Jump to content

Sleep disorder

From Wikipedia, the free encyclopedia
(Redirected from Sleep fragmentation)
Sleep disorder
A child sits on a hospital bed in pyjamas with soft toys. Along with other measurement devices, the child has electrodes taped to their scalp and face.
Pediatric polysomnography
SpecialtyClinical psychology, Psychiatry, Sleep medicine, Neurology

A sleep disorder, or somnipathy, is a medical disorder of an individual's sleep patterns. Some sleep disorders are severe enough to interfere with normal physical, mental, social and emotional functioning. Sleep disorders are frequent and can have serious consequences on patients' health and quality of life.[1] Polysomnography and actigraphy are tests commonly ordered for diagnosing sleep disorders.

Sleep disorders are broadly classified into dyssomnias, parasomnias, circadian rhythm sleep disorders involving the timing of sleep, and other disorders including ones caused by medical or psychological conditions. When a person struggles to fall asleep or stay asleep with no obvious cause , it is referred to as insomnia,[2] which is the most common sleep disorder.[3] Others include sleep apnea, narcolepsy and hypersomnia (excessive sleepiness at inappropriate times), sleeping sickness (disruption of sleep cycle due to infection), sleepwalking, and night terrors.

Sleep disruptions can be caused by various issues, including teeth grinding (bruxism) and night terrors. Management of sleep disturbances that are secondary to mental, medical or substance abuse disorders should focus on the underlying conditions.[4]

Primary sleep disorders are common in both children and adults. However, there is a significant lack of awareness of children with sleep disorders, due to most cases being unidentified.[5] Several common factors involved in the onset of a sleep disorder include increased medication use, age-related changes in circadian rhythms, environmental changes, lifestyle changes,[6] pre-diagnosed physiological problems, or stress. Among the elderly, the risk of developing sleep disordered breathing, periodic limb movements, restless legs syndrome, REM sleep behavior disorders, insomnia, and circadian rhythm disturbances is especially increased.[6]

Causes

[edit]
Centers for Disease Control and Prevention (CDC) recommendations for the amount of sleep needed decrease with age.[7] While sleep quantity is important, good sleep quality is also essential to avoid sleep disorders.[7]

A systematic review found that traumatic childhood experiences (such as family conflict or sexual trauma) significantly increases the risk for a number of sleep disorders in adulthood, including sleep apnea, narcolepsy, and insomnia.[8]

In addition, an evidence-based synopsis suggests that idiopathic REM sleep behavior disorder (iRBD) may have a hereditary component. A total of 632 participants, half with iRBD and half without, completed self-report questionnaires. The results of the study suggest that people with iRBD are more likely to report having a first-degree relative with the same sleep disorder than people of the same age and sex that do not have the disorder.[9] More research needs to be conducted to further understand the hereditary nature of sleep disorders.

A population susceptible to the development of sleep disorders includes people who have experienced a traumatic brain injury (TBI). Because many researchers have focused on this issue, a systematic review was conducted to synthesize their findings. The results indicate that individuals who experienced a TBI are most disproportionately at risk for developing narcolepsy, obstructive sleep apnea, excessive daytime sleepiness, and insomnia.[10]

Sleep disorders and neurodegenerative diseases

[edit]

Neurodegenerative diseases have often been associated with sleep disorders,[11][12] mainly when they are characterized by abnormal accumulation of alpha-synuclein, such as multiple system atrophy (MSA), Parkinson's disease (PD)[13][14] and Lewy body disease (LBD).[15][16] For instance, people diagnosed with PD have often presented different kinds of sleep concerns, commonly in regard to insomnia (around 70% of the PD population), hypersomnia (more than 50% of the PD population), and REM sleep behavior disorder (RBD) - that may affect around 40% of the PD population and it is associated with increased motor symptoms.[13][12] Furthermore, RBD has been highlighted as a strong precursor for future development of those neurodegenerative diseases over several years in prior, which seems to be a great opportunity for improving the treatments of the disease.[11][12]

The neurodegenerative conditions are commonly related to structural brain impairment, which might disrupt the states of sleep and wakefulness, circadian rhythm, motor or non motor functioning.[11][12] On the other hand, sleep disturbances are frequently related to worsening patient's cognitive functioning, emotional state and quality of life.[12][16] Furthermore, these abnormal behavioral symptoms negatively contribute to overwhelming their relatives and caregivers.[12][16] The limited research related to it and the increasing life expectancy calls for a deeper understanding of the relationship between sleep disorders and neurodegenerative disease.[11][17]

Sleep disturbances and Alzheimer's disease

[edit]

Sleep disturbances have been also observed in Alzheimer's disease (AD), affecting about 45% of its population.[11][12] When based on caregiver reports, this percentage increases to about 70%.[17] As well as in PD population, insomnia and hypersomnia are frequently recognized in AD patients, which have been associated with accumulation of beta-amyloid, circadian rhythm sleep disorders (CRSD) and melatonin alteration.[11][12] Additionally, changes in sleep architecture are observed in AD.[11][12][15] Although sleep architecture seems to naturally change with age, its development appears aggravated in AD patients. SWS potentially decreases (and is sometimes absent), spindles and the length of time spent in REM sleep are also reduced, while its latency increases.[17] Poor sleep onset in AD has been associated with dream-related hallucination, increased restlessness, wandering and agitation that seem related to sundowning - a typical chronobiological phenomenon presented in the disease.[12][17]

In Alzheimer's disease, in addition to cognitive decline and memory impairment, there are also significant sleep disturbances with modified sleep architecture.[18][19] The latter may consist in sleep fragmentation, reduced sleep duration, insomnia, increased daytime napping, decreased quantity of some sleep stages, and a growing resemblance between some sleep stages (N1 and N2).[19] More than 65% of people with Alzheimer's disease have this type of sleep disturbance.[19]

One factor that could explain this change in sleep architecture is a change in circadian rhythm, which regulates sleep.[19] A disruption of the circadian rhythm would generate sleep disturbances.[19] Some studies show that people with AD have a delayed circadian rhythm, whereas in normal aging, an advanced circadian rhythm is present.[19][20]

In addition to these psychological symptoms, at a neurological level there are two main symptoms of Alzheimer's disease.[18][19] The first is an accumulation of beta-amyloid waste forming aggregate "plaques".[19][18] The second is an accumulation of tau protein.[19][18]

It has been shown that the sleep-wake cycle acts on the beta-amyloid burden, which is a central component found in AD.[19][18] As individuals awaken, the production of beta-amyloid protein will be more consistent than its production during sleep.[19][18][21] This is explained by two phenomena. The first is that the metabolic activity will be higher during waking, thus resulting in greater secretion of beta-amyloid protein.[19][18] The second is that oxidative stress will also increase, which leads to greater AB production.[19][18]

On the other hand, it is during sleep that beta-amyloid residues are degraded to prevent plaque formation.[19][18][21] The glymphatic system is responsible for this through the phenomenon of glymphatic clearance.[19][18][21] Thus, during wakefulness, the AB burden is greater because the metabolic activity and oxidative stress are higher, and there is no protein degradation by the glymphatic clearance. During sleep, the burden is reduced as there is less metabolic activity and oxidative stress (in addition to the glymphatic clearance that occurs).[18][19]

Glymphatic clearance occurs during the NREM SWS sleep.[19][18][21] This sleep stage decreases in normal aging,[18] resulting in less glymphatic clearance and increased AB burden that will form AB plaques.[21][19][18] Therefore, sleep disturbances in individuals with AD will amplify this phenomenon.

The decrease in the quantity and quality of the NREM SWS, as well as the disturbances of sleep will therefore increase the AB plaques.[19][18] This initially occurs in the hippocampus, which is a brain structure integral in long-term memory formation.[19][18] Hippocampus cell death occurs, which contributes to diminished memory performance and cognitive decline found in AD.[19]

Although the causal relationship is unclear, the development of AD correlates with the development of prominent sleep disorders.[19] In the same way, sleep disorders exacerbate disease progression, forming a positive feedback relationship.[19] As a result, sleep disturbances are no longer only a symptom of AD; the relationship between sleep disturbances and AD is bidirectional.[18]

At the same time, it has been shown that memory consolidation in long-term memory (which depends on the hippocampus) occurs during NREM sleep.[19][22] This indicates that a decrease in the NREM sleep will result in less consolidation, resulting in poorer memory performances in hippocampal-dependent long-term memory.[19][22] This drop in performance is one of the central symptoms of AD.[19]

Recent studies have also linked sleep disturbances, neurogenesis and AD.[19] The subgranular zone and the subventricular zone continued to produce new neurons in adult brains.[19][23] These new cells are then incorporated into neuronal circuits and the subgranular zone, which is found in the hippocampus.[19][23] These new cells contribute to learning and memory, playing an essential role in hippocampal-dependent memory.[19]

However, recent studies have shown that several factors can interrupt neurogenesis,[19] including stress and prolonged sleep deprivation (more than one day).[19] The sleep disturbances encountered in AD could therefore suppress neurogenesis—and thus impair hippocampal functions.[19] This would contribute to diminished memory performances and the progression of AD,[19] and the progression of AD would aggravate sleep disturbances.[19]

Changes in sleep architecture found in patients with AD occur during the preclinical phase of AD.[19] These changes could be used to detect those most at risk of developing AD.[19] However, this is still only theoretical.

While the exact mechanisms and the causal relationship between sleep disturbances and AD remains unclear, these findings already provide a better understanding and offer possibilities to improve targeting of at-risk populations—and the implementation of treatments to curb the cognitive decline of AD patients.

Sleep disorder symptoms in psychiatric illnesses

[edit]

Schizophrenia

[edit]

In individuals with psychiatric illnesses sleep disorders may include a variety of clinical symptoms, including but not limited to: excessive daytime sleepiness, difficulty falling asleep, difficulty staying asleep, nightmares, sleep talking, sleepwalking, and poor sleep quality.[24] Sleep disturbances - insomnia, hypersomnia and delayed sleep-phase disorder - are quite prevalent in severe mental illnesses such as psychotic disorders.[25] In those with schizophrenia, sleep disorders contribute to cognitive deficits in learning and memory. Sleep disturbances often occur before the onset of psychosis.

Sleep deprivation can also produce hallucinations, delusions and depression.[26] A 2019 study investigated the three above-mentioned sleep disturbances in schizophrenia-spectrum (SCZ) and bipolar (BP) disorders in 617 SCZ individuals, 440 BP individuals, and 173 healthy controls (HC). Sleep disturbances were identified using the Inventory for Depressive Symptoms - clinician rated scale (IDS-C).[25] Results suggested that at least one type of sleep disturbance was reported in 78% of the SCZ population, in 69% individuals with BD, and in 39% of healthy controls.[25] The SCZ group reported the most number of sleep disturbances compared to the BD and HC groups; specifically, hypersomnia was more frequent among individuals with SCZ, and delayed sleep phase disorder was three times more common in the SCZ group compared to the BD group.[25] Insomnias were the most frequently reported sleep disturbance across all three groups.[25]

Bipolar disorder

[edit]

One of the main behavioral symptoms of bipolar disorder is abnormal sleep. Studies have suggested that 23-78% of individuals with bipolar disorders consistently report symptoms of excessive time spent sleeping, or hypersomnia.[24] The pathogenesis of bipolar disorder, including the higher risk of suicidal ideation, could possibly be linked to circadian rhythm variability, and sleep disturbances are a good predictor of mood swings.[27] The most common sleep-related symptom of bipolar disorder is insomnia, in addition to hypersomnia, nightmares, poor sleep quality, OSA, extreme daytime sleepiness, etc.[27] Moreover, animal models have shown that sleep debt can induce episodes of bipolar mania in laboratory mice, but these models are still limited in their potential to explain bipolar disease in humans with all its multifaceted symptoms, including those related to sleep disturbances.[28]

Major depressive disorder (MDD)

[edit]

Sleep disturbances (insomnia or hypersomnia) are not a necessary diagnostic criterion—but one of the most frequent symptoms of individuals with major depressive disorder (MDD).[29] Among individuals with MDD, insomnia and hypersomnia have prevalence estimates of 88% and 27%, respectively, whereas individuals with insomnia have a threefold increased risk of developing MDD.[30] Depressed mood and sleep efficiency strongly co-vary, and while sleep regulation problems may precede depressive episodes, such depressive episodes may also precipitate sleep deprivation.[30] Fatigue, as well as sleep disturbances such as irregular and excessive sleepiness, are linked to symptoms of depression.[30] Recent research has even pointed to sleep problems and fatigues as potential driving forces bridging MDD symptoms to those of co-occurring generalized anxiety disorder.[31]

Treatment

[edit]
Sign with text: Sömnförsök pågår (Sleep study in progress), room for sleep studies in NÄL hospital, Sweden.

Treatments for sleep disorders generally can be grouped into four categories:

None of these general approaches are sufficient for all patients with sleep disorders. Rather, the choice of a specific treatment depends on the patient's diagnosis, medical and psychiatric history, and preferences, as well as the expertise of the treating clinician. Often, behavioral/psychotherapeutic and pharmacological approaches may be compatible, and can effectively be combined to maximize therapeutic benefits.

Management of sleep disturbances that are secondary to mental, medical, or substance abuse disorders should focus on the underlying conditions.[32] Medications and somatic treatments may provide the most rapid symptomatic relief from certain disorders, such as narcolepsy, which is best treated with prescription drugs such as modafinil.[33] Others, such as chronic and primary insomnia, may be more amenable to behavioral interventions—with more durable results.

Chronic sleep disorders in childhood, which affect some 70% of children with developmental or psychological disorders, are under-reported and under-treated. Sleep-phase disruption is also common among adolescents, whose school schedules are often incompatible with their natural circadian rhythm. Effective treatment begins with careful diagnosis using sleep diaries and perhaps sleep studies. Modifications in sleep hygiene may resolve the problem, but medical treatment is often warranted.[34]

Special equipment may be required for treatment of several disorders such as obstructive apnea, circadian rhythm disorders and bruxism. In severe cases, it may be necessary for individuals to accept living with the disorder, however well managed.

Some sleep disorders have been found to compromise glucose metabolism.[35]

Allergy treatment

[edit]

Histamine plays a role in wakefulness in the brain. An allergic reaction over produces histamine, causing wakefulness and inhibiting sleep.[36] Sleep problems are common in people with allergic rhinitis. A study from the N.I.H. found that sleep is dramatically impaired by allergic symptoms, and that the degree of impairment is related to the severity of those symptoms.[37][38] Treatment of allergies has also been shown to help sleep apnea.[39]

Acupuncture

[edit]

A review of the evidence in 2012 concluded that current research is not rigorous enough to make recommendations around the use of acupuncture for insomnia.[40] The pooled results of two trials on acupuncture showed a moderate likelihood that there may be some improvement to sleep quality for individuals with insomnia.[40]: 15  This form of treatment for sleep disorders is generally studied in adults, rather than children. Further research would be needed to study the effects of acupuncture on sleep disorders in children.

Hypnosis

[edit]

Research suggests that hypnosis may be helpful in alleviating some types and manifestations of sleep disorders in some patients.[41] "Acute and chronic insomnia often respond to relaxation and hypnotherapy approaches, along with sleep hygiene instructions."[42] Hypnotherapy has also helped with nightmares and sleep terrors. There are several reports of successful use of hypnotherapy for parasomnias[43][44] specifically for head and body rocking, bedwetting and sleepwalking.[45]

Hypnotherapy has been studied in the treatment of sleep disorders in both adults[45] and children.[46]

Music therapy

[edit]

Although more research should be done to increase the reliability of this method of treatment, research suggests that music therapy can improve sleep quality in acute and chronic sleep disorders. In one particular study, participants (18 years or older) who had experienced acute or chronic sleep disorders were put in a randomly controlled trial, and their sleep efficiency, in the form of overall time asleep, was observed. In order to assess sleep quality, researchers used subjective measures (i.e. questionnaires) and objective measures (i.e. polysomnography). The results of the study suggest that music therapy did improve sleep quality in subjects with acute or chronic sleep disorders, though only when tested subjectively. Although these results are not fully conclusive and more research should be conducted, it still provides evidence that music therapy can be an effective treatment for sleep disorders.[47]

In another study specifically looking to help people with insomnia, similar results were seen. The participants that listened to music experienced better sleep quality than those who did not listen to music.[48] Listening to slower pace music before bed can help decrease the heart rate, making it easier to transition into sleep. Studies have indicated that music helps induce a state of relaxation that shifts an individual's internal clock towards the sleep cycle. This is said to have an effect on children and adults with various cases of sleep disorders.[49][50] Music is most effective before bed once the brain has been conditioned to it, helping to achieve sleep much faster.[51]

Melatonin

[edit]

Research suggests that melatonin is useful in helping people fall asleep faster (decreased sleep latency), stay asleep longer, and experience improved sleep quality. To test this, a study was conducted that compared subjects who had taken melatonin to subjects with primary sleep disorders who had taken a placebo. Researchers assessed sleep onset latency, total minutes slept, and overall sleep quality in the melatonin and placebo groups to note the differences. In the end, researchers found that melatonin decreased sleep onset latency and increased total sleep time [52][53] but had an insignificant and inconclusive impact on the quality of sleep compared to the placebo group.

Sleep medicine

[edit]

Due to rapidly increasing knowledge and understanding of sleep in the 20th century, including the discovery of REM sleep in the 1950s and circadian rhythm disorders in the 70s and 80s, the medical importance of sleep was recognized. By the 1970s in the US, clinics and laboratories devoted to the study of sleep and sleep disorders had been founded, and a need for standards arose. The medical community began paying more attention to primary sleep disorders, such as sleep apnea, as well as the role and quality of sleep in other conditions.

Sleep Medication.

Specialists in sleep medicine were originally and continue to be certified by the American Board of Sleep Medicine. Those passing the Sleep Medicine Specialty Exam received the designation "diplomate of the ABSM". Sleep medicine is now a recognized subspecialty within internal medicine, family medicine, pediatrics, otolaryngology, psychiatry and neurology in the United States. Certification in Sleep medicine shows that the specialist:

has demonstrated expertise in the diagnosis and management of clinical conditions that occur during sleep, that disturb sleep, or that are affected by disturbances in the wake-sleep cycle. This specialist is skilled in the analysis and interpretation of comprehensive polysomnography, and well-versed in emerging research and management of a sleep laboratory.[54]

Competence in sleep medicine requires an understanding of a myriad of very diverse disorders. Many of which present with similar symptoms such as excessive daytime sleepiness, which, in the absence of volitional sleep deprivation, "is almost inevitably caused by an identifiable and treatable sleep disorder", such as sleep apnea, narcolepsy, idiopathic hypersomnia, Kleine–Levin syndrome, menstrual-related hypersomnia, idiopathic recurrent stupor, or circadian rhythm disturbances.[55] Another common complaint is insomnia, a set of symptoms which can have a great many different causes, physical and mental. Management in the varying situations differs greatly and cannot be undertaken without a correct diagnosis.[56]

Sleep dentistry (bruxism, snoring and sleep apnea), while not recognized as one of the nine dental specialties, qualifies for board-certification by the American Board of Dental Sleep Medicine (ABDSM). The qualified dentists collaborate with sleep physicians at accredited sleep centers, and can provide oral appliance therapy and upper airway surgery to treat or manage sleep-related breathing disorders.[57] The resulting diplomate status is recognized by the American Academy of Sleep Medicine (AASM), and these dentists are organized in the Academy of Dental Sleep Medicine (USA).[58]

Occupational therapy is an area of medicine that can also address a diagnosis of sleep disorder, as rest and sleep is listed in the Occupational Therapy Practice Framework (OTPF) as its own occupation of daily living.[59] Rest and sleep are described as restorative in order to support engagement in other occupational therapy occupations.[59] In the OTPF, the occupation of rest and sleep is broken down into rest, sleep preparation, and sleep participation.[59] Occupational therapists have been shown to help improve restorative sleep through the use of assistive devices/equipment, cognitive behavioral therapy for Insomnia, therapeutic activities, and lifestyle interventions.[60]

In the UK, knowledge of sleep medicine and possibilities for diagnosis and treatment seem to lag. The Imperial College Healthcare[61] shows attention to obstructive sleep apnea syndrome (OSA) and very few other sleep disorders. Some NHS trusts have specialist clinics for respiratory and neurological sleep medicine.

Epidemiology

[edit]

Children and young adults

[edit]

According to one meta-analysis of sleep disorders in children, confusional arousals and sleepwalking are the two most common sleep disorders among children.[62] An estimated 17.3% of kids between 3 and 13 years old experience confusional arousals.[62] About 17% of children sleepwalk, with the disorder being more common among boys than girls,[62] the peak ages of sleepwalking are from 8 to 12 years old.[62]

A different systematic review offers a high range of prevalence rates of sleep bruxism for children. Parasomnias like sleepwalking and talking typically occur during the first part of an individual's sleep cycle, the first slow wave of sleep [63] During the first slow wave of sleep period of the sleep cycle the mind and body slow down causing one to feel drowsy and relaxed. At this stage it is the easiest to wake up, therefore many children do not remember what happened during this time.

Nightmares are also considered a parasomnia among children, who typically remember what took place during the nightmare. However, nightmares only occur during the last stage of sleep - Rapid Eye Movement (REM) sleep. REM is the deepest stage of sleep, it is named for the host of neurological and physiological responses an individual can display during this period of the sleep cycle which are similar to being awake.[64]

Between 15.29% and 38.6% of preschoolers grind their teeth at least one night a week. All but one of the included studies reports decreasing bruxist prevalence as age increased, as well as a higher prevalence among boys than girls.[65]

Another systematic review noted 7-16% of young adults have delayed sleep phase disorder. This disorder reaches peak prevalence when people are in their 20s.[62] Between 20 and 26% of adolescents report a sleep onset latency of greater than 30 minutes. Also, 7-36% have difficulty initiating sleep.[66] Asian teens tend to have a higher prevalence of all of these adverse sleep outcomes—than their North American and European counterparts.[66]

By adulthood, parasomnias can normally be resolved due to a person's growth; however, 4% of people have recurring symptoms.

Effects of Untreated Sleep Disorders

[edit]

Children and young adults who do not get enough sleep due to sleep disorders also have many other health problems such as obesity and physical problems where it could interfere with everyday life.[67] It is recommended that children and young adults stick to the hours of sleep recommended by the CDC, as it helps increase mental health, physical health, and more.[68]

Insomnia

[edit]

Insomnia is a prevalent form of sleep deprivation. Individuals with insomnia may have problems falling asleep, staying asleep, or a combination of both resulting in hyposomnia - i.e. insufficient quantity and poor quality of sleep.[69]

Combining results from 17 studies on insomnia in China, a pooled prevalence of 15.0% is reported for the country.[70] This result is consistent among other East Asian countries; however, this is considerably lower than a series of Western countries (50.5% in Poland, 37.2% in France and Italy, 27.1% in USA).[70] Men and women residing in China experience insomnia at similar rates.[70]

A separate meta-analysis focusing on this sleeping disorder in the elderly mentions that those with more than one physical or psychiatric malady experience it at a 60% higher rate than those with one condition or less. It also notes a higher prevalence of insomnia in women over the age of 50 than their male counterparts.[71]

A study that was resulted from a collaboration between Massachusetts General Hospital and Merck describes the development of an algorithm to identify patients with sleep disorders using electronic medical records. The algorithm that incorporated a combination of structured and unstructured variables identified more than 36,000 individuals with physician-documented insomnia.[72]

Insomnia can start off at the basic level but about 40% of people who struggle with insomnia have worse symptoms.[1] There are treatments that can help with insomnia and that includes medication, planning out a sleep schedule, limiting oneself from caffeine intake, and cognitive behavioral therapy.[1]

Obstructive sleep apnea

[edit]
Insomnia.

Obstructive sleep apnea (OSA) affects around 4% of men and 2% of women in the United States.[73] In general, this disorder is more prevalent among men. However, this difference tends to diminish with age. Women experience the highest risk for OSA during pregnancy,[74] and tend to report experiencing depression and insomnia in conjunction with obstructive sleep apnea.[75]

In a meta-analysis of the various Asian countries, India and China present the highest prevalence of the disorder. Specifically, about 13.7% of the Indian population and 7% of Hong Kong's population is estimated to have OSA. The two groups in the study experience daytime OSA symptoms such as difficulties concentrating, mood swings, or high blood pressure,[76] at similar rates (prevalence of 3.5% and 3.57%, respectively).[73]

Obesity and Sleep Apnea

[edit]

The worldwide incidence of obstructive sleep apnea (OSA) is on the rise, largely due to the increasing prevalence of obesity in society. In individuals who are obese, excess fat deposits in the upper respiratory tract can lead to breathing difficulties during sleep, giving rise to OSA. There is a strong connection between obesity and OSA, making it essential to screen obese individuals for OSA and related disorders. Moreover, both obesity and OSA patients are at higher risk of developing metabolic syndrome. Implementing dietary control in obese individuals can have a positive impact on sleep problems and can help alleviate associated issues such as depression, anxiety, and insomnia.[77] Obesity can influence the disturbance in sleep patterns resulting in OSA. [78] Obesity is a risk factor for OSA because it can affect the upper respiratory system by accumulating fat deposition around the muscles surrounding the lungs. Additionally, OSA can irritate the obesity by prolonging sleepiness throughout the day leading to reduces physical activity and an inactive lifestyle.[2]

Sleep paralysis

[edit]

A systematic review states 7.6% of the general population experiences sleep paralysis at least once in their lifetime. Its prevalence among men is 15.9%, while 18.9% of women experience it.

When considering specific populations, 28.3% of students and 31.9% of psychiatric patients have experienced this phenomenon at least once in their lifetime. Of those psychiatric patients, 34.6% have panic disorder. Sleep paralysis in students is slightly more prevalent for those of Asian descent (39.9%) than other ethnicities (Hispanic: 34.5%, African descent: 31.4%, Caucasian 30.8%).[79]

Restless legs syndrome

[edit]

According to one meta-analysis, the average prevalence rate for North America, and Western Europe is estimated to be 14.5±8.0%. Specifically in the United States, the prevalence of restless legs syndrome is estimated to be between 5% and 15.7% when using strict diagnostic criteria. RLS is over 35% more prevalent in American women than their male counterparts.[80] Restless Leg Syndrome (RLS) is a sensorimotor disorder characterized by discomfort in the lower limbs. Typically, symptoms worsen in the evening, improve with movement, and exacerbate when at rest.[81]

List of conditions

[edit]

There are a numerous sleep disorders. The following list includes some of them:

Types

[edit]

See also

[edit]

References

[edit]
  1. ^ a b c K Pavlova M, Latreille V (March 2019). "Sleep Disorders". The American Journal of Medicine. 132 (3): 292–299. doi:10.1016/j.amjmed.2018.09.021. PMID 30292731. S2CID 52935007.
  2. ^ a b Hirshkowitz M (2004). "Chapter 10, Neuropsychiatric Aspects of Sleep and Sleep Disorders (pp 315-340)" (Google Books preview includes entire chapter 10). In Yudofsky SC, Hales RE (eds.). Essentials of neuropsychiatry and clinical neurosciences (4 ed.). Arlington, Virginia, USA: American Psychiatric Publishing. ISBN 978-1-58562-005-0. ...insomnia is a symptom. It is neither a disease nor a specific condition. (from p. 322)
  3. ^ "APA "What are sleep disorders?"". www.psychiatry.org. Retrieved 2019-06-25.
  4. ^ "Sleep Problems and Sleep Disorders". Sleepify. 26 June 2019. Retrieved 2021-08-24.
  5. ^ Meltzer LJ, Johnson C, Crosette J, Ramos M, Mindell JA (June 2010). "Prevalence of diagnosed sleep disorders in pediatric primary care practices". Pediatrics. 125 (6): e1410–e1418. doi:10.1542/peds.2009-2725. PMC 3089951. PMID 20457689.
  6. ^ a b Roepke, S. K., & Ancoli-Israel, S. (2010). Sleep disorders in the elderly. The Indian Journal of Medical Research, 131, 302–310.
  7. ^ a b "How Much Sleep Do I Need?". CDC.gov. Centers for Disease Control and Prevention (CDC). 14 September 2022. Archived from the original on 2 November 2023. Last Reviewed: September 14, 2022. Source: National Center for Chronic Disease Prevention and Health Promotion, Division of Population Health.
  8. ^ Kajeepeta S, Gelaye B, Jackson CL, Williams MA (March 2015). "Adverse childhood experiences are associated with adult sleep disorders: a systematic review". Sleep Medicine. 16 (3): 320–330. doi:10.1016/j.sleep.2014.12.013. PMC 4635027. PMID 25777485.
  9. ^ Schenck CH (November 2013). "Family history of REM sleep behaviour disorder more common in individuals affected by the disorder than among unaffected individuals". Evidence-Based Mental Health. 16 (4): 114. doi:10.1136/eb-2013-101479. PMID 23970760. S2CID 2218369.
  10. ^ Mathias JL, Alvaro PK (August 2012). "Prevalence of sleep disturbances, disorders, and problems following traumatic brain injury: a meta-analysis". Sleep Medicine. 13 (7): 898–905. doi:10.1016/j.sleep.2012.04.006. PMID 22705246.
  11. ^ a b c d e f g Zhong, Naismith, Rogers, & Lewis. (2011). Sleep–wake disturbances in common neurodegenerative diseases: A closer look at selected aspects of the neural circuitry. Journal of the Neurological Sciences, 307(1-2), 9-14.
  12. ^ a b c d e f g h i j Malkani, R., & Attarian, H. (2015). Sleep in Neurodegenerative Disorders. Current Sleep Medicine Reports, 1(2), 81-90.
  13. ^ a b Bjørnarå, Dietrichs, & Toft. (2013). REM sleep behavior disorder in Parkinson's disease – Is there a gender difference? Parkinsonism and Related Disorders, 19(1), 120-122.
  14. ^ Bjørnarå, K., Dietrichs, E., & Toft, M. (2015). Longitudinal assessment of probable rapid eye movement sleep behavior disorder in Parkinson's disease. European Journal of Neurology, 22(8), 1242-1244.
  15. ^ a b Wang, P., Wing, Y.K., Xing, J. et al. Rapid eye movement sleep behavior disorder in patients with probable Alzheimer’s disease. Aging Clin Exp Res (2016) 28: 951. https://doi.org/10.1007/s40520-015-0382-8
  16. ^ a b c McCarter, S., & Howell, J. (2017). REM Sleep Behavior Disorder and Other Sleep Disturbances in Non-Alzheimer Dementias. Current Sleep Medicine Reports, 3(3), 193-203.
  17. ^ a b c d Dick-Muehlke, C. (2015). Psychosocial studies of the individual's changing perspectives in Alzheimer's disease (Premier Reference Source). Hershey, PA: Medical Information Science Reference.
  18. ^ a b c d e f g h i j k l m n o p q Mander BA, Winer JR, Jagust WJ, Walker MP (August 2016). "Sleep: A Novel Mechanistic Pathway, Biomarker, and Treatment Target in the Pathology of Alzheimer's Disease?". Trends in Neurosciences. 39 (8): 552–566. doi:10.1016/j.tins.2016.05.002. PMC 4967375. PMID 27325209.
  19. ^ a b c d e f g h i j k l m n o p q r s t u v w x y z aa ab ac ad ae af ag ah ai aj ak Kent BA, Mistlberger RE (April 2017). "Sleep and hippocampal neurogenesis: Implications for Alzheimer's disease". Frontiers in Neuroendocrinology. 45: 35–52. doi:10.1016/j.yfrne.2017.02.004. PMID 28249715. S2CID 39928206.
  20. ^ Tranah GJ, Blackwell T, Stone KL, Ancoli-Israel S, Paudel ML, Ensrud KE, et al. (November 2011). "Circadian activity rhythms and risk of incident dementia and mild cognitive impairment in older women". Annals of Neurology. 70 (5): 722–732. doi:10.1002/ana.22468. PMC 3244839. PMID 22162057.
  21. ^ a b c d e Xie L, Kang H, Xu Q, Chen MJ, Liao Y, Thiyagarajan M, et al. (October 2013). "Sleep drives metabolite clearance from the adult brain". Science. 342 (6156): 373–377. Bibcode:2013Sci...342..373X. doi:10.1126/science.1241224. PMC 3880190. PMID 24136970.
  22. ^ a b Diekelmann S, Born J (February 2010). "The memory function of sleep". Nature Reviews. Neuroscience. 11 (2): 114–126. doi:10.1038/nrn2762. PMID 20046194. S2CID 1851910.
  23. ^ a b Meerlo P, Mistlberger RE, Jacobs BL, Heller HC, McGinty D (June 2009). "New neurons in the adult brain: the role of sleep and consequences of sleep loss". Sleep Medicine Reviews. 13 (3): 187–194. doi:10.1016/j.smrv.2008.07.004. PMC 2771197. PMID 18848476.
  24. ^ a b Hombali A, Seow E, Yuan Q, Chang SH, Satghare P, Kumar S, et al. (September 2019). "Prevalence and correlates of sleep disorder symptoms in psychiatric disorders". Psychiatry Research. 279: 116–122. doi:10.1016/j.psychres.2018.07.009. PMID 30072039.
  25. ^ a b c d e Laskemoen JF, Simonsen C, Büchmann C, Barrett EA, Bjella T, Lagerberg TV, et al. (May 2019). "Sleep disturbances in schizophrenia spectrum and bipolar disorders - a transdiagnostic perspective". Comprehensive Psychiatry. 91: 6–12. doi:10.1016/j.comppsych.2019.02.006. hdl:10852/76588. PMID 30856497.
  26. ^ Pocivavsek A, Rowland LM (January 2018). "Basic Neuroscience Illuminates Causal Relationship Between Sleep and Memory: Translating to Schizophrenia". Schizophrenia Bulletin. 44 (1): 7–14. doi:10.1093/schbul/sbx151. PMC 5768044. PMID 29136236.
  27. ^ a b Steardo L, de Filippis R, Carbone EA, Segura-Garcia C, Verkhratsky A, De Fazio P (2019-07-18). "Sleep Disturbance in Bipolar Disorder: Neuroglia and Circadian Rhythms". Frontiers in Psychiatry. 10: 501. doi:10.3389/fpsyt.2019.00501. PMC 6656854. PMID 31379620.
  28. ^ Logan RW, McClung CA (May 2016). "Animal models of bipolar mania: The past, present and future". Neuroscience. 321: 163–188. doi:10.1016/j.neuroscience.2015.08.041. PMC 4766066. PMID 26314632.
  29. ^ Liu X, Buysse DJ, Gentzler AL, Kiss E, Mayer L, Kapornai K, et al. (January 2007). "Insomnia and hypersomnia associated with depressive phenomenology and comorbidity in childhood depression". Sleep. 30 (1): 83–90. doi:10.1093/sleep/30.1.83. PMID 17310868.
  30. ^ a b c Murphy MJ, Peterson MJ (March 2015). "Sleep Disturbances in Depression". Sleep Medicine Clinics. 10 (1): 17–23. doi:10.1016/j.jsmc.2014.11.009. PMC 5678925. PMID 26055669.
  31. ^ Coussement C, Heeren A (January 2022). "Sleep problems as a transdiagnostic hub bridging impaired attention control, generalized anxiety, and depression". Journal of Affective Disorders. 296: 305–308. doi:10.1016/j.jad.2021.09.092. PMID 34606807. S2CID 238357084.
  32. ^ Ramar K, Olson EJ (August 2013). "Management of common sleep disorders". American Family Physician. 88 (4): 231–238. PMID 23944726.
  33. ^ a b Voderholzer U, Guilleminault C (2012). "Sleep disorders". Neurobiology of Psychiatric Disorders. Handbook of Clinical Neurology. Vol. 106. pp. 527–40. doi:10.1016/B978-0-444-52002-9.00031-0. ISBN 978-0-444-52002-9. PMID 22608642.
  34. ^ Ivanenko A, Massey C (October 1, 2006). "Assessment and Management of Sleep Disorders in Children". Psychiatric Times. 23 (11).
  35. ^ Keckeis M, Lattova Z, Maurovich-Horvat E, Beitinger PA, Birkmann S, Lauer CJ, et al. (March 2010). Finkelstein D (ed.). "Impaired glucose tolerance in sleep disorders". PLOS ONE. 5 (3): e9444. Bibcode:2010PLoSO...5.9444K. doi:10.1371/journal.pone.0009444. PMC 2830474. PMID 20209158.
  36. ^ Thakkar MM (February 2011). "Histamine in the regulation of wakefulness". Sleep Medicine Reviews. 15 (1): 65–74. doi:10.1016/j.smrv.2010.06.004. PMC 3016451. PMID 20851648.
  37. ^ Léger D, Annesi-Maesano I, Carat F, Rugina M, Chanal I, Pribil C, et al. (September 2006). "Allergic rhinitis and its consequences on quality of sleep: An unexplored area". Archives of Internal Medicine. 166 (16): 1744–1748. doi:10.1001/archinte.166.16.1744. PMID 16983053.
  38. ^ "Allergies and Sleep". sleepfoundation.org. Retrieved 2017-06-08.
  39. ^ Staevska MT, Mandajieva MA, Dimitrov VD (May 2004). "Rhinitis and sleep apnea". Current Allergy and Asthma Reports. 4 (3): 193–199. doi:10.1007/s11882-004-0026-0. PMID 15056401. S2CID 42447055.
  40. ^ a b Cheuk DK, Yeung WF, Chung KF, Wong V (September 2012). "Acupuncture for insomnia". The Cochrane Database of Systematic Reviews. 9 (9): CD005472. doi:10.1002/14651858.cd005472.pub3. PMC 11262418. PMID 22972087.
  41. ^ Stradling J, Roberts D, Wilson A, Lovelock F (March 1998). "Controlled trial of hypnotherapy for weight loss in patients with obstructive sleep apnoea". International Journal of Obesity and Related Metabolic Disorders. 22 (3): 278–281. doi:10.1038/sj.ijo.0800578. PMID 9539198.
  42. ^ Ng BY, Lee TS (August 2008). "Hypnotherapy for sleep disorders". Annals of the Academy of Medicine, Singapore. 37 (8): 683–688. doi:10.47102/annals-acadmedsg.V37N8p683. PMID 18797562. S2CID 18511973.
  43. ^ Graci GM, Hardie JC (July 2007). "Evidenced-based hypnotherapy for the management of sleep disorders". The International Journal of Clinical and Experimental Hypnosis. 55 (3): 288–302. doi:10.1080/00207140701338662. PMID 17558719. S2CID 21598789.
  44. ^ Hauri PJ, Silber MH, Boeve BF (June 2007). "The treatment of parasomnias with hypnosis: a 5-year follow-up study". Journal of Clinical Sleep Medicine. 3 (4): 369–373. doi:10.5664/jcsm.26858. PMC 1978312. PMID 17694725.
  45. ^ a b Hurwitz TD, Mahowald MW, Schenck CH, Schluter JL, Bundlie SR (April 1991). "A retrospective outcome study and review of hypnosis as treatment of adults with sleepwalking and sleep terror". The Journal of Nervous and Mental Disease. 179 (4): 228–233. doi:10.1097/00005053-199104000-00009. PMID 2007894. S2CID 10018843.
  46. ^ Owens LJ, France KG, Wiggs L (December 1999). "REVIEW ARTICLE: Behavioural and cognitive-behavioural interventions for sleep disorders in infants and children: A review". Sleep Medicine Reviews. 3 (4): 281–302. doi:10.1053/smrv.1999.0082. PMID 12531150.
  47. ^ Wang CF, Sun YL, Zang HX (January 2014). "Music therapy improves sleep quality in acute and chronic sleep disorders: a meta-analysis of 10 randomized studies". International Journal of Nursing Studies. 51 (1): 51–62. doi:10.1016/j.ijnurstu.2013.03.008. PMID 23582682.
  48. ^ Jespersen KV, Pando-Naude V, Koenig J, Jennum P, Vuust P (August 2022). "Listening to music for insomnia in adults". The Cochrane Database of Systematic Reviews. 2022 (8): CD010459. doi:10.1002/14651858.CD010459.pub3. PMC 9400393. PMID 36000763.
  49. ^ "Can Music Help Me Sleep?". WebMD. Retrieved 2019-09-29.
  50. ^ Evernote (2018-07-26). "Can Music Make You a Productivity Powerhouse?". Medium. Retrieved 2019-09-29.
  51. ^ "The Many Health and Sleep Benefits Of Music". Psychology Today. Retrieved 2019-09-30.
  52. ^ Ferracioli-Oda E, Qawasmi A, Bloch MH (2013-06-06). "Meta-analysis: melatonin for the treatment of primary sleep disorders". PLOS ONE. 8 (5): e63773. Bibcode:2013PLoSO...863773F. doi:10.1371/journal.pone.0063773. PMC 3656905. PMID 23691095.
  53. ^ "Meta-analysis: melatonin for the treatment of primary sleep disorders". www.crd.york.ac.uk. Retrieved 2016-03-08.
  54. ^ "American Board of Medical Specialties : Recognized Physician Specialty and Subspecialty Certificates". Archived from the original on 2012-05-08. Retrieved 2008-07-21.
  55. ^ Mahowald MW (March 2000). "What is causing excessive daytime sleepiness? Evaluation to distinguish sleep deprivation from sleep disorders". Postgraduate Medicine. 107 (3): 108–10, 115–8, 123. doi:10.3810/pgm.2000.03.932. PMID 10728139. S2CID 42939232.
  56. ^ Araújo T, Jarrin DC, Leanza Y, Vallières A, Morin CM (February 2017). "Qualitative studies of insomnia: Current state of knowledge in the field". Sleep Medicine Reviews. 31: 58–69. doi:10.1016/j.smrv.2016.01.003. PMC 4945477. PMID 27090821.
  57. ^ "About the ADBSM". American Board of Dental Sleep Medicine. Retrieved 2008-07-22.
  58. ^ "About AADSM". Academy of Dental Sleep Medicine. 2008. Retrieved 2008-07-22.
  59. ^ a b c "Occupational Therapy Practice Framework: Domain and Process-Fourth Edition". The American Journal of Occupational Therapy. 74 (Supplement_2): 7412410010p1–7412410010p87. August 2020. doi:10.5014/ajot.2020.74S2001. PMID 34780625. S2CID 204057541.
  60. ^ Ho EC, Siu AM (2018-07-29). "Occupational Therapy Practice in Sleep Management: A Review of Conceptual Models and Research Evidence". Occupational Therapy International. 2018: 8637498. doi:10.1155/2018/8637498. PMC 6087566. PMID 30150906.
  61. ^ "Sleep services". Imperial College Healthcare NHS Trust. 2008. Archived from the original on 2008-10-04. Retrieved 2008-08-02.
  62. ^ a b c d e Carter KA, Hathaway NE, Lettieri CF (March 2014). "Common sleep disorders in children". American Family Physician. 89 (5): 368–377. PMID 24695508.
  63. ^ Carter KA, Hathaway NE, Lettieri CF (March 2014). "Common sleep disorders in children". American Family Physician. 89 (5): 368–377. PMID 24695508.
  64. ^ Patel AK, Reddy V, Shumway KR, Araujo AF (2021). "Physiology, Sleep Stages". StatPearls. Treasure Island (FL): StatPearls Publishing. PMID 30252388. Retrieved 2021-09-19.
  65. ^ Machado E, Dal-Fabbro C, Cunali PA, Kaizer OB (2014). "Prevalence of sleep bruxism in children: a systematic review". Dental Press Journal of Orthodontics. 19 (6): 54–61. doi:10.1590/2176-9451.19.6.054-061.oar. PMC 4347411. PMID 25628080.
  66. ^ a b Gradisar M, Gardner G, Dohnt H (February 2011). "Recent worldwide sleep patterns and problems during adolescence: a review and meta-analysis of age, region, and sleep". Sleep Medicine. 12 (2): 110–118. doi:10.1016/j.sleep.2010.11.008. PMID 21257344.
  67. ^ Wheaton AG, Jones SE, Cooper AC, Croft JB (January 2018). "Short Sleep Duration Among Middle School and High School Students - United States, 2015". MMWR. Morbidity and Mortality Weekly Report. 67 (3): 85–90. doi:10.15585/mmwr.mm6703a1. PMC 5812312. PMID 29370154.
  68. ^ Paruthi S, Brooks LJ, D'Ambrosio C, Hall WA, Kotagal S, Lloyd RM, et al. (November 2016). "Consensus Statement of the American Academy of Sleep Medicine on the Recommended Amount of Sleep for Healthy Children: Methodology and Discussion". Journal of Clinical Sleep Medicine. 12 (11): 1549–1561. doi:10.5664/jcsm.6288. PMC 5078711. PMID 27707447.
  69. ^ Zeitlhofer J, Tribl G, Saletu B (1993). "[Sleep disorders in neurology: hyposomnia]". Wiener Klinische Wochenschrift. 105 (2): 37–41. PMID 8442353.
  70. ^ a b c Cao XL, Wang SB, Zhong BL, Zhang L, Ungvari GS, Ng CH, et al. (2017-02-24). "The prevalence of insomnia in the general population in China: A meta-analysis". PLOS ONE. 12 (2): e0170772. Bibcode:2017PLoSO..1270772C. doi:10.1371/journal.pone.0170772. PMC 5325204. PMID 28234940.
  71. ^ Rodriguez JC, Dzierzewski JM, Alessi CA (March 2015). "Sleep problems in the elderly". The Medical Clinics of North America. 99 (2): 431–439. doi:10.1016/j.mcna.2014.11.013. PMC 4406253. PMID 25700593.
  72. ^ Kartoun U, Aggarwal R, Beam AL, Pai JK, Chatterjee AK, Fitzgerald TP, et al. (May 2018). "Development of an Algorithm to Identify Patients with Physician-Documented Insomnia". Scientific Reports. 8 (1): 7862. Bibcode:2018NatSR...8.7862K. doi:10.1038/s41598-018-25312-z. PMC 5959894. PMID 29777125.
  73. ^ a b Mirrakhimov AE, Sooronbaev T, Mirrakhimov EM (February 2013). "Prevalence of obstructive sleep apnea in Asian adults: a systematic review of the literature". BMC Pulmonary Medicine. 13: 10. doi:10.1186/1471-2466-13-10. PMC 3585751. PMID 23433391.
  74. ^ Wimms A, Woehrle H, Ketheeswaran S, Ramanan D, Armitstead J (2016). "Obstructive Sleep Apnea in Women: Specific Issues and Interventions". BioMed Research International. 2016: 1764837. doi:10.1155/2016/1764837. PMC 5028797. PMID 27699167.
  75. ^ Valipour A (October 2012). "Gender-related differences in the obstructive sleep apnea syndrome". Pneumologie. 66 (10): 584–588. doi:10.1055/s-0032-1325664. PMID 22987326.
  76. ^ "Obstructive sleep apnea – Symptoms and causes – Mayo Clinic". www.mayoclinic.org. Retrieved 2017-11-27.
  77. ^ Owen, Lauren; Corfe, Bernard (November 2017). "The role of diet and nutrition on mental health and wellbeing". Proceedings of the Nutrition Society. 76 (4): 425–426. doi:10.1017/S0029665117001057. ISSN 0029-6651.
  78. ^ Lee JH, Cho J (March 2022). "Sleep and Obesity". Sleep Medicine Clinics. 17 (1): 111–116. doi:10.1016/j.jsmc.2021.10.009. PMID 35216758. S2CID 245696606.
  79. ^ Sharpless BA, Barber JP (October 2011). "Lifetime prevalence rates of sleep paralysis: a systematic review". Sleep Medicine Reviews. 15 (5): 311–315. doi:10.1016/j.smrv.2011.01.007. PMC 3156892. PMID 21571556.
  80. ^ Innes KE, Selfe TK, Agarwal P (August 2011). "Prevalence of restless legs syndrome in North American and Western European populations: a systematic review". Sleep Medicine. 12 (7): 623–634. doi:10.1016/j.sleep.2010.12.018. PMC 4634567. PMID 21752711.
  81. ^ Kocabicak, Ersoy; Terzi, Murat; Akpinar, Kursad; Paksoy, Kemal; Cebeci, Ibrahim; Iyigun, Omer (2014). "Restless Leg Syndrome and Sleep Quality in Lumbar Radiculopathy Patients". Behavioural Neurology. 2014: 1–5. doi:10.1155/2014/245358. ISSN 0953-4180. PMC 4109372. PMID 25110396.
  82. ^ American Academy of Sleep Medicine (2001). The International Classification of Sleep Disorders, Revised (ICSD-R) (PDF). American Sleep Disorders Association. ISBN 978-0-9657220-1-8. Archived from the original (PDF) on 2011-07-26.
  83. ^ "Idiopathic hypersomnia | Genetic and Rare Diseases Information Center (GARD) – an NCATS Program". rarediseases.info.nih.gov. Retrieved 2023-09-09.
  84. ^ Arnulf I, Rico TJ, Mignot E (October 2012). "Diagnosis, disease course, and management of patients with Kleine-Levin syndrome". The Lancet. Neurology. 11 (10): 918–928. doi:10.1016/S1474-4422(12)70187-4. PMID 22995695. S2CID 7636103.
  85. ^ "Narcolepsy Fact Sheet". www.ninds.nih.gov. Archived from the original on 2016-07-27. Retrieved 2011-06-23.
  86. ^ Hockenbury DH, Hockenbury SE (2010). Discovering psychology (5th ed.). New York, NY: Worth Publishers. p. 157. ISBN 978-1-4292-1650-0.
  87. ^ "Nocturia or Frequent Urination at Night". Sleep Foundation. November 21, 2018.
  88. ^ "REM Sleep Behavior Disorder". Mayo Clinic. Retrieved 27 July 2016.
  89. ^ Mandell R. "Snoring: A Precursor to Medical Issues" (PDF). Stop Snoring Device. Archived from the original (PDF) on 8 October 2016. Retrieved 27 July 2016.
  90. ^ "Sleep Apnea Diagnosis". SingularSleep. Retrieved 27 April 2018.
  91. ^ "Dyssomnias". Medical Subject Headings. National Library of Medicine. MeSH D020920. Retrieved 22 November 2024.
  92. ^ Levin NS. "Insomnia treatment". hiburimnamal.co.il.
  93. ^ Smith MA, Robinson L, Boose G, Segal R (September 2011). "Sleep Disorders and Sleeping Problems". helpguide.org. Archived from the original on 2011-12-05.
  94. ^ "NINDS Narcolepsy". National Institute of Neurological Disorders and Stroke. June 27, 2011. Archived from the original on February 21, 2014.
  95. ^ Thorpy, Michael J. "Parasomniacs." The International Classification of Sleep Disorders: Diagnostic and Coding Manual. Rochester: American Sleep Disorders Association, 1990. Print.
  96. ^ Rosenberg, Russell P.; Bogan, Richard K.; Tiller, Jane M.; Yang, Ronghua; Youakim, James M.; Earl, Craig Q.; Roth, Thomas (July 2010). "A Phase 3, Double-Blind, Randomized, Placebo-Controlled Study of Armodafinil for Excessive Sleepiness Associated With Jet Lag Disorder". Mayo Clinic Proceedings. 85 (7): 630–638. doi:10.4065/mcp.2009.0778. PMC 2894718. PMID 20530317.
  97. ^ Burgess, Helen J.; Crowley, Stephanie J.; Gazda, Clifford J.; Fogg, Louis F.; Eastman, Charmane I. (August 2003). "Preflight Adjustment to Eastward Travel:3 Days of Advancing Sleep with and without Morning Bright Light". Journal of Biological Rhythms. 18 (4): 318–328. doi:10.1177/0748730403253585. ISSN 0748-7304. PMC 1262683. PMID 12932084.
[edit]
  • Media related to Sleep disorders at Wikimedia Commons
  • Sleep Problems – information leaflet from mental health charity The Royal College of Psychiatrists
  • WebMD Sleep Disorders Health Center