Wake-active neurons across aging and neurodegeneration: a potential role for sleep disturbances in promoting disease

Stern, Anna L.; Naidoo, Nirinjini

doi:10.1186/s40064-014-0777-6

Cited by 41 publications

(34 citation statements)

References 170 publications

(198 reference statements)

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“…In demonstrating that longer objectively measured TST was negatively associated with memory performance, the present study extended previous research in older adults that has relied on self‐report to associate sleep quantity with poorer memory (Miller et al ., ). One possible explanation relating memory decline and age‐related changes in sleep–wake control would be if they shared a common underlying aetiology; for example, age‐related reductions in wake‐promoting neurons, such as the cholinergic neurons of the nucleus basalis of Meynert, are implicated in both memory performance and sleep–wake control (for review, see Stern and Naidoo, ). Furthermore, in older adults, self‐reported longer sleep duration has been associated with other negative health outcomes, such as higher prevalence of stroke (Fang et al ., ) and increased brain white‐matter hyperintensity volumes (Ramos et al ., ), which are associated with decreased memory performance (Silbert et al ., ).…”

Section: Discussionmentioning

confidence: 99%

Objective but not subjective sleep predicts memory in community‐dwelling older adults

Cavuoto

Ong

Pike

et al. 2016

Journal of Sleep Research

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SUMMARYResearch on the relationship between habitual sleep patterns and memory performance in older adults is limited. No previous study has used objective and subjective memory measures in a large, older-aged sample to examine the association between sleep and various domains of memory. The aim of this study was to examine the association between objective and subjective measures of sleep with memory performance in older adults, controlling for the effects of potential confounds. Onehundred and seventy-three community-dwelling older adults aged 65-89 years in Victoria, Australia completed the study. Objective sleep quality and length were ascertained using the Actiwatch 2 Mini-Mitter, while subjective sleep was measured using the Pittsburgh Sleep Quality Index. Memory was indexed by tests of retrospective memory (Hopkins Verbal Learning Test -Revised), working memory (n-back, 2-back accuracy) and prospective memory (a habitual button pressing task). Compared with normative data, overall performance on retrospective memory function was within the average range. Hierarchical regression was used to determine whether objective or subjective measures of sleep predicted memory performances after controlling for demographics, health and mood. After controlling for confounds, actigraphic sleep indices (greater wake after sleep onset, longer sleep-onset latency and longer total sleep time) predicted poorer retrospective (ΔR 2 = 0.05, P = 0.016) and working memory (ΔR 2 = 0.05, P = 0.047). In contrast, subjective sleep indices did not significantly predict memory performances. In community-based older adults, objectively-measured, habitual sleep indices predict poorer memory performances. It will be important to follow the sample longitudinally to determine trajectories of change over time. IN TROD UCTI ONReductions in the length and quality of sleep are common in normal ageing (Ohayon et al., 2004), and while recent research has evaluated the importance of sleep for general cognition (Yaffe et al., 2007) and memory consolidation postlearning (see Scullin and Bliwise, 2015 for comprehensive review), the relationship between habitual sleep patterns and memory in older adults has not been sufficiently studied (Cochrane et al., 2012;Naismith et al., 2011;Seelye et al., 2015;Wilckens et al., 2014). Deterioration in various domains of memory is common with age, and evaluating the relationship between habitual sleep patterns and domains of memory (such as retrospective memory, working memory and prospective memory) will contribute to strategies for improving cognitive health in ageing populations.In studies using polysomnography, which examines cerebral sleep-wake states in addition to other physiological changes that occur with sleep, and is the gold standard of objective sleep measurement, indices of good sleep quality have been associated with better subsequent memory performance (Lafortune et al

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Section: Discussionmentioning

confidence: 99%

Objective but not subjective sleep predicts memory in community‐dwelling older adults

Cavuoto

Ong

Pike

et al. 2016

Journal of Sleep Research

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“…Beyond the medial temporal lobe, AD post-mortem studies have established that neurofibrillary tangles within the preoptic area of the hypothalamus correlate with the severity of prior fragmented sleep (Lim et al, 2014). Interestingly, tau deposition is also present in other sleep-regulating areas such as the locus coeruleus and basal forebrain and can be observed even in cognitively normal older adults (Braak and Del Tredici, 2016; Braak et al, 2011; Stern and Naidoo, 2015). This leads to the currently untested hypothesis that tau within these regions may trigger sleep abnormalities years before degenerative disease onset and, if such sleep disruption is specific, could serve as an early diagnostic biomarker (Holth et al, 2016).…”

Section: What About Sleep Changes With Age?mentioning

confidence: 99%

Sleep and Human Aging

Mander

Winer

Walker

2017

Neuron

798

619

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Older adults do not sleep as well as younger adults. Why? What alterations in sleep quantity and quality occur as we age, and are there functional consequences? What are the underlying neural mechanisms that explain age-related sleep disruption? This review tackles these questions. First, we describe canonical changes in human sleep quantity and quality in cognitively normal older adults. Second, we explore the underlying neurobiological mechanisms that may account for these human sleep alterations. Third, we consider the functional consequences of age-related sleep disruption, focusing on memory impairment as an exemplar. We conclude with a discussion of a still-debated question: do older adults simply need less sleep, or rather, are they unable to generate the sleep that they still need?

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“…Pathologically, PD is characterized by loss of midbrain dopaminergic neurons and by abnormal accumulation of the protein alpha-synuclein into intraneuronal inclusions called Lewy bodies [80]. PD also involves destruction of multiple wake-active neuronal populations [81], including a decrease in the number of hypothalamic hypocretin neurons [82,83]. …”

Section: Sleep and Circadian Disruptions Are Common In Neurodegeneratmentioning

confidence: 99%

Circadian Rhythms, Sleep, and Disorders of Aging

Mattis

Sehgal

2016

Trends in Endocrinology & Metabolism

272

189

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Sleep:wake cycles are known to be disrupted in people with neurodegenerative disorders. These findings are now supported by data from animal models for some of these disorders, raising the question of whether the disrupted sleep/circadian regulation contributes to the loss of neural function. As circadian rhythms and sleep consolidation also break down with normal aging, changes in these may be part of what makes aging a risk factor for disorders like Alzheimer's disease. Mechanisms underlying the connection between circadian/sleep dysregulation and neurodegeneration remain unclear, but several recent studies provide interesting possibilities. While mechanistic analysis is underway, it is worth considering treatment of circadian/sleep disruption as a means to alleviate symptoms of neurodegenerative disorders.

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Wake-active neurons across aging and neurodegeneration: a potential role for sleep disturbances in promoting disease

Cited by 41 publications

References 170 publications

Objective but not subjective sleep predicts memory in community‐dwelling older adults

Objective but not subjective sleep predicts memory in community‐dwelling older adults

Sleep and Human Aging

Circadian Rhythms, Sleep, and Disorders of Aging

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