Sleep Disorders in the Elderly
Sleep Disorders in the Elderly
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After reading this article, you will be familiar with:
- The effects of aging on sleep.
- How the various sleep disorders impact older adults.
- How to diagnose each of the sleep disorders that can develop in older adults.
- Optimum treatments for each of the sleep disorders.
Who will benefit from reading this article?
Psychiatrists, primary care physicians, neurologists, nurse practitioners, and other health care professionals. Continuing medical education credit is available for most specialists. To determine whether this article meets the continuing education requirements of your specialty, please contact your state licensing board.
Dr Cooke is clinical instructor in the division of pulmonary and critical care medicine at the University of California, San Diego, School of Medicine; she is also staff physician at the Veterans Administration San Diego Healthcare System. She reports no conflicts of interest concerning the subject matter of this article.
Aging is often associated with complaints of difficulties with sleep, as evidenced by reports that up to 50% of older US adults complain of chronic trouble with sleep.1 Research has found that a number of normal changes in sleep occur with aging, which may explain some of these complaints.2 However, there are a variety of conditions that may account for the sleep difficulties experienced by many older adults, including specific sleep disorders, circadian rhythm disturbances, and medical and psychiatric comorbidities.
With age, it is normal for a number of changes to occur in sleep architecture and sleep patterns. Compared with younger adults, older adults sleep less despite spending more time in bed, spend more time awake during the night, wake up earlier in the morning, nap more, and take longer to fall asleep. Findings from a meta-analysis that included more than 3500 participants showed that after age 60, sleep efficiency (defined as the ratio of total sleep time to nocturnal time in bed, normally defined as 85% or greater), which is considered a measure of sleep continuity, decreases with further increases in age.2 Older adults experience more fragmented sleep, as evidenced by an increase in the number of sleep stage shifts, arousals, and awakenings.2
Older adults' need for sleep does not decrease with age. Their actual ability to sleep, however, does.3 When tested for daytime sleepiness (considered one marker of insufficient sleep), older adults were sleepier than their young counterparts, which may in part be due to their difficulty in obtaining enough sleep at night.
Insufficient sleep is associated with significant morbidity and increased mortality. Increased symptoms of depression and anxiety and decreased quality of life have been reported in patients who experience difficulty in sleeping. Sleep problems in older adults are associated with an increased risk of falls and difficulty with ambulation, balance, and vision—even after controlling for medication use.4 Chronic sleep difficulties and lack of sleep can lead to deficits in attention, response times, short-term memory, and performance level. Poorly maintained sleep, as reflected in low sleep efficiency, is also associated with increased mortality; a longitudinal study of healthy older adults reported that lower sleep efficiency (less than 80%) nearly doubled the risk of all-cause mortality.5
Insomnia is the most commonly reported sleep disturbance in older adults and is defined as the inability to initiate or maintain sleep resulting in daytime consequences. Complaints, which are more common in older women than in older men, can vary from difficulty in falling asleep to difficulty in maintaining sleep to frequent arousals from sleep and early morning awakenings. In a study of more than 9000 older adults (older than 65 years), 42% had difficulty in falling asleep and staying asleep.6 Three years later, insomnia complaints had resolved in 15% of the patients, although there was a 5% incidence of new sleep complaints.6
Insomnia may be a primary sleep disorder. In the older adult, however, it is important to recognize that complaints of insomnia may coexist with many chronic medical and/or psychiatric conditions including depression, chronic pain, cancer, chronic obstructive pulmonary disease, congestive heart failure, and stroke. In a survey of insomnia, 28% of older adults complained of chronic insomnia, but fewer than 10% of the new cases occurred in the absence of one of these related conditions.6 In addition to any underlying medical/ psychiatric condition, a number of medications used in the treatment of these conditions, including β-blockers, bronchodilators, corticosteroids, decongestants, diuretics, and antidepressants, can contribute to or even cause sleep difficulties.
Research has found that behavioral therapy, specifically cognitive-behavioral therapy (CBT), is as effective as or more effective than medications for insomnia. Based on head-to-head trials of CBT versus medications, the 2005 NIH State-of-the-Science Conference on Insomnia concluded that CBT is as effective as prescription medications for the treatment of chronic insomnia in older adults.7 A variety of medications have been used to treat insomnia in older adults but, as concluded by the conference, there is no systematic evidence for the effectiveness of the following classes of medications in the treatment of insomnia: antihistamines, antidepressants, antipsychotics, and anticonvulsants.7 Furthermore, the panel of experts stated that the risks associated with the use of these medications, especially among the elderly, largely outweigh any benefits.
Sedative-hypnotic medications are effective and appropriate at times for the management of insomnia. Studies have shown, however, that these medications should be accompanied by behavioral therapy and should no longer be considered first-line agents in the treatment of insomnia.7 To use this class of medications effectively and safely, clinicians must select the sedative-hypnotic that best fits the specific type of insomnia (eg, an agent with a long onset of action is not appropriate for a patient with sleep-onset insomnia).
New medications with different mechanisms of action are now available and should be consid-ered the first-line agents for the treatment of insomnia (Table 1). The selective short-acting nonbenzodiazepines, including eszopiclone, zaleplon, zolpidem, and zolpidem MR, are safe and effective for older adults. The melatonin agonist, ramelteon, is the only sleep-related medication not controlled by the Drug Enforcement Administration, and it is safe and effective in the treatment of sleep-onset insomnia in the elderly. In general, both pharmacological and behavioral treatments should be combined for the most effective treatment of insomnia. Patients should receive short-term relief with medications while learning the techniques of CBT, which should provide long-term treatment of insomnia.
Circadian rhythm sleep disorders
The sleep-wake cycle in humans is controlled by an endogenous clock located in the suprachiasmatic nucleus of the hypothalamus, which generates a circadian rhythm that is synchronized by external time cues (zeitgebers). The light-dark cycle is the major cue in humans. Circadian rhythm sleep disorders may develop if a lack of synchrony occurs between the endogenous clock and external environmental zeitgebers.
A number of factors associated with aging may contribute to the development of circadian rhythm sleep disorders. The circadian pacemaker itself degenerates with age, which may result in a weaker rhythm. Melatonin is important in the sleep-wake cycle, but its nocturnal secretion decreases with age, which may contribute to disrupted or weakened circadian rhythms. In addition, the environmental cues needed to synchronize the circadian rhythm of sleep-wake (ie, daily exposure to light) may be absent or weak in older patients. A study found that daily bright light exposure averaged 60 minutes for healthy elderly persons, 30 min-utes for patients with Alzheimer disease living at home, and no exposure for nursing home patients.8,9
Advanced sleep phase syndrome is by far the most common circadian rhythm sleep disorder, and its prevalence increases with age. Advanced sleep phase syndrome is characterized by routine and involuntary sleep and wake times that are several hours earlier than societal norms. Individuals with advanced sleep phase syndrome feel sleepy in the early evening and wake up in the early morning. Sleep architecture itself is normal and if patients follow their natural rhythms, they do not typically complain of daytime sleepiness. However, as these individuals experience an early morning wake time regardless of what time they go to sleep, delays in sleep onset often result in insufficient sleep time and complaints of excessive daytime sleepiness. A careful and detailed sleep history, sleep diaries, and activity monitoring with wrist actigraphy can be useful in making the diagnosis.
Patients with advanced sleep phase syndrome should be reassured that this condition is not a medical disorder, does not require treatment, and is a natural, often expected shift in circadian rhythm. If patients are happy with their sleep/wake times and are getting enough sleep, treatment is not necessary. For those patients who prefer a more "normal" sleep/wake time, however, therapy to delay circadian rhythm should be offered.
Treatment of advanced sleep phase syndrome focuses on strengthening and synchronizing the sleep-wake cycle; because bright light is the strongest cue for circadian entrainment, it is the most common and the most effective treatment. Exposure to bright light in the evening strengthens the sleep-wake cycle and delays circadian rhythms in patients with advanced sleep phase syndrome, including those who reside in nursing homes. Patients with advanced sleep phase syndrome should be advised to avoid bright light during the morning and should be educated on sleep hygiene practices, including maintaining a regular sleep schedule. Supplemental exogenous melatonin administered in the morning could, in theory, result in a phase delay in older adults with advanced sleep phase syndrome. The effectiveness and safety of this therapy has not been well studied in advanced sleep phase syndrome, however, and the sedating properties of melatonin may limit its clinical utility.
Obstructive sleep apnea
Obstructive sleep apnea is characterized by the complete cessation of respiration (apnea) and/or partial or reduced respiration (hypopnea) during sleep. Most patients with obstructive sleep apnea experience some combination of these events.
Obstructive sleep apnea appears to be more common in older than in younger adults, more common in older men than older women, and more common in institutionalized older adults than in those living independently. The reported prevalence of obstructive sleep apnea in older adults ranges from 20% to 81%, and most longitudinal and cross-sectional studies have found that its prevalence increases or stabilizes with increasing age.10-12 In a large study of community-dwelling adults aged 65 to 95 years, researchers found that 81% of the subjects had an apnea-hypopnea index (AHI) of at least 5.10 Patients with dementia experience high rates of obstructive sleep apnea, probably related to degeneration in the areas of the brain stem responsible for regulating respiration and other autonomic functions. In a review of 7 studies examining the prevalence of obstructive sleep apnea in older adults with and without dementia, prevalence rates ranged from 33% to 70% in those with dementia compared with 5.6% to 45% in those without dementia.13
Risk factors for obstructive sleep apnea include increasing age, sex, obesity, use of sedating medications, consumption of alcohol, family history/ genetic factors, race, smoking, and craniofacial anatomy. Snoring and excessive daytime sleepiness are typical clinical manifestations of obstructive sleep apnea, although clinicians should be aware that less common presentations may include insomnia and nocturnal confusion. Excessive daytime sleepiness can have a significantly negative affect on quality of life and may lead to unintentional napping, social and/or occupational difficulties, and cognitive dysfunction, which is of particular relevance for those patients with baseline cognitive impairment.14
In general, the presence of untreated obstructive sleep apnea is associated with significant morbidity. Although there is clear evidence that untreated obstructive sleep apnea in younger adults is an independent risk factor for the development of systemic hypertension, the relationship between obstructive sleep apnea and hypertension remains less clear in the older adult. Recent data from the Sleep Heart Health Study found that in adults aged 60 years or older, there was no association between obstructive sleep apnea and systolic/diastolic hypertension.15 The exact relationship between obstructive sleep apnea and other forms of cardiovascular disease in the older adult remains somewhat unclear, although recent studies have found positive associations between the severity of obstructive sleep apnea and the risk of developing coronary artery disease, congestive heart failure, and stroke.16 In addition to these possible cardiovascular effects, older patients with severe obstructive sleep apnea (defined as an AHI of 30 or higher) have consistently been found to have evidence of cognitive dysfunction including impairment in vigilance, memory, executive tasks, and manual dexterity.
When evaluating an older adult with suspected obstructive sleep apnea, clinicians should obtain a thorough sleep history focused on symptoms of obstructive sleep apnea (excessive daytime sleepiness, unintentional napping, cognitive dysfunction, and snoring), preferably in the presence of a bed partner or caregiver. The patient's medical history should be reviewed with particular attention to conditions associated with obstructive sleep apnea (eg, stroke, ischemic heart disease), medications (especially sedatives), and the use of alcohol. The diagnosis should be confirmed with an overnight sleep recording.
The first line of treatment of obstructive sleep apnea is continuous positive airway pressure, provided by a device that creates a pneumatic splint to keep the airway open during inspiration. If used appropriately, continuous positive airway pressure can safely and effectively treat obstructive sleep apnea at night with minimal adverse effects,17 and its use results in improvements in nocturia, excessive daytime sleepiness, depression, quality of life, and cognition.18,19 Less effective treatments include oral appliances and surgery. All patients should be counseled on weight loss, smoking cessation, and abstaining from alcohol, if applicable. Clinicians should avoid prescribing medications such as benzodiazepines and narcotics, which worsen obstructive sleep apnea.
Despite its effectiveness, continuous positive airway pressure adherence can be an issue for a patient with obstructive sleep apnea, regardless of age, and clinicians should not assume that older adults will be nonadherent simply because they are older. On the contrary, in a study of patients with dementia, our laboratory reported that most patients used continuous positive airway pressure for about 5 hours a night, and the only factor associated with poor adherence was depression—not age, severity of dementia, or severity of obstructive sleep apnea.20
The debate regarding the significance of obstructive sleep apnea in older adults is ongoing, although at the present time most experts agree that the initiation of obstructive sleep apnea treatment should be guided by the significance of the patient's symptoms, the severity of the obstructive sleep apnea, and the presence of other comorbid conditions, and not by age alone.21
Periodic limb movements in sleep and restless legs syndrome
Like obstructive sleep apnea, periodic limb movements (PLMS) in sleep and restless legs syndrome (RLS) are commonly found in older adults. PLMS are characterized by clusters of repetitive leg movements during sleep with jerks or kicks typically occurring every 20 to 40 seconds and recurring throughout the night. Each jerk may cause an awakening, resulting in sleep fragmentation, and therefore patients with PLMS may experience excessive daytime sleepiness. The diagnosis of PLMS requires an overnight sleep study. The cause of PLMS is unknown, although it can be seen in patients with a number of neurological disorders and in combination with other sleep disorders including obstructive sleep apnea.
RLS is a disorder strongly linked to PLMS and is characterized by leg dysesthesia (a "creepy crawling" or "aching" sensation) occurring while the patient is in an awake/relaxed state and is relieved by movement. The uncomfortable sensation can prevent patients from falling asleep or can awaken patients. Unlike PLMS, the diagnosis of RLS is purely clinical and based on history alone—polysomnography has no role in the diagnosis. The cause of RLS is also unknown, but the disorder is associated with a number of other conditions including anemia, uremia, peripheral neuropathy, and rheumatoid arthritis.
The prevalence of both disorders increases dramatically with age. The prevalence of PLMS can be as high as 45% in community-dwelling adults older than 65 years,22 while the prevalence of RLS in older adults ranges from 9% to 20%.23 PLMS are equally prevalent in older men and women, while RLS appears to occur more commonly in older women than in older men.23
Medications that suppress the leg movements and/or the related arousals are the therapies currently recommended for both RLS and PLMS. Dopamine agonists (specifically, ropinirole and pramipexole) are the first-line treatments for both disorders in the older adult because these agents effectively decrease the number of leg jerks and associated arousals. PLMS in the absence of associated arousals from sleep and in the absence of significant symptoms do not require treatment.
Rapid eye movement sleep-behavior disorder
Rapid eye movement (REM) sleep-behavior disorder is another sleep disorder found more commonly in older adults, especially in older men. Patients with REM sleep-behavior disorder display complex motor activities during REM sleep caused by the loss of normal skeletal muscle atonia during this stage of sleep. Patients with REM sleep-behavior disorder appear to act out their dreams and may punch, kick, yell, or jump out of bed in response to dream imagery. Vivid dreams that are consistent with the patient's aggressive and/or violent behavior may be recalled on waking. The reported prevalence is 0.5%, with the highest incidence occurring after the age of 50 years.24 Approximately 40% of the cases are associated with an underlying neurodegenerative disorder such as synucleinopathies including diffuse Lewy body disease and Parkinson disease. REM sleep-behavior disorder may actually be the first manifestation of these disorders, preceding the clinical symptoms of the underlying neurological disorder by more than 10 years.25
The diagnosis of REM sleep-behavior disorder requires a complete sleep history in the presence of the bed partner if possible and an overnight polysomnogram with video recording. The mainstays of treatment for REM sleep-behavior disorder are environmental safety, patient education, and the long-acting benzodiazepine clonazepam, which may suppress or simply reduce the increased movements during sleep.
Sleep in dementia
Patients with dementia, whether they live independently or are institutionalized, are especially prone to experiencing fragmented and disrupted sleep. While the underlying neurodegenerative process of dementia itself may cause these sleep disturbances, patients with dementia may also have primary sleep disorders, such as obstructive sleep apnea, PLMS, RLS, or REM sleep-behavior disorder, or have disturbed sleep related to pain, medications, circadian rhythm changes, or depression. Disturbed sleep related to dementia should be a diagnosis of exclusion. Consequences of this disrupted sleep may include napping (intentional and unintentional) and abnormal nighttime behavior such as wandering or confusion. Such behavior at night can significantly add to caregiver stress and may contribute to the need for institutionalization.
As with patients without dementia, treatment of specific sleep disorders in the older patient with dementia should be guided by the specific sleep disorder. For example, patients with obstructive sleep apnea should be treated with continuous positive airway pressure if appropriate; patients with circadian rhythm disturbances should be treated with bright light therapy if appropriate. In this patient population, the risk-to-benefit ratio does not favor the use of many of the pharmacological treatments. In general, nonpharmacological interventions, such as regular physical activity and good sleep hygiene like restricting time in bed and maintaining regular sleep-wake times (Table 2), should always be used and medications added only when indicated. Many of the medications prescribed as sleeping aids such as sedative-hypnotics, antihistamines, and antipsychotics have significant potential adverse effects, particularly residual daytime sleepiness, which may be magnified in the older adult and result in impaired motor and/or cognitive function.
Sleep in institutionalized older adults
Older adults with dementia who reside in nursing homes experience even more fragmented and disturbed sleep than those living in the community. Reports show that during any 24-hour period, institutionalized patients with severe dementia may not spend a single hour completely awake or completely asleep.26 Nursing-home patients have been found to have more advanced sleep-wake cycles and worse overall sleep quality. Furthermore, they are treated with sedative-hypnotics more frequently than older patients living at home or in an assisted-living facility.27
The poor sleep experienced by many nursing-home residents is probably caused by a variety of factors, including excessive noise at night28 and inadequate light exposure (less than 10 minutes of bright light per day).9 These patients also tend to spend large amounts of time in bed, which may disrupt circadian rhythms and contribute to further disruptions in sleep. As with community living older adults with dementia, nonpharmacological inventions, such as reducing nighttime noise and improving sleep hygiene, especially restricting time in bed, should be instituted first. In addition, increased light exposure has been shown to consolidate sleep and strengthen circadian rhythms in this population of patients.29
For many older adults, the aging process is associated with difficulty in getting a good night's sleep. Potential contributors to poor sleep include primary sleep disorders, circadian rhythm disturbances, insomnia, medications, and the presence of comorbid conditions such as depression and chronic diseases. Older adults with sleep complaints should be evaluated with a thorough sleep history and an overnight sleep recording or sleep diary when indicated. Treatment should focus on the underlying sleep disorder and should take into account some of the unique and special issues found in older adults. A good night's sleep can be achieved in older adults with some patience and the proper interventions and can result in significant improvements in their quality of life and daytime functioning.
Earn CME Credit
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19. Aloia MS, Ilniczky N, Di Dio P, et al. Neuropsychological changes and treatment compliance in older adults with sleep apnea. J Psychosom Res. 2003;54:71-76.
20. Ayalon L, Ancoli-Israel S, Stepnowsky C, et al. Adherence to continuous positive airway pressure treatment in patients with Alzheimer's disease and obstructive sleep apnea. Am J Geriatr Psychiatry. 2006;14: 176-180.
21. Ancoli-Israel S. Guest editorial: sleep apnea in older adults--is it real and should age be the determining factor in the treatment decision matrix? Sleep Med Rev. 2007;11:83-85.
22. Ancoli-Israel S, Kripke DF, Klauber MR, et al. Periodic limb movements in sleep in community-dwelling elderly. Sleep. 1991;14:496-500.
23. Hornyak M, Trenkwalder C. Restless legs syndrome and periodic limb movement disorder in the elderly. J Psychosom Res. 2004;56: 543-548.
24. Ohayon MM, Caulet M, Priest RG. Violent behavior during sleep. J Clin Psychiatry. 1997;58:369-376.
25. Schenck CH, Bundlie SR, Mahowald MW. Delayed emergence of a parkinsonian disorder in 38% of 29 older men initially diagnosed with idiopathic rapid eye movement sleep behavior disorder. Neurology. 1996;46:388-393.
26. Pat-Horenczyk R, Klauber MR, Shochat T, Ancoli-Israel S. Hourly profiles of sleep and wakefulness in severely versus mild-moderately demented nursing home patients. Aging Clin Exp Res. 1998;10:308-315.
27. Middelkoop HA, Kerkhof GA, Smilde-van den Doel DA, et al. Sleep and ageing: the effect of institutionalization on subjective and objective characteristics of sleep. Age Ageing. 1994;23:411-417.
28. Alessi CA, Schnelle JF. Approach to sleep disorders in the nursing home setting. Sleep Med Rev. 2000;4:45-56.
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