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Article type: Review Article
Authors: Daulatzai, Mak Adam; *
Affiliations: Sleep Disorders Group, Department of Electrical and Electronic Engineering University of Melbourne, Parkville, VIC, Australia
Correspondence: [*] Correspondence to: Mak Adam Daulatzai, M.Sc., Ph.D., M.D., Ph.D., Senior Medical Research Fellow, Sleep Disorders Group, Department of Electrical & Electronic Engineering, University of Melbourne, Walter Boas Bldg, 2nd Floor, Room # 218, Parkville, VIC 3010, Australia. Tel.: +61 3 83448830; Fax: +613 93471094; E-mail: [email protected].
Abstract: Alzheimer's disease (AD) is a progressive, neurodegenerative brain disease of the elderly characterized by memory loss, cognition, and behavioral abnormalities. Aging is the single most important risk factor and there is no proven therapy. Aging invariably decreases sensory stimuli and impacts on the thalamocortical system and its connectivity to key brain regions. Memory dysfunction in senescence and early AD, a function of acetylcholine decrease, is accompanied with dysfunctional basal forebrain, parietal, prefrontal, and entorhinal cortices, and indeed hippocampus. Cholinergic neurotransmission protects neurons from amyloid-β production and its toxicity, while cholinergic depletion enhances both. Available data on sleep disordered breathing and genioglossus dysfunction throw light on possible pathogenetic events leading to hypoxemia. Memory disturbances in normal elderly and early AD patients are intimately related to hypoxia, a reduction in blood supply, and glucose hypometabolism in the hippocampus and a number of key brain areas. The current hypothesis on memory impairment in the elderly and Alzheimer's dementia, therefore, underscores age-related sensory losses, functional disconnection between strategic brain regions in conjunction with hypoxemia and hypometabolism. On the basis of available data, it is emphasized that (A) decreases in thalamocortical function decreases cholinergic activity and cerebral blood flow, while nocturnally, (B) repeated hypoxic events affect respiratory cholinergic mechanism and respiratory regulation. Consequently, the hypotrophy/atrophy of nucleus solitarius and nucleus ambiguus in pontomedullary junction affect hypoglossal nucleus, genioglossus function, upper airway patency, hypoxia, and cerebral oxygenation. These alterations may cause amyloid-β deposition extracellularly, and neurofibrillary cytopathology in cholinergic and other neurons intracellularly.
Keywords: Acetylcholine, dementia, hypoxemia, pharyngeal collapse, senescence, sensory, sleep apnea, solitarius/ambiguus
DOI: 10.3233/JAD-2010-1374
Journal: Journal of Alzheimer's Disease, vol. 20, no. 2, pp. 355-367, 2010
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