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Endocrine Reviews Dec 2016Circadian (∼24-hour) timing systems pervade all kingdoms of life and temporally optimize behavior and physiology in humans. Relatively recent changes to our... (Review)
Review
Circadian (∼24-hour) timing systems pervade all kingdoms of life and temporally optimize behavior and physiology in humans. Relatively recent changes to our environments, such as the introduction of artificial lighting, can disorganize the circadian system, from the level of the molecular clocks that regulate the timing of cellular activities to the level of synchronization between our daily cycles of behavior and the solar day. Sleep/wake cycles are intertwined with the circadian system, and global trends indicate that these, too, are increasingly subject to disruption. A large proportion of the world's population is at increased risk of environmentally driven circadian rhythm and sleep disruption, and a minority of individuals are also genetically predisposed to circadian misalignment and sleep disorders. The consequences of disruption to the circadian system and sleep are profound and include myriad metabolic ramifications, some of which may be compounded by adverse effects on dietary choices. If not addressed, the deleterious effects of such disruption will continue to cause widespread health problems; therefore, implementation of the numerous behavioral and pharmaceutical interventions that can help restore circadian system alignment and enhance sleep will be important.
Topics: Chronobiology Phenomena; Humans; Sleep Deprivation; Sleep Disorders, Circadian Rhythm
PubMed: 27763782
DOI: 10.1210/er.2016-1083 -
Current Opinion in Pulmonary Medicine Nov 2020The purpose of this review is to describe the variability of obstructive sleep apnea (OSA), both from a standpoint of underlying mechanisms and in terms of clinical... (Review)
Review
PURPOSE OF REVIEW
The purpose of this review is to describe the variability of obstructive sleep apnea (OSA), both from a standpoint of underlying mechanisms and in terms of clinical manifestations.
RECENT FINDINGS
Recent data suggest that not all patients with sleep apnea get their disease for the same reason. As such, no one variable is effective at defining which patients do or do not have sleep apnea. Identifying the mechanism(s) underlying OSA for an individual is helpful as it can help to determine whether personalized therapy could be developed based on an individual's characteristics. In addition, these underlying mechanisms may be helpful in predicting response to therapy and prognosticating regarding future complications.
SUMMARY
OSA is a heterogeneous disease with highly varying underlying mechanisms. OSA has variable clinical manifestations with definable subsets having risk of particular complications. Future studies will be helpful to identify mechanisms underlying OSA using clinically accessible tools and then using these data to focus individualized treatment approaches.
Topics: Humans; Phenotype; Sleep Apnea, Obstructive
PubMed: 32890019
DOI: 10.1097/MCP.0000000000000724 -
Chest Sep 2021Delirium is a deleterious condition affecting up to 60% of patients in the surgical ICU (SICU). Few SICU-focused delirium interventions have been implemented, including... (Observational Study)
Observational Study
BACKGROUND
Delirium is a deleterious condition affecting up to 60% of patients in the surgical ICU (SICU). Few SICU-focused delirium interventions have been implemented, including those addressing sleep-wake disruption, a modifiable delirium risk factor common in critically ill patients.
RESEARCH QUESTION
What is the effect on delirium and sleep quality of a multicomponent nonpharmacologic intervention aimed at improving sleep-wake disruption in patients in the SICU setting?
STUDY DESIGN AND METHODS
Using a staggered pre-post design, we implemented a quality improvement intervention in two SICUs (general surgery or trauma and cardiovascular) in an academic medical center. After a preintervention (baseline) period, a multicomponent unit-wide nighttime (ie, efforts to minimize unnecessary sound and light, provision of earplugs and eye masks) and daytime (ie, raising blinds, promotion of physical activity) intervention bundle was implemented. A daily checklist was used to prompt staff to complete intervention bundle elements. Delirium was evaluated twice daily using the Confusion Assessment Method for the Intensive Care Unit. Patient sleep quality ratings were evaluated daily using the Richards-Campbell Sleep Questionnaire (RCSQ).
RESULTS
Six hundred forty-six SICU admissions (332 baseline, 314 intervention) were analyzed. Median age was 61 years (interquartile range, 49-70 years); 35% of the cohort were women and 83% were White. During the intervention period, patients experienced fewer days of delirium (proportion ± SD of ICU days, 15 ± 27%) as compared with the preintervention period (20 ± 31%; P = .022), with an adjusted pre-post decrease of 4.9% (95% CI, 0.5%-9.2%; P = .03). Overall RCSQ-perceived sleep quality ratings did not change, but the RCSQ noise subscore increased (9.5% [95% CI, 1.1%-17.5%; P = .02).
INTERPRETATION
Our multicomponent intervention was associated with a significant reduction in the proportion of days patients experienced delirium, reinforcing the feasibility and effectiveness of a nonpharmacologic sleep-wake bundle to reduce delirium in critically ill patients in the SICU.
TRIAL REGISTRY
ClinicalTrials.gov; No.: NCT03313115; URL: www.clinicaltrials.gov.
Topics: Cardiology Service, Hospital; Critical Care; Critical Illness; Delirium; Dyssomnias; Female; Humans; Intensive Care Units; Light Pollution; Male; Middle Aged; Noise; Outcome and Process Assessment, Health Care; Patient Care Bundles; Protective Devices; Quality Improvement; Sleep Quality; Sleep Wake Disorders
PubMed: 33773988
DOI: 10.1016/j.chest.2021.03.030 -
Nutrients Aug 2016Caffeine is commonly consumed to help offset fatigue, however, it can have several negative effects on sleep quality and quantity. The aim of this study was to determine...
Caffeine is commonly consumed to help offset fatigue, however, it can have several negative effects on sleep quality and quantity. The aim of this study was to determine the relationship between caffeine consumption and sleep quality in adults using a newly validated caffeine food frequency questionnaire (C-FFQ). In this cross sectional study, 80 adults (M ± SD: 38.9 ± 19.3 years) attended the University of South Australia to complete a C-FFQ and the Pittsburgh Sleep Quality Index (PSQI). Caffeine consumption remained stable across age groups while the source of caffeine varied. Higher total caffeine consumption was associated with decreased time in bed, as an estimate of sleep time (r = -0.229, p = 0.041), but other PSQI variables were not. Participants who reported poor sleep (PSQI global score ≥ 5) consumed 192.1 ± 122.5 mg (M ± SD) of caffeine which was significantly more than those who reported good sleep quality (PSQI global score < 5; 125.2 ± 62.6 mg; p = 0.008). The C-FFQ was found to be a quick but detailed way to collect population based caffeine consumption data. The data suggests that shorter sleep is associated with greater caffeine consumption, and that consumption is greater in adults with reduced sleep quality.
Topics: Adult; Age Factors; Aged; Aged, 80 and over; Caffeine; Carbonated Beverages; Coffee; Cross-Sectional Studies; Dyssomnias; Feeding Behavior; Female; Humans; Male; Middle Aged; Quality of Life; Self Report; Severity of Illness Index; Sleep Initiation and Maintenance Disorders; South Australia; Tea; Time Factors; Young Adult
PubMed: 27527212
DOI: 10.3390/nu8080479 -
Journal of Clinical Sleep Medicine :... Sep 2021This guideline establishes clinical practice recommendations for the treatment of central disorders of hypersomnolence in adults and children.
INTRODUCTION
This guideline establishes clinical practice recommendations for the treatment of central disorders of hypersomnolence in adults and children.
METHODS
The American Academy of Sleep Medicine commissioned a task force of experts in sleep medicine to develop recommendations and assign strengths to each recommendation, based on a systematic review of the literature and an assessment of the evidence using the GRADE process. The task force provided a summary of the relevant literature and the quality of evidence, the balance of benefits and harms, patient values and preferences, and resource use considerations that support the recommendations. The AASM Board of Directors approved the final recommendations.
RECOMMENDATIONS
The following recommendations are intended to guide clinicians in choosing a specific treatment for central disorders of hypersomnolence in adults and children. Each recommendation statement is assigned a strength ("strong" or "conditional"). A "strong" recommendation (ie, "We recommend…") is one that clinicians should follow under most circumstances. A "conditional" recommendation (ie, "We suggest…") is one that requires that the clinician use clinical knowledge and experience and strongly consider the individual patient's values and preferences to determine the best course of action. Under each disorder, strong recommendations are listed in alphabetical order followed by the conditional recommendations in alphabetical order. The section on adult patients with hypersomnia because of medical conditions is categorized based on the clinical and pathological subtypes identified in ICSD-3. The interventions in all the recommendation statements were compared to no treatment.
1
We recommend that clinicians use modafinil for the treatment of narcolepsy in adults. (STRONG).
2
We recommend that clinicians use pitolisant for the treatment of narcolepsy in adults. (STRONG).
3
We recommend that clinicians use sodium oxybate for the treatment of narcolepsy in adults. (STRONG).
4
We recommend that clinicians use solriamfetol for the treatment of narcolepsy in adults. (STRONG).
5
We suggest that clinicians use armodafinil for the treatment of narcolepsy in adults. (CONDITIONAL).
6
We suggest that clinicians use dextroamphetamine for the treatment of narcolepsy in adults. (CONDITIONAL).
7
We suggest that clinicians use methylphenidate for the treatment of narcolepsy in adults. (CONDITIONAL).
8
We recommend that clinicians use modafinil for the treatment of idiopathic hypersomnia in adults. (STRONG).
9
We suggest that clinicians use clarithromycin for the treatment of idiopathic hypersomnia in adults. (CONDITIONAL).
10
We suggest that clinicians use methylphenidate for the treatment of idiopathic hypersomnia in adults. (CONDITIONAL).
11
We suggest that clinicians use pitolisant for the treatment of idiopathic hypersomnia in adults. (CONDITIONAL).
12
We suggest that clinicians use sodium oxybate for the treatment of idiopathic hypersomnia in adults. (CONDITIONAL).
13
We suggest that clinicians use lithium for the treatment of Kleine-Levin syndrome in adults. (CONDITIONAL).
14
We suggest that clinicians use armodafinil for the treatment of hypersomnia secondary to dementia with Lewy bodies in adults. (CONDITIONAL).
15
We suggest that clinicians use modafinil for the treatment of hypersomnia secondary to Parkinson's disease in adults. (CONDITIONAL).
16
We suggest that clinicians use sodium oxybate for the treatment of hypersomnia secondary to Parkinson's disease in adults. (CONDITIONAL).
17
We suggest that clinicians use armodafinil for the treatment of hypersomnia secondary to traumatic brain injury in adults. (CONDITIONAL).
18
We suggest that clinicians use modafinil for the treatment of hypersomnia secondary to traumatic brain injury in adults. (CONDITIONAL).
19
We suggest that clinicians use modafinil for the treatment of hypersomnia secondary to myotonic dystrophy in adults. (CONDITIONAL).
20
We suggest that clinicians use modafinil for the treatment of hypersomnia secondary to multiple sclerosis in adults. (CONDITIONAL).
21
We suggest that clinicians use modafinil for the treatment of narcolepsy in pediatric patients. (CONDITIONAL).
22
We suggest that clinicians use sodium oxybate for the treatment of narcolepsy in pediatric patients. (CONDITIONAL).
CITATION
Maski K, Trotti LM, Kotagal S, et al. Treatment of central disorders of hypersomnolence: an American Academy of Sleep Medicine clinical practice guideline. . 2021;17(9):1881-1893.
Topics: Adult; Child; Disorders of Excessive Somnolence; Humans; Idiopathic Hypersomnia; Modafinil; Narcolepsy; Sleep; United States
PubMed: 34743789
DOI: 10.5664/jcsm.9328 -
Sleep Medicine Reviews Aug 2015The ineffectiveness of sleep hygiene as a treatment in clinical sleep medicine has raised some interesting questions. If it is known that, individually, each specific... (Review)
Review
The ineffectiveness of sleep hygiene as a treatment in clinical sleep medicine has raised some interesting questions. If it is known that, individually, each specific component of sleep hygiene is related to sleep, why wouldn't addressing multiple individual components (i.e., sleep hygiene education) improve sleep? Is there still a use for sleep hygiene? Global public health concern over sleep has increased demand for sleep promotion strategies accessible to the population. However, the extent to which sleep hygiene strategies apply outside clinical settings is not well known. The present review sought to evaluate the empirical evidence for sleep hygiene recommendations regarding exercise, stress management, noise, sleep timing, and avoidance of caffeine, nicotine, alcohol, and daytime napping, with a particular emphasis on their public health utility. Thus, our review is not intended to be exhaustive regarding the clinical application of these techniques, but rather to focus on broader applications. Overall, though epidemiologic and experimental research generally supported an association between individual sleep hygiene recommendations and nocturnal sleep, the direct effects of individual recommendations on sleep remains largely untested in the general population. Suggestions for clarification of sleep hygiene recommendations and considerations for the use of sleep hygiene in nonclinical populations are discussed.
Topics: Dyssomnias; Health Promotion; Humans; Public Health; Sleep; Sleep Medicine Specialty
PubMed: 25454674
DOI: 10.1016/j.smrv.2014.10.001 -
Sleep Medicine Clinics Dec 2021Sleep studies have typically followed criteria established many decades ago, but emerging technologies allow signal analyses that go far beyond the scoring rules for... (Review)
Review
Sleep studies have typically followed criteria established many decades ago, but emerging technologies allow signal analyses that go far beyond the scoring rules for manual analysis of sleep recordings. These technologies may apply to the analysis of signals obtained in standard polysomnography in addition to novel signals more recently developed that provide both direct and indirect measures of sleep and breathing in the ambulatory setting. Automated analysis of signals such as electroencephalogram and oxygen saturation, in addition to heart rate and rhythm, provides a wealth of additional information on sleep and breathing disturbances and their potential for comorbidity.
Topics: Humans; Oximetry; Polysomnography; Sleep; Sleep Apnea Syndromes; Sleep Apnea, Obstructive
PubMed: 34711382
DOI: 10.1016/j.jsmc.2021.08.001 -
American Journal of Respiratory and... Dec 2014
Topics: Humans; Sleep Initiation and Maintenance Disorders
PubMed: 25496112
DOI: 10.1164/rccm.19012P9 -
Dialogues in Clinical Neuroscience 2005Hypersomnia, a complaint of excessive daytime sleep or sleepiness, affects 4% to 6% of the population, with an impact on the everyday life of the patient Methodological... (Review)
Review
Hypersomnia, a complaint of excessive daytime sleep or sleepiness, affects 4% to 6% of the population, with an impact on the everyday life of the patient Methodological tools to explore sleep and wakefulness (interview, questionnaires, sleep diary, polysomnography, Multiple Sleep Latency Test, Maintenance of Wakefulness Test) and psychomotor tests (for example, psychomotor vigilance task and Oxford Sleep Resistance or Osler Test) help distinguish between the causes of hypersomnia. In this article, the causes of hypersomnia are detailed following the conventional classification of hypersomnic syndromes: narcolepsy, idiopathic hypersomnia, recurrent hypersomnia, insufficient sleep syndrome, medication- and toxin-dependent sleepiness, hypersomnia associated with psychiatric disorders, hypersomnia associated with neurological disorders, posttraumatic hypersomnia, infection (with a special emphasis on the differences between bacterial and viral diseases compared with parasitic diseases, such as sleeping sickness) and hypersomnia, hypersomnia associated with metabolic or endocrine diseases, breathing-related sleep disorders and sleep apnea syndromes, and periodic limb movements in sleep.
Topics: Circadian Rhythm; Disorders of Excessive Somnolence; Humans; Idiopathic Hypersomnia; Infections; Mental Disorders; Metabolic Diseases; Narcolepsy; Nervous System Diseases; Toxins, Biological
PubMed: 16416710
DOI: 10.31887/DCNS.2005.7.4/ydauvilliers -
Clinics in Chest Medicine Jun 2022Sleep deficiency in patients with obstructive sleep apnea includes abnormal quality, timing, and duration of sleep, and the presence of other comorbid conditions. These... (Review)
Review
Sleep deficiency in patients with obstructive sleep apnea includes abnormal quality, timing, and duration of sleep, and the presence of other comorbid conditions. These include insomnia, circadian misalignment disorders, and periodic limb movements of sleep. The co-occurrence of these conditions with obstructive sleep apnea likely plays a role in the pathogenesis, clinical presentation, and management of obstructive sleep apnea. Considering these conditions and their treatment in evaluating sleep deficiency in obstructive sleep apnea may help to improve patient outcomes. However, future research is needed to understand the intersection between obstructive sleep apnea and these disorders.
Topics: Humans; Sleep; Sleep Apnea Syndromes; Sleep Apnea, Obstructive; Sleep Initiation and Maintenance Disorders
PubMed: 35659030
DOI: 10.1016/j.ccm.2022.02.013