An in-depth report on the causes, diagnosis, treatment, and prevention of insomnia.
What is Insomnia?
Insomnia can be a short-term or long-term condition, but it always involves problems with falling asleep or staying asleep. Short-term (acute) insomnia can be caused by illness, stress, travel, or environmental factors. Long-term (chronic) insomnia may be due to underlying psychological or physical conditions.
Who is at Risk?
Anyone can get insomnia, but it is generally more common in women than in men. Older people are particularly at risk for insomnia.
A doctor will make a diagnosis of insomnia based on information about your sleep patterns. Your doctor may ask:
- How long does it take for you to fall asleep at night?
- How many times during the night do you wake up?
- Do you experience daytime fatigue?
- Do you have a medical condition that may interfere with sleep?
- What medications do you take (including prescription drugs, over-the-counter drugs, and herbs or supplements)?
- Do you drink alcohol or smoke?
Your doctor may also ask you to keep a sleep diary to record specific sleep-related information.
- Sleep hygiene is the most important step for controlling insomnia. These simple self-help measures include establishing a regular bedtime routine, regulating mealtimes and fluid consumption, and limiting caffeine consumption.
- Cognitive behavioral therapy can help treat chronic insomnia in people of all ages. It includes various approaches for establishing new sleep behaviors and for helping people relax and sleep well.
- If self-help or behavioral therapies do not solve the problem, a doctor may prescribe medications for use on a short-term basis.
Non-benzodiazepine sedative hypnotics are usually the preferred type of drugs. They include zolpidem (Ambien, generic), zaleplon (Sonata, generic), and eszopiclone (Lunesta, generic). Newer types of sedative hypnotics include ramelteon (Rozerem, generic) and suvorexant (Belsomra).
All sedative hypnotics can cause side effects, so make sure that your doctor explains the risks for these drugs and the precautions you need to take.
Insomnia comes from the Latin words for "no sleep." Insomnia is characterized by any of the following:
- Difficulty falling asleep
- Difficulty staying asleep
- Waking up too early
- Poor quality ("non-restorative") sleep
Insomnia may be primary or secondary:
Primary insomniameans that the inability to sleep occurs by itself and is not caused by other health problems.
Comorbid insomniaoccurs together with other health conditions that interfere with sleep. It is also called "secondary insomnia", although it is unclear whether those conditions caused insomnia.
Duration of Insomnia
Insomnia is often categorized by how long it lasts:
Transientinsomnia lasts for a few days.
Short-term (acute)insomnia lasts for several weeks.
Long-term (chronic)insomnia lasts for a month or longer.
Insomnia may also be defined in terms of inability to sleep at conventional times. The following examples are referred to as circadian rhythm disorders:
Delayed sleep-phase syndromerefers to a pattern of falling asleep very late at night or in the early morning hours, and having difficulty waking up in the morning. This syndrome is more likely to occur in adolescents.
Advanced sleep-phase syndromerefers to a pattern of falling asleep early in the evening (6 to 9 p.m.), waking early in the morning (3 to 5 a.m.), and being unable to fall back asleep. This syndrome tends to develop in older people.
In studies of human sleep behavior, subjects spend about one-third of their time asleep, suggesting that most people need about 8 hours of sleep each day. Individual adults differ in the amount of sleep they need to feel well-rested. Infants may sleep as many as 16 hours a day.The daily cycle of life, which includes sleeping and waking, is called a
circadian(meaning "about a day") rhythm, commonly referred to as the biologic clock. Hundreds of bodily functions follow biologic clocks, but sleeping and waking comprise the most prominent circadian rhythm.
The sleeping and waking cycle is about 24 hours. It usually takes the following daily patterns:
- Daytime activity and nighttime rest.
- A natural peak in sleepiness at mid-day, the traditional siesta time.
In addition, daily rhythms intermesh with other factors that may interfere or change individual patterns:
- The monthly menstrual cycle in women can shift the pattern.
- Light signals coming through the eyes reset the circadian cycles each day, so changes in season or various exposures to light and dark can unsettle the pattern. Sunlight is an important regulator of circadian rhythms. People who are blind often have trouble falling asleep and waking up at "normal" times because they are missing the normal light cues.
There are significant variations in the time of the day that people prefer to go to sleep and wake up. This preference is also called morningness or eveningness. According to their sleep habits, people fall into two different chronotypes: the morning type, also called "larks", and the evening type, also called "owls". The morning type prefers to go to sleep and wake up early, and performs better in the first part of the day, while the evening type has an opposite pattern of activity and sleep. Some evidence indicates that sleep habits may be associated with variations in the CLOCK gene, one of the most important regulators of the circadian rhythm. This would suggest that morningness and eveningness have a genetic component.
The Response in the Brain to Light Signals
The response to light signals in the brain is an important key factor in sleep:
- Light signals travel to a tiny cluster of nerves in the hypothalamus in the center of the brain, the body's master clock, which is called the suprachiasmatic nucleus (SCN).
- This nerve cluster takes its name from its location, which is just above (supra) the optic chiasm, a major junction for nerves transmitting information about light from the eyes.
- The approach of dusk each day prompts the SCN to signal the nearby pineal gland (so named because it resembles a pinecone) to produce the hormone melatonin.
- Melatonin is thought to act as the body's clock-setting hormone. The longer a person is in darkness the longer the duration of melatonin secretion. Secretion can be diminished by staying in bright light. Melatonin also appears to trigger the need to sleep.
Sleep consists of REM and Non-REM sleep, two distinct states that alternate in cycles and reflect differing levels of brain nerve cell activity.
Non-Rapid Eye Movement (Non-REM) Sleep:
Non-REM (or NREM) sleep is also termed quiet sleep. Non-REM is divided into three stages of progression:
- N1 (light sleep)
- N2 (so-called true sleep)
- N3 (deep "slow-wave" or delta sleep)
With each descending stage, awakening becomes more difficult. It is not known what governs NREM sleep in the brain. A balance between certain hormones, particularly growth and stress hormones, may be important for deep sleep.
Rapid Eye Movement (REM) Sleep:
During REM sleep the brain is highly active. This stage is called active sleep in babies. Most vivid dreams occur in REM sleep. In REM sleep, brain activity is comparable to that in waking, but the muscles are virtually immobilized, which prevents people from acting out their dreams. Except for muscles associated with vital organs like the lungs (the diaphragm) and heart, the only muscles not immobilized during REM are the eye muscles. REM sleep may be critical for learning and for day-to-day mood regulation. When people are sleep-deprived, their brains must work harder than when they are well-rested.
The REM/Non-REM Cycle:
The cycle between quiet (Non-REM) and active (REM) sleep generally follows this pattern:
- After about 90 minutes of Non-REM sleep, eyes move rapidly behind closed lids, giving rise to REM sleep.
- As sleep progresses the Non-REM/REM cycle repeats.
- With each cycle, Non-REM sleep becomes progressively lighter, and REM sleep becomes progressively longer, lasting from a few minutes early in sleep to perhaps an hour at the end of the sleep episode.
Causes of Temporary Insomnia
A reaction to change or stress is a common cause of short-term (several weeks) and transient (several days) insomnia. This condition is sometimes referred to as adjustment sleep disorder.
The trigger could be a major or traumatic event such as:
- An acute illness
- Injury or surgery
- The loss of a loved one
- Job loss
Temporary insomnia can also develop due to a relatively minor situational event, including:
- Extremes in weather
- Stress about an exam
- Trouble at work
- Travel, particularly across time zones
In most cases, normal sleep almost always returns when the condition resolves, or when the person recovers from the event or becomes used to the new situation. Treatment is needed if sleepiness interferes with functioning or if it continues for more than a few weeks. Individual responses to stress vary. Some people never experience insomnia, even during very stressful situations while others may suffer from insomnia in response to very mild stressors.
Female Hormonal Fluctuations
Fluctuations in female hormones play a major role in insomnia in women over their lifetimes. This temporary insomnia may occur during:
Menstruation.Progesterone promotes sleep. Levels of this hormone plunge during menstruation, causing insomnia. When progesterone levels rise during ovulation, women may become sleepier than usual.
Pregnancy.Changes in progesterone levels during the first and last trimester can disrupt normal sleep patterns.
Menopause.Insomnia can be a major problem during the transition to menopause (perimenopause), when hormone levels are fluctuating intensely. In addition, hot flashes and night sweats can disrupt sleep and cause sudden and frequent awakening.
Air travel across time zones often causes temporary insomnia. After long plane trips, a day of adjustment is usually needed for each time zone crossed. Traveling from the east to an earlier time zone in the west seems to be less disruptive than traveling to a later time zone in the east because it is easier to lengthen a circadian phase than to shorten it.
Effect of Light and Other Environmental Disruptions
Light, noise, and uncomfortable temperatures can cause sleeplessness. Depending on the time of day, too much or too little light can disrupt sleep:
Excessive Light at Night.A person's biologic circadian clock is triggered by sunlight, and very bright artificial light maintains wakefulness.
Insufficient Light during the Day.Insufficient exposure to light during the day, as occurs in some disabled older people who rarely venture outside, may also be linked with sleep disturbances.
Other Causes of Temporary Insomnia
Caffeine is a stimulant, which can interfere with falling asleep.
Nicotine is also a stimulant, but quitting smoking can lead to transient insomnia.
Partner's Sleep Habits
A partner's sleep habits, including snoring, can impair one's own sleep.
Insomnia is a side effect of many common medications, including over-the-counter preparations that contain caffeine or decongestants. If you suspect your medications are causing you to lose sleep, check with your doctor or pharmacist.
Causes of Chronic Insomnia
Sleep problems seem to run in families. Many people with chronic insomnia have a family history of insomnia, with the mother being the most commonly affected family member. Because there are so many factors involved in insomnia, a genetic component is difficult to define. However, recent studies indicate that several genes are associated with the presence of chronic insomnia.
Anxiety, Depression, and Other Mental Health Disorders
Many cases of chronic insomnia cases have an emotional or psychological basis. The disorders that most often cause insomnia are:
- Bipolar disorder
- Attention-deficit hyperactivity disorder
- Post-traumatic stress disorder
Insomnia may also be the cause of emotional and mental health problems, such as depression and anxiety. It is often unclear which condition has triggered the other, or if the two conditions have a common source.
In many cases, it is unclear if chronic insomnia is a symptom of some physical or psychological condition or if it is a primary disorder of its own. In most instances, a mix of psychological and physical conditions causes the insomnia.
Psychophysiologic insomnia occurs when temporary insomnia disrupts your sleep patterns:
- You begin to associate the bed not with rest and relaxation, but with a struggle to sleep. A pattern of sleep failure emerges.
- Over time, going to bed becomes a source of anxiety. You focus on your inability to sleep, the consequences of sleep loss, and the lack of mental control. This makes falling asleep even more difficult.
- Eventually, excessive worry about sleep loss becomes persistent and provides an automatic nightly trigger for anxiety and arousal leading to a continued cycle of insomnia.
Medical Conditions and Their Treatments
Among the many medical problems that can cause chronic insomnia are allergies, benign prostatic hyperplasia (BPH), arthritis, gastroesophageal reflux disease (GERD), asthma, chronic obstructive pulmonary disorder (COPD), rheumatologic conditions, Alzheimer disease, Parkinson disease, hyperthyroidism, epilepsy, and fibromyalgia. Other types of sleep disorders, such as restless legs syndrome and sleep apnea, can cause insomnia. Many people with chronic pain sleep poorly.
Among the many medications that can cause insomnia are antidepressants (especially bupropion), beta-blockers, and beta-agonists.
Substance abuse can cause chronic insomnia. This is true for both stimulants such as cocaine and sedatives such as alcohol. One or two alcoholic drinks may help reduce stress and initiate sleep. However, excessive alcohol use tends to fragment sleep and cause wakefulness a few hours later. It also increases the risk for other sleep disorders, including sleep apnea and restless legs syndrome. People who are alcohol-dependent often suffer insomnia during withdrawal and, in some cases, for several years during recovery.
More than one-quarter of all Americans experience short-term (acute) insomnia at some point during a year, and nearly 10% have long-term (chronic) insomnia.
Overall, insomnia is more common in women than men, although men are not immune to insomnia. Sleep efficiency deteriorates equally in men and women as they get older.
Hormonal fluctuations that occur during menstruation, pregnancy, and menopause put women at higher risk for insomnia. Women are also more likely than men to suffer from anxiety and depressive disorders, which can cause insomnia.
Insomnia is more common in older people than younger people. As people grow older, sleep patterns change. Older adults tend to wake up frequently during the night, wake up earlier, and report waking up feeling unrefreshed.
Older people are also more likely than younger people to have medical conditions that cause pain or nighttime distress. These conditions include arthritis, gastrointestinal distress, frequent urination, lung disease, and heart conditions. Neurologic conditions, such as Parkinson disease and Alzheimer disease, can also affect sleep patterns. Consequences of poor sleep in older people include a higher risk of falling.
Shift workers are at considerable risk for insomnia. Workers over age 50 and those whose shifts are always changing are particularly susceptible to insomnia. Night-shift workers also have a high rate of sleeplessness.
Night-shift workers are at risk for falling asleep on the job at least once a week, implying that their internal clocks do not fully adjust to unusual work times. They are also at much higher risk than other workers for automobile accidents due to their drowsiness and may also have a higher overall risk for health problems.
Insomnia itself is not life-threatening, but it can increase the risk for accidents, psychiatric problems, and certain medical conditions. It can also affect school and work performance, and significantly interfere with quality of life. Lack of sleep can cause weight gain and lead to obesity.
Increased Risk of Accidents
Sleepiness increases the risk for motor vehicle and workplace accidents. Studies indicate that drowsy driving is as risky as drunk driving. Research also suggests that insomnia is associated with a higher proportion of workplace accidents than any other chronic health condition.
Quality of Life
Surveys show that people with severe insomnia have a quality of life that is almost as poor as those who have chronic medical conditions, such as heart failure. Daytime sleepiness can lead to decreased energy, irritability, mistakes at work and school, and poorer relationships.
Thinking and Performance
Insomnia makes it harder to concentrate and perform tasks. Deep sleep deprivation reduces concentration and impairs the brain's ability to process information.
Although stress and depression are major causes of insomnia, insomnia may also increase the activity of the hormones and pathways in the brain that are associated with mental health problems. Chronic insomnia may increase the risk of developing depression and anxiety.
Even modest alterations in waking and sleeping patterns can have significant effects on a person's mood. In both children and adults, the combination of insomnia and daytime sleepiness can produce more severe depression than either condition alone.
Obesity and Weight Gain
Lack of sleep causes hormonal, metabolic, and brain activity changes that affect weight and appetite regulation. Research increasingly suggests that people who are sleep-deprived are more likely to have problems with weight gain and obesity, which can increase the risk for other health conditions, such as heart disease and diabetes.
Evidence suggests that chronic insomnia may moderately increase the risk for heart disease, heart attack, and heart failure. In men, insomnia may possibly increase the chance of death from cardiovascular disease. Research continues on the relationship between insomnia and the chronic inflammation associated with heart disorders.
A number of questionnaires are available for determining whether a person has insomnia or other sleep disorders. For example, the doctor may ask:
- How would you describe your sleep problem?
- How long have you had the sleep problem?
- How long does it take you to fall asleep?
- How many times a week does it occur?
- How restful is your sleep?
- Do you have trouble falling asleep or do you wake up too early?
- What is the sleep environment like? (Noisy? Not dark enough?)
- How does insomnia affect daytime functioning?
- What medications do you take? (Include herbs and over-the-counter or prescription drugs.)
- Are you taking or withdrawing from stimulants, such as coffee or tobacco?
- How much alcohol is consumed per day?
- What stresses or emotional factors may be present?
- Have you experienced any significant life changes?
- Do you snore or gasp during sleep (an indication of sleep apnea)?
- Do you have leg problems (cramps, twitching, crawling feelings)?
- Is there is a bed partner? Is this person's behavior distressing or disturbing?
- Are you a shift worker?
Keeping a sleep diary is a helpful diagnostic tool. Every day for 2 weeks, record all sleep-related information (including responses to questions listed above). Other information should include the time you went to bed, time spent falling asleep, number of nocturnal awakenings, and rising time. The times that caffeine or alcohol are ingested are also frequently included in the diary. Your bed partner's observations of your sleep behavior can also help.
The Epworth Sleepiness Scale is a questionnaire used to measure sleepiness by determining the likelihood of falling asleep in various types of situations.
Actigraphy uses a portable device with a sensor to monitor movement. Actigraphy may be used in some situations to help give a doctor a better picture of a person's sleep pattern. It cannot, however, determine the severity of sleep problems. Most people with insomnia are diagnosed and treated without this test. However, actigraphy may help identify insomnia in some people.
Sleep Disorders Centers
If unexplained insomnia persists after treatment or there is evidence of a primary sleep disorder, such as sleep apnea or narcolepsy, the doctor may recommend a sleep specialist or a sleep disorders center.
Among the signs that may indicate a need for a sleep disorders center are:
- Insomnia due to psychologic disorders
- Sleeping problems due to substance abuse
- Snoring and sudden awakening with gasping for breath (possible sleep apnea)
- Severe restless legs syndrome
- Persistent daytime sleepiness
- Sudden episodes of falling asleep during the day (possible narcolepsy)
Most sleep disorders centers perform an in-depth analysis, which includes polysomnography.
Polysomnographyis the technical term for an overnight sleep study that involves recording brain waves and other sleep-related activity. Its primary role is in diagnosing obstructive sleep apnea, restless leg syndrome/periodic limb movement disorder, or other abnormal sleep behaviors called parasomnias, such as nightmares, sleepwalking, and acting out dreams. If obstructive sleep apnea is the most likely problem, a sleep device called a home sleep test may be provided for you to sleep within your home.
The American Academy of Sleep Medicine (AASM) recommends a number of behavioral methods and prescription medications as the main treatments for insomnia. According to the AASM, these treatment options can improve both quality and quantity of sleep for people with insomnia.
Doctors agree that behavioral therapies should be the first-line treatment for insomnia. For children in particular, medications should rarely be used as initial treatment.
Various approaches are available to help people learn how to relax and sleep well. Although medications can help people with insomnia to sleep, they cannot cure the condition. Behavioral techniques can dramatically improve chronic insomnia in many cases, and the benefits of psychological and behavioral therapy are long-lasting. Behavioral methods work for all age groups, including children and older adults.
Sleep hygiene practices, tips and techniques for ensuring a good night's sleep, should accompany any behavioral method. (For more on sleep hygiene, see the Lifestyle Changes section of this report.)
Behavioral methods include:
- Stimulus control
- Cognitive-behavioral therapy
- Relaxation training and biofeedback
- Sleep restriction
All behavioral approaches have the same basic goals:
- To reduce the time it takes to go to sleep to less than 30 minutes
- To reduce the frequency and length of wake periods during the night
Studies report that the majority of people who are treated with non-drug methods experience improved sleep. Furthermore, most of those who have been taking sleep medications are able to stop or reduce their use.
Stimulus control is considered the standard treatment for primary chronic insomnia and may also be helpful for some people with secondary insomnia. The primary goal of stimulus control is to regain the idea that the bed is for sleeping. It involves the following:
- Use the bed only for sleep and sex.
- Go to bed only when ready to sleep.
- If unable to sleep within 15 to 20 minutes, get up and go into another room. (People who find it physically difficult to get out of bed should sit up and do something relatively arousing, like reading a book.)
- Maintain a regular wake-up time no matter how few hours you actually sleep.
- Avoid naps.
Cognitive-behavioral therapy (CBT) is a form of therapy that emphasizes observing and changing negative thoughts about sleep such as, "I'll never fall asleep." It uses actions intended to change behavior. The goal is to change or correct misconceptions about the ability to fall and stay asleep. Emphasis is on reinforcing the need for 7 to 8 hours of sleep each night and addressing the anxiety that people with insomnia often develop around sleep. Many studies have shown CBT to work as well or better than drugs. According to several studies, adding medication to CBT does not provide additional benefit.
Relaxation Training and Biofeedback
Relaxation training includes breathing and guided imagery techniques. Progressive muscle relaxation is another technique for inducing sleep that works well for many people. It takes about 10 minutes to perform and involves the following:
- Focus on one specific muscle group at a time. Most people start with the muscles in one foot. Inhale and tense the foot muscles for about 8 seconds. (Do this gently. It is not intended to cause severe pain or muscle contractions.)
- Relax the foot, and let it become loose and limp. Stay relaxed for 15 seconds, and then repeat with the other foot.
- Move up to the next muscle group and repeat the sequence, doing one side of the body at a time. Move progressively from each foot and leg, up through the abdomen and chest, to each hand and arm, then to the neck, shoulders, and face.
Biofeedback may be combined with relaxation techniques. Biofeedback involves being monitored with an electroencephalogram (EEG), a device that measures brain waves. People are given feedback to recognize certain states of tension or sleep stages so that they can either avoid or repeat them voluntarily.
Paradoxical Intention and Sleep Restriction Therapies
Paradoxical intention is a type of cognitive technique that aims to conquer anxiety about insomnia by forcing the patient to stay awake. Not trying to fall asleep may help relieve performance anxiety associated with sleep.
Sleep restriction therapy is similar to paradoxical intention. It involves limiting the time spent in bed to the number of hours that are actually spent asleep. Eventually, the sleep loss helps some people fall asleep faster and spend more time asleep. As sleep improves, the hours spent in bed are increased.
Treatment of Underlying Mental Health Problems
Disruption in sleep is commonly present in those with mental health problems, such as certain types of depression, bipolar disorder, anxiety disorders, attention deficit disorders, alcohol and substance abuse, psychosis, and others.
When a sleep problem accompanies any of these disorders, it is important that the underlying mental health problem is treated also.
Unlike behavioral treatment, which can cure insomnia, sleeping pills produce only temporary improvement. Medications for insomnia can also have some serious side effects and risks, especially for older people. In general, the following considerations are important when using medications for the treatment of insomnia:
- Non-benzodiazepine and other newer sedative hypnotics are the preferred medications for insomnia and have less risk for dependency than other drugs, such as benzodiazepines. However, these drugs may cause hazardous or strange sleep-related behaviors. They can also impair driving and mental alertness the next day. If you need to take one of these prescription drugs, start with as low a dose as possible.
- For adults over age 60 years, the risks for sedative hypnotics may far outweigh their benefits. Sleep medications increase the risks for falls, depression, and memory loss in older people. Older people should generally start sleep medications at lower doses than younger people.
- As a general rule, do not take either prescription or nonprescription sleeping pills on consecutive days or for more than 2 to 4 days a week.
- Medication should be withdrawn gradually, and the person should be aware of the possibility of rebound insomnia after stopping medication. Rebound insomnia is the return of insomnia after medication is discontinued. It usually lasts for several days and can be more severe than the original insomnia.
- If insomnia is still a problem after stopping the medication and continuing with good sleep hygiene, this pattern can be repeated again, but for only up to 4 weeks.
- Alcohol intensifies the side effects of all sleeping medication and should be avoided.
- If chronic insomnia is accompanied by depression or anxiety, treating these problems first may be the best approach.
Sleep Hygiene Tips
Proper sleep hygiene should accompany any behavioral method. The term sleep hygiene is used to describe simple behaviors that may help everyone improve their sleep.
During the day:
- Avoid naps, especially in the evening.
- Exercise before dinner. Stimulation from exercise drops to a low point a few hours after exercise, making sleep easier.
- Exercising close to bedtime may increase alertness.
- Eat light meals, and schedule dinner 4 to 5 hours before bedtime. A light snack before bedtime can help sleep, but a large meal may have the opposite effect.
- Spend at least half an hour in daylight every day. The best time is early in the day.
Before and at bedtime:
- Establish a regular time for going to bed and getting up in the morning. Stick to this schedule even on weekends and during vacations.
- Use the bed for sleep and sexual relations only, and not for reading, watching television, or working. Excessive time in bed disrupts sleep.
- Take a hot bath about 1.5 to 2 hours before bedtime to help fall asleep.
- Do something quiet and relaxing in the 30 minutes before bedtime. Reading, meditating, or a leisurely walk are all appropriate activities.
- Keep the bedroom relatively cool and well ventilated.
- Avoid fluids just before bedtime so that sleep is not disturbed by the need to urinate.
- Avoid stimulants such as caffeine or nicotine in the hours before sleep.
- Avoid alcohol in the hours before bedtime. While alcohol may help you fall asleep quickly, it can cause you to wake up in the middle of the night.
If you are having problems falling asleep:
- Do not look at the clock. Obsessing over time will just make it more difficult to sleep.
- If still awake after 15 to 20 minutes, go into another room, read or do a quiet activity using dim lighting until feeling very sleepy. Do not watch television or use bright lights.
- If distracted by a sleeping bed partner, moving to the couch or a spare bed for a couple of nights might be helpful.
- If a specific worry is keeping you awake, thinking of the problem in terms of images rather than in words may help you to fall asleep more quickly and to wake up with less anxiety.
Herbs and Supplements
More than 1.5 million Americans use complementary and alternative therapies to treat insomnia. Valerian and melatonin are among the most popular herbal and supplement remedies for insomnia. Chamomile tea and lemon balm are also popular. These substances are generally harmless for most people. However, other herbs and supplements have more serious side effects and interactions.
The American Academy of Sleep Medicine (AASM) advises that there is only limited scientific evidence to show that herbal and dietary supplements are effective sleep aids. The AASM recommends that these products should be taken only if approved by a doctor. Be sure to talk to your doctor if you are considering taking any herbal or dietary supplement. Some of these products can interact with prescription medications.
Generally, manufacturers of herbal remedies and dietary supplements do not need FDA approval to sell their products. Just like a drug, herbs and supplements can affect the body's chemistry, and therefore have the potential to produce side effects that may be harmful. There have been a number of reported cases of serious and even lethal side effects from herbal products. People should always check with their doctors before using any herbal remedies or dietary supplements.
Melatonin is the most studied dietary supplement for insomnia. It appears to reduce the time to fall asleep (sleep onset) and may be effective in treating delayed sleep phase syndrome. However current evidence does not support the use of melatonin for primary or secondary insomnia. There are no consistent standards on melatonin doses and its safety has only been assessed for short-term use. General recommendations are to take 0.3 mg to 1 mg about 90 minutes before going to sleep. Taking higher doses may disrupt sleep and may cause daytime sleepiness, headaches, dizziness, nausea, and stomach cramps.
Valerian is an herb that has sedative qualities and is commonly used by people with insomnia. Some studies have indicated that it may help improve the quality of sleep, but there have been few rigorous and well-conducted trials to prove it is effective.
Kava has been used to relieve anxiety and improve sleep. It is dangerous and associated with reports of liver failure and death, with highest risk in those with liver disease. Kava can interact dangerously with certain medications, including alprazolam, an anti-anxiety drug. Kava also increases the strength of certain other drugs, including other sleep medications, alcohol, and antidepressants. Do not use this herb.
Tryptophan and 5-hydroxy-L-tryptophan (5-HTP)
Tryptophan is an amino acid used in the formation of the neurotransmitter serotonin, which is associated with healthy sleep. L-tryptophan used to be marketed for insomnia and other disorders but was withdrawn after contaminated batches caused a rare but serious, and even fatal, disorder called eosinophilia myalgia syndrome. A byproduct of tryptophan, 5-HTP, is still available as a supplement. There is little evidence that 5-HTP relieves insomnia.
Certain Nonprescription Antihistamines
Many over-the-counter sleeping medications use antihistamines, which cause drowsiness. Diphenhydramine (Benadryl, generic) is the most common antihistamine used in non-prescription sleep aids.
Some drugs marketed as sleep aids contain diphenhydramine alone, while others contain combinations of diphenhydramine with pain relievers (such as Tylenol PM and its generic forms). Doxylamine (Unison, generic) is another antihistamine used in sleep medications. Certain antihistamines indicated only for allergies, such as chlorpheniramine (Chlor-Trimeton, generic) or hydroxyzine (Atarax, Vistaril, generic) may also be used as mild sleep-inducers.
Unfortunately, most of these drugs leave people feeling drowsy the next day and may not be very effective in providing restful sleep. Side effects include:
- Daytime sleepiness
- Cognitive impairment
- Drunken movements
- Blurred vision
- Dry mouth and throat
In general, people with angina, heart arrhythmias, glaucoma, or problems urinating should avoid these drugs. They should not be used at the same time as medications that prevent nausea or motion sickness. People with chronic lung disease should also avoid some nonprescription sleeping aids, such as those containing doxylamine.
Nonprescription Pain Relievers
When sleeplessness is caused by minor pain, simply taking acetaminophen (Tylenol, generic) or a non-steroidal anti-inflammatory drug (NSAID) such as ibuprofen (Advil, Motrin, generic), can be very helpful without causing any daytime sleepiness. The extra "P.M." antihistamine found in combination products is simply an extra, needless chemical in these situations.
Sedative hypnotics include benzodiazepines and non-benzodiazepines, which enhance the effects of the brain chemical (neurotransmitter) GABA. When GABA binds to GABA receptors, brain activity slows down, inducing calm and relaxation. There are also new types of sedative hypnotics that work in a different way by targeting receptors for melatonin or orexin.
Sedative hypnotics carry risks for dependence, tolerance, and rebound insomnia:
Dependencemeans relying on a drug for falling asleep and having difficulty falling asleep or achieving restful sleep without it.
Toleranceis being unable to fall asleep using the original dose and needing to take progressively higher doses of medication.
Rebound insomniacan occur after stopping the drug. It typically causes 1 to 2 nights of sleep disturbance, daytime sleepiness, and anxiety. In some cases, people may experience a temporary worsening of long-term insomnia.
Non-benzodiazepines (also called "Z" drugs) are the preferred sedative hypnotic drugs for the treatment of insomnia. In general, non-benzodiazepine hypnotics are recommended for short-term use (7 to 10 days), and treatment should not exceed 4 weeks.
Non-benzodiazepine hypnotics currently approved in the United States are:
- Zolpidem (Ambien, Ambien CR, generic) is the most commonly prescribed drugs for insomnia. Because it is long-lasting, people should not take it unless they plan on getting at least 7 to 8 hours of sleep. A lower-dose, sublingual (under-the-tongue) formulation of zolpidem (Intermezzo) is approved for people who wake up abruptly in the middle of the night and have trouble falling back asleep. People take it as needed when they awaken in the night but must be able to get at least 4 hours of sleep after taking.
- Zaleplon (Sonata, generic) is the shortest-acting hypnotic available. Because it is rapidly eliminated from the body it may be best for people who have difficulty falling asleep, not those who wake up often throughout the night. The drug takes effect within 30 minutes and may be taken at bedtime or later as long as the patient can sleep for at least 4 hours.
- Eszopiclone (Lunesta, generic) is related to zopiclone (Imovane), which has been used for many years in Europe. Unlike other sleep medications, eszopiclone was the first sleep medication approved to be taken on a long-term basis.
For all sleeping pills, the lowest dose that achieves symptom relief should be the chosen dose.
Recommended dosage for zolpidem products:
- All zolpidem products now have lower recommended bedtime dosages.
- Women have lower recommended dosages than men (women metabolize zolpidem more slowly than men and are more susceptible to next-day mental impairment).
- Use of higher doses increases the risk for next-day impairment of driving. In addition, the FDA warns people to refrain from next-day driving or activities involving mental alertness if they take the extended-release form of zolpidem (Ambien CR, generic).
Lower dose recommendations are also in place for eszopiclone, which can cause impairment in driving and cognitive skills for up to 11 hours after an evening dose. The FDA is currently reviewing all sleep medications to evaluate how they affect next-day mental alertness.
Non-benzodiazepines tend to have fewer side effects than benzodiazepines because they target the GABA receptor in a more specific way. However, these drugs can still cause residual morning sedation even if you are feeling fully awake. When people first start taking any of these drugs, they should use caution during morning activities until they are sure how the drug affects them.
General side effects may include:
- Diarrhea or constipation
All non-benzodiazepine drugs carry labels warning that these drugs can cause strange sleep-related behavior, including driving, making phone calls, and preparing and eating food while asleep. Most cases of sleepwalking and sleepdriving likely occur when people use the drug along with alcohol or other drugs or take more than the recommended dose. The FDA recently added a boxed warning on rare but serious injuries related to sleepwalking and sleepdriving related to eszopiclone (Lunesta), zaleplon (Sonata), and zolpidem (Ambien, Ambien CR, Edluar, Intermezzo, Zolpimist).
Anyone who receives a prescription for these medicines will get a patient medication guide explaining the risks for the drugs and the precautions to take. Talk to your doctor if you have any questions concerning these drugs or their potential side effects.
Carefully read the information labels for all drugs and follow the directions. Some sleeping pills take 30 to 60 minutes to take effect, while others (such as zolpidem) act quickly. For zolpidem, people should:
- Take zolpidem immediately before going to sleep
- Take zolpidem only when able to get a full night's sleep (7 to 8 hours)
- Not drink alcohol the same evening
- Not take more than the prescribed dose
- Use caution in the morning when getting out of bed, driving, or operating heavy machinery
As with any hypnotic, alcohol increases the sedative effects of these drugs. These hypnotics also interact with other drugs. Inform your doctor of all your medications.
Rebound Insomnia, Dependence, and Tolerance
The risk for rebound insomnia, dependence, and tolerance is lower with non-benzodiazepine hypnotics than with benzodiazepine drugs. These drugs are still subject to abuse. In any case, no hypnotic should be taken for more than 7 to 10 days in a row or at higher than the recommended dose without a doctor's approval.
Benzodiazepines used to be the most commonly prescribed sedative hypnotics. These drugs were originally developed in the 1960s to treat anxiety.
Commonly prescribed benzodiazepines are:
- Long-acting benzodiazepines include flurazepam (Dalmane, generic), clonazepam (Klonopin, generic), and quazepam (Doral).
- Medium- to short-acting benzodiazepines include triazolam (Halcion), lorazepam (Ativan), alprazolam (Xanax), temazepam (Restoril), oxazepam (Serax), and estazolam (ProSom), which are all available as generics. Short-acting benzodiazepines may be useful for air travelers who want to reduce the effects of jet lag.
Older people are more susceptible to side effects and should usually start at half the dose prescribed for younger people. They should not take long-acting forms.
Side effects may differ depending on whether the benzodiazepine is long- or short-acting. They include:
- Respiratory problems (especially reducing how often or how deeply one breathes), which may occur with overuse or in people with pre-existing respiratory illness.
- Worsening of depression, a common condition in many people with insomnia.
- Residual daytime drowsiness, which is common with benzodiazepines. Long-acting benzodiazepines pose a higher risk than shorter-acting benzodiazepines.
- Memory loss, sleepwalking, sleep driving, eating while asleep, and other odd mood states may occur. These effects are enhanced by alcohol.
- Urinary incontinence may occur, particularly in older people and when taking long-acting formulations.
- In pregnant and nursing women, birth defects are a risk because these drugs cross the placenta and enter breast milk. Pregnant women or nursing mothers should not use these medications. Benzodiazepine use in the first trimester of pregnancy may be associated with the development of cleft lip in newborns.
- Although rare, fatal overdoses can occur.
Benzodiazepines are potentially dangerous when combined with alcohol. Some medications, like ulcer and acid reflux medications in the histamine receptor-2 blocker class (such as cimetidine, Tagamet), can slow the metabolism of the benzodiazepine.
Withdrawal symptoms usually occur after prolonged use and indicate dependence. They can last 1 to 3 weeks after stopping the drug and may include:
- Gastrointestinal distress
- Disturbed heart rhythm
- Rebound insomnia (the risk is higher with short-acting benzodiazepines than with long-acting ones)
- In severe cases, hallucinations or seizures
Other Types of Sedative Hypnotics
Ramelteon (Rozerem, generic)
Ramelteon is a type of sedative hypnotic called a melatonin receptor agonist. Unlike non-benzodiazepines or benzodiazepines, which target GABA receptors, ramelteon works by targeting melatonin receptors. Ramelteon is not habit forming and is the first sleep drug that is not designated as a controlled substance. A related melatonin receptor agonist, tasimelteon (Hetlioz), is approved for treating circadian rhythm disorders in people who are blind.
Dual orexin receptor antagonists (DORAs)
Suvorexant (Belsomra) was the first FDA-approved dual orexin receptor antagonist (DORA) sleep drug. Suvorexant targets and blocks the action of orexin. Orexin (also called hypocretin) is a chemical produced in the hypothalamus part of the brain, which is involved in regulating the sleep-wake cycle and keeping people awake. In 2019, the FDA approved another orexin receptor antagonist called lemborexant (Dayvigo). Like suvorexant, lemborexant acts on both orexin receptors. DORAs are controlled substances, which means they can potentially be abused or cause dependence. Like other sleep medications, DORAs may cause sleep-related behaviors such as sleepdriving.
Antidepressants are often helpful in treating insomnia even when anxiety or major depression are not present. Certain types of antidepressants with sedating properties are prescribed for the treatment of primary insomnia, generally in lower doses than used to treat depression.
For example, the antidepressant trazodone (Desyrel, generic) is prescribed in low doses as a hypnotic to help induce sleep. A very low dose formulation of the tricyclic antidepressant doxepin (Silenor) is approved for treatment of insomnia. Other antidepressants used for insomnia include the tricyclics trimipramine (Surmontil, generic) and amitriptyline (Elavil, generic) and the tetracyclic antidepressant mirtazapine (Remeron, generic).
Precautions should be taken in the use of trazodone and other sedating antidepressants in older people, due to the risk for side effects (daytime sleepiness, dizziness, priapism, and increased risk of falls) and drug interactions.
Similarly to benzodiazepines, barbiturates are central nervous system depressants that stimulate GABA receptors and thus inhibit nerve cells. Barbiturates were commonly used for insomnia treatment in the past, as well as for epilepsy, anxiety, and anesthesia, but have now been almost entirely replaced by newer, safer drugs in most regions of the world. A few barbiturates that are FDA-approved for the short treatment of insomnia are still marketed in the United States, including secobarbital (Seconal) and butabarbital (Butisol). These drugs are controlled substances and are rarely used today.
- American Academy of Sleep Medicine -- aasm.org
- National Center for Sleep Disorders Research -- www.nhlbi.nih.gov/about/scienfic-divisions/national-center-sleep-disorders-research
- National Sleep Foundation -- www.thensf.org/
- American Alliance for Healthy Sleep -- sleepeducation.org
Buysse DJ, Rush AJ, Reynolds CF 3rd. Clinical management of insomnia disorder. JAMA. 2017;318(20):1973-1974. PMID: 29059360 pubmed.ncbi.nlm.nih.gov/29059360.
Chokroverty S, Avidan AY. Sleep and its disorders. In: Daroff RB, Jankovic J, Mazziotta JC, Pomeroy SL, eds. Bradley's Neurology in Clinical Practice. 7th ed. Philadelphia, PA: Elsevier; 2016:chap 102.
Geiger-Brown JM, Rogers VE, Liu W, Ludeman EM, Downton KD, Diaz-Abad M. Cognitive behavioral therapy in persons with comorbid insomnia: a meta-analysis. Sleep Med Rev. 2015;23:54-67. PMID: 25645130 pubmed.ncbi.nlm.nih.gov/25645130.
Hammerschlag AR, Stringer S, de Leeuw CA, et al. Genome-wide association analysis of insomnia complaints identifies risk genes and genetic overlap with psychiatric and metabolic traits. Nat Genet. 2017;49(11):1584-1592. PMID: 28604731 pubmed.ncbi.nlm.nih.gov/28604731.
Janto K, Prichard JR, Pusalavidyasagar S. An Update on Dual Orexin Receptor Antagonists and Their Potential Role in Insomnia Therapeutics. J Clin Sleep Med. 2018;14(8):1399-1408. PMID: 30092886 pubmed.ncbi.nlm.nih.gov/30092886.
Javaheri S, Redline S. Insomnia and risk of cardiovascular disease. Chest. 2017;152(2):435-444. PMID: 28153671 pubmed.ncbi.nlm.nih.gov/28153671.
Maness DL, Khan M. Nonpharmacologic management of chronic insomnia. Am Fam Physician. 2015;92(12):1058-1064. PMID: 26760592 pubmed.ncbi.nlm.nih.gov/26760592.
Patel D, Steinberg J, Patel P. Insomnia in the Elderly: A Review. J Clin Sleep Med. 2018;14(6):1017–1024. PMID: 29852897 pubmed.ncbi.nlm.nih.gov/29852897.
Qaseem A, Kansagara D, Forciea MA, Cooke M, Denberg TD; Clinical Guidelines Committee of the American College of Physicians. Management of chronic insomnia disorder in adults: a clinical practice guideline from the American College of Physicians. Ann Intern Med. 2016;165(2):125-133. PMID: 27136449 pubmed.ncbi.nlm.nih.gov/27136449.
Riemann D, Baglioni C, Bassetti C, et al. European guideline for the diagnosis and treatment of insomnia. J Sleep Res. 2017;26(6):675–700. PMID: 28875581 pubmed.ncbi.nlm.nih.gov/28875581.
Sateia MJ, Buysse DJ, Krystal AD, Neubauer DN, Heald JL. Clinical practice guideline for the pharmacologic treatment of chronic insomnia in adults: an American Academy of Sleep Medicine clinical practice guideline. J Clin Sleep Med. 2017;13(2):307-349. PMID: 27998379 pubmed.ncbi.nlm.nih.gov/27998379.
Schroeck JL, Ford J, Conway EL, et al. Review of safety and efficacy of sleep medicines in older adults. Clin Ther. 2016;38(11):2340-2372. PMID: 27751669 pubmed.ncbi.nlm.nih.gov/27751669.
Vaughn BV, Basner RC. Sleep disorders. In: Goldman L, Schafer AI, eds. Goldman-Cecil Medicine. 26th ed. Philadelphia, PA: Elsevier Saunders; 2020:chap 377.
Vedaa Ø, Krossbakken E, Grimsrud ID, et al. Prospective study of predictors and consequences of insomnia: personality, lifestyle, mental health, and work-related stressors. Sleep Med. 2016;20:51-58. PMID: 27318226 pubmed.ncbi.nlm.nih.gov/27318226.
Winkelman JW. CLINICAL PRACTICE. Insomnia disorder. N Engl J Med. 2015;373(15):1437-1444. PMID: 26444730 pubmed.ncbi.nlm.nih.gov/26444730.
Review Date: 3/27/2020
Reviewed By: Christos Ballas, MD, Private Practice specializing in Forensic Psychiatry, Philadelphia, PA. Review provided by VeriMed Healthcare Network. Also reviewed by David Zieve, MD, MHA, Medical Director, Brenda Conaway, Editorial Director, and the A.D.A.M. Editorial team.