "link" : "/api/reference/21621926", "label" : "359. Xu 2015: Early hyperactivity in lateral entorhinal cortex is associated with elevated levels of AβPP metabolites in the Tg2576 mouse model of Alzheimer’s disease., Exp Neurol., 264, p. 82, DOI: 10.1016/j.expneurol.2014.12.008", "listPosition" : 359, "doi" : "10.1016/j.expneurol.2014.12.008", "published" : false, "snippet" : true }, { "otype" : "Reference", "mtid" : 21621927, "link" : "/api/reference/21621927", "label" : "360. Xu 2015: Deletion of aquaporin-4 in APP/PS1 mice exacerbates brain Aβ accumulation and memory deficits., Mol Neurodegener., 10, p. 58, DOI: 10.1186/s13024-015-0056-1", "listPosition" : 360, "doi" : "10.1186/s13024-015-0056-1", "published" : false, "snippet" : true }, { "otype" : "Reference", "mtid" : 21621928, "link" : "/api/reference/21621928", "label" : "361. Yang 2009: Levetiracetam has a time- and stimulation-dependent effect on synaptic transmission., Seizure., 18, p. 615, DOI: 10.1016/j.seizure.2009.07.004", "listPosition" : 361, "doi" : "10.1016/j.seizure.2009.07.004", "published" : false, "snippet" : true }, { "otype" : "Reference", "mtid" : 21621929, "link" : "/api/reference/21621929", "label" : "362. Yang 2017: Memory and synaptic plasticity are impaired by dysregulated hippocampal O-GlcNAcylation., Sci Rep., 7, p. 44921, DOI: 10.1038/srep44921", "listPosition" : 362, "doi" : "10.1038/srep44921", "published" : false, "snippet" : true }, { "otype" : "Reference", "mtid" : 21621930, "link" : "/api/reference/21621930", "label" : "363. Yu 2003: Regulation and critical role of potassium homeostasis in apoptosis., Prog Neurobiol., 70, p. 363, DOI: 10.1016/S0301-0082(03)00090-X", "listPosition" : 363, "doi" : "10.1016/S0301-0082(03)00090-X", "published" : false, "snippet" : true }, { "otype" : "Reference", "mtid" : 21621931, "link" : "/api/reference/21621931", "label" : "364. Zetterberg 2015: deLeon MJ Clearance systems in the brain-implications for Alzheimer disease., Nat Rev Neurol, 118, p. 457", "listPosition" : 364, "published" : false, "snippet" : true }, { "otype" : "Reference", "mtid" : 21621932, "link" : "/api/reference/21621932", "label" : "365. Zeppenfeld 2017: Association of perivascular localization of aquaporin-4 with cognition and Alzheimer disease in aging brains., JAMA Neurol., 74, p. 91, DOI: 10.1001/jamaneurol.2016.4370", "listPosition" : 365, "doi" : "10.1001/jamaneurol.2016.4370", "published" : false, "snippet" : true }, { "otype" : "Reference", "mtid" : 21621933, "link" : "/api/reference/21621933", "label" : "366. Zhang 2011: Long-term treatment with lithium alleviates memory deficits and reduces amyloid-β production in an aged Alzheimer’s disease transgenic mouse model., J Alzheimers Dis., 24, p. 739, DOI: 10.3233/JAD-2011-101875", "listPosition" : 366, "doi" : "10.3233/JAD-2011-101875", "published" : false, "snippet" : true }, { "otype" : "Reference", "mtid" : 21621934, "link" : "/api/reference/21621934", "label" : "367. Zhang 2004: Retarded axonal transport of R406W mutant tau in transgenic mice with a neurodegenerative tauopathy., J Neurosci., 24, p. 4657, DOI: 10.1523/JNEUROSCI.0797-04.2004", "listPosition" : 367, "doi" : "10.1523/JNEUROSCI.0797-04.2004", "published" : false, "snippet" : true }, { "otype" : "Reference", "mtid" : 21621935, "link" : "/api/reference/21621935", "label" : "368. Zhang 2020: Aquaporin 4 deletion exacerbates brain impairments in a mouse model of chronic sleep disruption., CNS Neurosci Ther., 26, p. 228, DOI: 10.1111/cns.13194", "listPosition" : 368, "doi" : "10.1111/cns.13194", "published" : false, "snippet" : true }, { "otype" : "Reference", "mtid" : 21621936, "link" : "/api/reference/21621936", "label" : "369. Zhang 2014: Lamotrigine attenuates deficits in synaptic plasticity and accumulation of amyloid plaques in APP/PS1 transgenic mice., Neurobiol Aging., 35, p. 2713, DOI: 10.1016/j.neurobiolaging.2014.06.009", "listPosition" : 369, "doi" : "10.1016/j.neurobiolaging.2014.06.009", "published" : false, "snippet" : true }, { "otype" : "Reference", "mtid" : 21621937, "link" : "/api/reference/21621937", "label" : "370. Zhang 2014: Extended Wakefulness: Compromised Metabolics in and Degeneration of Locus Ceruleus Neurons., J Neurosci., 34, p. 4418, DOI: 10.1523/JNEUROSCI.5025-12.2014", "listPosition" : 370, "doi" : "10.1523/JNEUROSCI.5025-12.2014", "published" : false, "snippet" : true }, { "otype" : "Reference", "mtid" : 21621938, "link" : "/api/reference/21621938", "label" : "371. Zhao 2017: Chronic Sleep Restriction Induces Cognitive Deficits and Cortical Beta-Amyloid Deposition in Mice via BACE1-Antisense Activation., CNS Neurosci Ther., 23, p. 233, DOI: 10.1111/cns.12667", "listPosition" : 371, "doi" : "10.1111/cns.12667", "published" : false, "snippet" : true }, { "otype" : "Reference", "mtid" : 21621939, "link" : "/api/reference/21621939", "label" : "372. Zhao 2013: Decreased level of olfactory receptors in blood cells following traumatic brain injury and potential association with tauopathy., J Alzheimers Dis., 34, p. 417, DOI: 10.3233/JAD-121894", "listPosition" : 372, "doi" : "10.3233/JAD-121894", "published" : false, "snippet" : true }, { "otype" : "Reference", "mtid" : 21621940, "link" : "/api/reference/21621940", "label" : "373. Zhou 2020: Suvorexant Ameliorates Cognitive Impairments and Pathology in APP/PS1 Transgenic Mice., Neurobiol Aging., 91, p. 66, DOI: 10.1016/j.neurobiolaging.2020.02.020", "listPosition" : 373, "doi" : "10.1016/j.neurobiolaging.2020.02.020", "published" : false, "snippet" : true }, { "otype" : "Reference", "mtid" : 21621941, "link" : "/api/reference/21621941", "label" : "374. Zhou 2003: Early neuropathological Alzheimer’s changes in aged individuals are accompanied by decreased cerebrospinal fluid melatonin levels., J Pineal Res., 35, p. 125, DOI: 10.1034/j.1600-079X.2003.00065.x", "listPosition" : 374, "doi" : "10.1034/j.1600-079X.2003.00065.x", "published" : false, "snippet" : true }, { "otype" : "Reference", "mtid" : 21621942, "link" : "/api/reference/21621942", "label" : "375. Zhou 2008: Melatonin impairs NADPH oxidase assembly and decreases superoxide anion production in microglia exposed to amyloid-beta1-42., J Pineal Res., 45, p. 157, DOI: 10.1111/j.1600-079X.2008.00570.x", "listPosition" : 375, "doi" : "10.1111/j.1600-079X.2008.00570.x", "published" : false, "snippet" : true }, { "otype" : "Reference", "mtid" : 21621943, "link" : "/api/reference/21621943", "label" : "376. Zhu 2015: Degeneration in arousal neurons in chronic sleep disruption modeling sleep apnea., Front Neurol, 6, p. 109, DOI: 10.3389/fneur.2015.00109", "listPosition" : 376, "doi" : "10.3389/fneur.2015.00109", "published" : false, "snippet" : true }, { "otype" : "Reference", "mtid" : 21621944, "link" : "/api/reference/21621944", "label" : "377. Zhu 2018: Chronic Sleep Disruption Advances the Temporal Progression of Tauopathy in P301S Mutant Mice., J Neurosci., 38, p. 10255, DOI: 10.1523/JNEUROSCI.0275-18.2018", "listPosition" : 377, "doi" : "10.1523/JNEUROSCI.0275-18.2018", "published" : false, "snippet" : true }, { "otype" : "Reference", "mtid" : 21621945, "link" : "/api/reference/21621945", "label" : "378. Ziburkus 2006: Interneuron and pyramidal cell interplay during in vitro seizure-like events., J Neurophysiol., 95, p. 3948, DOI: 10.1152/jn.01378.2005", "listPosition" : 378, "doi" : "10.1152/jn.01378.2005", "published" : false, "snippet" : true }, { "otype" : "Reference", "mtid" : 21621946, "link" : "/api/reference/21621946", "label" : "379. Zielinski 2017: The NLRP3 inflammasome modulates sleep and NREM sleep delta power induced by spontaneous wakefulness, sleep deprivation and lipopolysaccharide., Brain Behav Immun., 62, p. 137, DOI: 10.1016/j.bbi.2017.01.012", "listPosition" : 379, "doi" : "10.1016/j.bbi.2017.01.012", "published" : false, "snippet" : true } ], "hasCitationDuplums" : false, "userChangeableUntil" : "2021-10-04T14:35:01.393+0000", "directInstitutesForSort" : "", "ownerAuthorCount" : 43, "ownerInstituteCount" : 142, "directInstituteCount" : 0, "authorCount" : 2, "contributorCount" : 0, "hasQualityFactor" : true, "link" : "/api/publication/32094805", "label" : "Ahnaou A. et al. Sleep, neuronal hyperexcitability, inflammation and neurodegeneration: does early chronic short sleep trigger and is it the key to overcoming Alzheimer's disease?. (2021) NEUROSCIENCE AND BIOBEHAVIORAL REVIEWS 0149-7634 1873-7528 129 157-179", "template" : "