Neurobiology of Arousal and Sleep: Updates and Insights Into Neurological Disorders

Lim, Miranda M.; Szymusiak, Ronald

doi:10.1007/s40675-015-0013-0

Cited by 20 publications

(15 citation statements)

References 102 publications

(115 reference statements)

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“…Hypersomnia seems to be characterized by a rapid, hardly quantifiable change between wakefulness and sleep during the day. Some evidence suggests that the establishment and maintenance of an adequate arousal level may be impaired, particularly in the case of neurological diseases accompanied by functional or structural changes of the brain and central nervous system [ 37 , 38 ]. Since the majority of the participating patients had neurological diseases, it is plausible that these processes might have been disturbed.…”

Section: Discussionmentioning

confidence: 99%

Insights into the Frequency and Distinguishing Features of Sleep Disorders in Pediatric Palliative Care Incorporating a Systematic Sleep Protocol

et al. 2021

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Currently, no concrete figures on sleep disorders and sleep characteristics in children and adolescents with life-limiting conditions (LLC) and severe neurological impairment (SNI) based on pediatric palliative care professionals’ assessment and following an official classification system such as the International Classification of Sleep Disorders (ICSD-3) exist. The ICSD-3 sleep disorders of inpatient children and adolescents with LLC and SNI (N = 70) were assessed by professionals using a recording sheet (two-year recruitment period). A systematic sleep protocol was applied to identify patients’ sleep characteristics. Of these patients, 45.6% had sleep disorders, with the majority of them experiencing two different ones. Overall, the most frequently identified disorders were Chronic Insomnia and Circadian Sleep–Wake Disorder. Patients experiencing Chronic Insomnia showed more sleep phases during the daytime and more waking phases at nighttime than those unaffected. Patients with and without a Circadian Sleep–Wake Disorder additionally differed in the length of sleep phases during the daytime. Rapid changes between wakefulness and sleep were specifically characteristic of Hypersomnia. The study provides important insights into the prevalence and characteristics of individual ICSD-3 sleep disorders in pediatric palliative care. The findings may contribute to a targeted and efficient diagnosis and therapy of distressing sleep problems in seriously ill patients.

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Section: Discussionmentioning

confidence: 99%

Insights into the Frequency and Distinguishing Features of Sleep Disorders in Pediatric Palliative Care Incorporating a Systematic Sleep Protocol

et al. 2021

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“…The SCN neurons project to different areas of the hypothalamus in a complex manner and these projections are responsible for the circuit activity of neurotransmitters and neuropeptides that regulate the sleep/wake cycle. These include melatonin, serotonin, NE, acetylcholine, glutamate, GABA, dopamine, orexin, neurotensin, vasopressin, and vasoactive intestinal peptide (VIP; Lim and Szymusiak, 2015;Van Erum et al, 2018). A detailed description of the circuits is beyond the scope of this review.…”

Section: The Molecular Mechanisms Of Sleepmentioning

confidence: 99%

Steps Towards Developing Effective Treatments for Neuropsychiatric Disturbances in Alzheimer’s Disease: Insights From Preclinical Models, Clinical Data, and Future Directions

Clement

Wiborg

Asuni

2020

Front. Aging Neurosci.

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Alzheimer's disease (AD) is the most common form of dementia worldwide. It is mostly known for its devastating effect on memory and learning but behavioral alterations commonly known as neuropsychiatric disturbances (NPDs) are also characteristics of the disease. These include apathy, depression-like behavior, and sleep disturbances, and they all contribute to an increased caregiver burden and earlier institutionalization. The interaction between NPDs and AD pathology is not well understood, but the consensus is that they contribute to disease progression and faster decline. Consequently, recognizing and treating NPDs might improve AD pathology and increase the quality of life for both patients and caregivers. In this review article, we examine previous and current literature on apathy, depressive symptoms, and sleep disturbances in AD patients and preclinical AD mechanistic models. We hypothesize that tau accumulation, beta-amyloid (Aβ) aggregation, neuroinflammation, mitochondrial damage, and loss of the locus coeruleus (LC)-norepinephrine (NE) system all collectively impact the development of NPDs and contribute synergistically to AD pathology. Targeting more than one of these processes might provide the most optimal strategy for treating NPDs and AD. The development of such clinical approaches would be preceded by preclinical studies, for which robust and reliable mechanistic models of NPD-like behavior are needed. Thus, developing effective preclinical research models represents an important step towards a better understanding of NPDs in AD.

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“…Thus, the cerebral ascending reticular activating system (ARAS) particularly responsible for waking maintenance was discovered. Initially, it was considered to be diffused; however, modern neuromorphology has distinguished about ten separate clusters of nerve cell bodies releasing various chemical mediators, the so-called "waking centers" that are located "inside" the ARAS at all the levels of the cerebral axis [2,[4][5][6] (Figure 1a). After the studies by Moruzzi and Magoun, it became clear that the normal functioning of the thalamocortical system of the brain, which provides the entire range of human conscious activity during wakefulness, is possible only if a strong tonic activating inflow from the definite subcortical structures is available [7] .…”

Section: Reticular Formation Of the Brain Stemmentioning

confidence: 99%

Section: Reticular Formation Of the Brain Stemmentioning

confidence: 99%

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Ascending Reticular Activating System of the Brain

Kovalzon

2016

Translational Neuroscience and Clinics

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KEYWORDS ascending reticular activating system; brain There were two stages in the history of the studies on ascending reticular activating system of the brain (ARAS). The first stage began with the ARAS discovery by Magoun and Moruzzi and the following investigations using the methods of stimulation and lesion at that time mainly in acute cats. These studies led to the hypothesis of a "diffuse" and "unspecific" ARAS of the brain stem. The second stage was associated with using more precise neurophysiological and histochemical methods mainly in chronically operated free-moving cats and rats. By 2010, the idea of the ARAS as an organized hierarchy of the cerebral "waking centers" distributed along the entire cerebral axis and releasing all the known neuromediators of low molecular weight together with the most important neuropeptides was formulated. To date, the aforementioned hypothesis has been revised again. The glutamatergic activating system has been discovered and described in detail. Presumably, this system is responsible for the appearance of electroencephalogram (EEG) arousal reaction and maintenance of the neocortex in the state of tonic depolarization during wakefulness and rapid eye movement (REM) sleep. Its destruction results in a deep comatose-like state. At the same time, the activity of all other "waking centers" is probably the result of the cortical activation.Citation Kovalzon VM. Ascending reticular activating system of the brain. Transl. Neurosci. Clin. 2016, 2(4): 275-285.

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Neurobiology of Arousal and Sleep: Updates and Insights Into Neurological Disorders

Cited by 20 publications

References 102 publications

Insights into the Frequency and Distinguishing Features of Sleep Disorders in Pediatric Palliative Care Incorporating a Systematic Sleep Protocol

Insights into the Frequency and Distinguishing Features of Sleep Disorders in Pediatric Palliative Care Incorporating a Systematic Sleep Protocol

Steps Towards Developing Effective Treatments for Neuropsychiatric Disturbances in Alzheimer’s Disease: Insights From Preclinical Models, Clinical Data, and Future Directions

Ascending Reticular Activating System of the Brain

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