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Help Me Sleep: Ways to Sleep Better Tonight

By Brandon Peters, MD

It seems like sleep should come naturally, but when it doesn't, you might quickly find yourself pleading, "Help me sleep!" It can be a frustrating, unnerving experience to have difficulty falling or staying asleep. When you awaken without feeling refreshed, this problem quickly becomes a drag on the rest of your life and health. What are reasons why you can't sleep? Are there tried and true ways to sleep better tonight? What should you do if you have tried everything and it just isn't working? Let's explore these issues and discover the help you need to sleep.

What Is Wrong with My Sleep?

We have an expectation of perfect sleep; that we will crawl into bed, fall asleep within minutes, sleep without interruption, and awaken fully refreshed and ready to start our day. But is this a reasonable standard?

Children are often hailed as a model of perfect sleep because (for the most part) they are able to do just what we've described. As we mature, our bodies change and our sleep seems to likewise deviate from the ideals of childhood. Life, in a sense, gets complicated. There are new time pressures, our sleep is disrupted by others (including bed partners and our own children), and other health problems (such as nocturia, heartburn, and even pain) compromise our sleep.

As a result, we may not enjoy the sleep we knew in your youth. Indeed, even the timing of our sleep may shift. Those who are in the twilight of their lives may more often find themselves waking early, unable to stay asleep as they once did.

Some of our expectations regarding our sleep may be slightly misguided. As an example, the thought that we will fall asleep almost immediately upon retiring to our beds may be improper. In fact, people who fall asleep in less than 5 minutes may be "pathologically sleepy". This means that they are so sleepy that they fall asleep quicker than might be normal. In some cases, this ability to fall asleep quickly -- and enter rapid eye movement (REM) sleep quickly -- can be seen in excessive daytime sleepiness that might occur in sleep deprivation or narcolepsy.

Some sleep researchers believe that it might be normal to be awake some during the night. The fact that you sleep straight through the night without budging may again be a sign of inadequate time spent sleeping. This phenomenon is called "quiet wakefulness" and is often observed when the sleep habits of other non-Western cultures are studied. When people sleep in a group in close quarters, there is more time spent awake during the night. This makes sleep a more fluid concept. Time may be spent chatting, eating a snack, or engaging others around you. In history, fragmented sleep with periods of wakefulness in the middle of the night were common, reflected in the midnight adventures seen in the plays of Shakespeare, for example.

When we find ourselves waking in the night, no matter the cause, we may conclude that something is wrong. If there are no consequences in daytime function, however, this may not be the case. (Waking to go to the bathroom is so common as we get older that you would be hard-pressed to call it "abnormal".) The problem begins when our poor sleep compromises our lives. If difficulty falling or staying asleep at night begins to have consequences, there is a motivation to seek the cause.

Common Causes of Difficulty Sleeping

When we find ourselves lying awake, watching the minutes tick past in the red light of our alarm clocks, the desperation to sleep quickly escalates. There are many reasons this could occur and getting to the bottom of it may require some reflection on your situation. 

The most common reason why you can't sleep is also the most obvious: you are not tired. Your desire to sleep will be greatly diminished if you are trying to sleep at the wrong time. Imagine lying down three hours before your normal bedtime. The chance of you being able to fall right to sleep is pretty slim. This has to do with the circadian rhythm of our bodies. This system helps to coordinate our activities, including our desire for food and sleep, to the external environment. Problems with the timing of sleep may occur in the circadian rhythm sleep disorders as well as in temporary conditions like jet lag. If you spend more time in bed than required by your sleep needs, you will also be subject to long periods of wakefulness. Another reason you might be diminishing your desire to sleep at night is because of naps you take during the day.

A very common cause of difficulty sleeping relates to stress and the intrusion of stimulating substances and activities. You may have trouble falling asleep the night before a big test or presentation. In periods of emotional stress, such as after the death of a loved one, you may also have trouble sleeping. This is called acute insomnia. It usually passes when these stressors resolve. Similarly, stimulants such as caffeine and even nicotine can disrupt your sleep. You may be surprised to learn that exposure to light at night -- such as from a television or computer screen -- may make it difficult for some people to fall asleep. Additionally, late-night exercise may rev you up and provoke insomnia. For those who have chronic insomnia, the bedroom space may become a trigger for insomnia through conditioning.

The sleep environment is meant to be comfortable and facilitate sleep.

It should be cool, quiet, and free of distractions. Ideally you would not allow a television or pets in your bedroom. Bed partners may be disruptive and some people choose to maintain separate sleep spaces for this reason.

Another common cause of difficulty falling asleep is the activities that precede your bedtime. If you eat or drink too late, you may suffer from heartburn or frequent nighttime trips to the bathroom. There are general guidelines to improve sleep and many of these are meant to reinforce positive sleep habits. You should go to bed and get up the same time every day. Irregular sleep schedules may set you up for sleep disruption. You should follow a bedtime routine, including quiet, relaxing activities to help transition to sleep. If you fail to unwind prior to bed, you may find yourself struggling to drift off to sleep.

Finally, there are medical conditions that may keep you from sleeping well at night. These may be common problems such as heartburn or pain, but there are also multiple sleep disorders that might cause difficulty sleeping. Some of these include:

  • Insomnia

  • Sleep apnea

  • Restless legs syndrome

  • Circadian rhythm sleep disorders

Whether you suffer from one of these conditions or not, you may be interested in learning about some of the treatment options if you find yourself struggling to sleep at night.

Home Remedies When You Can't Sleep

The first task to sleep better at night is to improve your sleep hygiene, which refers to following the guidelines for better sleep. These steps may initially seem straightforward but because they involve modifying your behaviors in relation to your sleep, this can be challenging. If you have mastered these changes, you may be compelled to look at other options.

For those who have difficulty with insomnia, there are a handful of options to help you sleep. One treatment option is sleep restriction. This involves limiting the amount of time that you spend in bed, so that the time you are there you are more likely to spend asleep. It can also be useful to make a behavioral change called stimulus control. Stimulus control helps to break the association between not being able to sleep and your bedroom.

There are other non-medication options that might be helpful. Some people find benefit with the use of aromatherapy. Various relaxation techniques, including the use of biofeedback, may also establish a connection between your mind and body. This can be incorporated into your bedtime rituals and make it easier to relax and transition into sleep.

Finally, you may find yourself turning to over-the-counter medications to help your sleep. One of the most common is the naturally occurring hormone called melatonin. It is sold in many pharmacies and herbal supplement stores. It can be highly effective if you have insomnia related to a poorly timed circadian rhythm. As it has a low risk of major side effects (the most frequent is sleepiness), it might be an option to consider. Other herbal supplements (such as valerian root) do not have a lot of research supporting their efficacy.

If you still struggle to sleep, you may be compelled to look at other options.

Serious Help for Difficulty Sleeping

For those who still need help sleeping after exhausting changes in your sleep routine and at-home remedies, it may be necessary to turn to a professional. You may want to start by discussing the matter with your primary health care provider, but you may also choose a sleep doctor.

There are diagnostic tests that can be helpful for assessing your sleep problems, with special tests for insomnia. It may be helpful to keep a sleep log or use an actigraph to track your sleep patterns. Further testing with a home sleep apnea test or an overnight sleep study called a polysomnogram can also be helpful to identify sleep apnea or leg movements related to restless legs syndrome.

The other benefit of speaking with a health care professional is that you can discuss the use of sleeping pills. In addition, you can ask for a referral to a psychologist who might be able to teach you cognitive behavioral therapy for insomnia (CBTI) techniques to help your sleep.

This is a very serious matter, as the consequences of poor sleep can undermine your health and may even lead to your death. There are serious symptoms and physical effects of sleep deprivation, including hallucinations. For all these reasons – and more – it is absolutely worthwhile to get the help that you need in order to sleep well and wake refreshed.

What Causes Early Morning Awakenings?

By Brandon Peters, MD

There is something disappointing about waking up earlier than is necessary. It may be nice to doze in and out of sleep in the early morning hours, but it is especially upsetting if you cannot fall back asleep. What might cause someone to wake up before the alarm clock goes off? There are specific conditions, including a fair number of sleep and mood disorders, which might cause early morning awakenings.  By understanding these potential causes, you may be able to find a treatment that will keep you asleep until your desired wake time.

The Role of Insomnia

The most important cause of difficulty staying asleep near morning is insomnia. Insomnia is defined as difficulty falling or staying asleep or sleep that is simply not refreshing. These awakenings may occur throughout the night, but they tend to be more frequent in the second half of the night. This is due to a diminishing ability to sleep toward the morning hours.

The ability to sleep is linked to two processes, one called the homeostatic sleep drive and the other being the circadian rhythm (which will be discussed more later). The homeostatic sleep drive is the gradual desire for sleep that builds the longer a person stays awake. It relates to the gradual accumulation of a chemical within the brain called adenosine. This “sleepiness signal” eventually helps to initiate sleep. During sleep, it is cleared away, so that midway through the night, the desire for sleep is depleted. By morning, it should be completely gone.

If a person awakes in the night, especially if this awakening occurs toward morning, the ability to return to sleep will be compromised due to the lower levels of adenosine. Sleep may be greatly delayed, fragmented, or disrupted in insomnia, but awakenings near morning can be especially troublesome.

Anxiety and Depression May Provoke Awakenings

Any of the mood disorders, most notably anxiety and depression, can provoke awakenings. These typically occur in the several hours before the intended awakening. For example, if the alarm is set for 6 AM, someone with depression may start waking at 4 AM for no good reason. How can this be addressed?

As with insomnia, it is important to address the underlying contributing factors that lead to these awakenings. In the setting of psychiatric distress, these problems can persist. It is therefore necessary to treat any coexisting depression or anxiety. This may require the use of medications or counseling with the assistance of a psychologist or psychiatrist. Studies have shown that both, used in combination, are the most effective. Insomnia is especially well-treated with cognitive behavioral therapy for insomnia (CBTi).

It is clear that sleep can undermine mood. Conversely, mood problems can greatly affect sleep. By working on both issues together, the complexity of this relationship can be unraveled.

The Unexpected Influence of Sleep Apnea

It may seem peculiar to imagine that a breathing disorder such as obstructive sleep apnea may contribute to early morning awakenings. To better understand this relationship, it is necessary to carefully consider the structure of sleep.

It is artificial (but useful) to divide the night in half when considering the stages of sleep. In the first half of the night, slow-wave sleep more frequently occurs, especially among young people. In the second half, rapid eye movement (REM) sleep makes a more frequent appearance. Though the cycles of sleep occur regularly through the night, REM sleep becomes more prolonged towards morning. Therefore, we are more likely to awaken from it near morning and recall the vivid dreams that are associated with the state.

Sleep apnea is also more likely to occur during REM sleep. The muscles of the body are actively paralyzed during this stage, so that we are unable to act our dreams out. (If this does not occur, a condition called REM behavior disorder may result.) Muscles lining the upper airway are also paralyzed. This makes the airway more collapsible and when collapse occurs, it manifests as disrupted breathing and sleep apnea. Sleep apnea is often worsened during REM for this reason.

Therefore, morning awakenings may occur in the setting of sleep apnea that is worsened during the periods of REM that become more frequent and prolonged towards morning.

Morning Larks, Circadian Rhythms, and How Sleep Changes in Aging

The last major contributor to early morning awakenings is the class of conditions that are collectively known as circadian rhythm disorders. These include the natural tendency to wake early in the morning (so-called early birds or morning larks), advanced sleep phase syndrome, and natural changes that occur in sleep ability as we get older.

There are some who are just naturally morning people. They may prefer to fall asleep earlier (such as at 9 PM) and wake earlier (by 5 or 6 AM). This may be a lifelong preference. It isn’t necessarily abnormal, but it may lead to morning awakenings. If a sufficient amount of sleep is obtained before getting up for the day, then there is no reason to give it a second thought.

As we get older, our ability to maintain a continuous, uninterrupted period of sleep diminishes. The “machinery” of sleep (whatever we might conceive this to be) isn’t working as well as it used to. Sleep may become more fragmented. There may be more time spent awake in the transition to falling asleep and during the night. Slow-wave sleep diminishes. The total sleep time may be reduced. As part of this, early morning awakenings may occur.

In some cases, a condition called advanced sleep phase syndrome may become apparent. In this circadian rhythm disorder, the onset and offset of sleep moves forward by several hours. If it is disruptive to social life, it may be treated with the use of properly timed melatonin and light exposure at night.

If you suffer from morning awakenings, you should reflect on your situation and consider what might be contributing to the occurrence. If there is evidence for mood disorders, these should be addressed by a doctor. When a clear explanation cannot be identified, it may be useful to speak with a sleep specialist who may be able to provide additional insight. 

What Factors Lead to Insomnia?

By Brandon Peters, MD

It’s 1 a.m. again. You can’t sleep. You have been lying awake for hours. Just when sleep seems within your grasp, you are cruelly pulled back to wakefulness. How are you going to function tomorrow? Why can’t you get to sleep? If you find yourself struggling to fall and stay asleep, learn how you can master the factors that lead to your insomnia and get the rest that you need.

Sleep Depends on Drive and Circadian Rhythms

There are certain factors working in your favor that should help you get to sleep at night. When these are corrupted, however, they may quickly start working against you and lead to insomnia. To better understand how this may occur, it is important to first consider the patterns that lead to sleep and why some people can’t sleep at night.

Sleep depends on two independent processes: sleep drive and circadian rhythm. Sleep drive is the desire for sleep that builds gradually during wakefulness. Put simply, the longer you are awake, the more you want to sleep. This is thought to be due to the gradual accumulation of a chemical within the brain called adenosine, one of the neurotransmitters. Sleep is a time to clear adenosine away, and when you are awake it piles up and leads to increased sleepiness. A poorly timed nap during the day will diffuse the chemical and diminish your ability to sleep at night.

The other factor that determines when (and whether) you can sleep is something called the circadian rhythm. Our bodies respond to the natural daily patterns of light and darkness, linking certain biological processes to these rhythms. One of these processes is sleep.

There are certain factors that affect these circadian rhythms. Melatonin is a hormone that has a key role in regulating sleep patterns. Exposure to light exerts the most powerful influence, however. Taken together, the circadian rhythm encourages the specific timing of sleep and wakefulness. Sleep that is attempted counter to our natural desires is often ineffectual. Moreover, a prolonged shift in the timing of sleep may represent a circadian rhythm sleep disorder.

What Factors Cause Insomnia?

Insomnia is defined as difficulty falling asleep, staying asleep, or sleep that is simply not refreshing. How this happens is best understood by considering a theoretical model of what causes someone to have insomnia. According to Dr. Arthur Spielman’s model, there seem to be three considerations, summarized as predisposing, provocative, and precipitating factors.

First, it seems that some people have a predisposition towards insomnia. The threshold for developing insomnia will vary for each person. Believe it or not, there are people who rarely or never develop trouble sleeping at night. On the other hand, some people may be unlucky and are simply predisposed to have insomnia. This likely relates to genetic factors (insomnia often runs in families), age, sex (more often women), substance use, and other medical and psychiatric conditions.

Insomnia may also be attributed to an increased alerting signal. This relates to the sympathetic nervous system, which is responsible for the so-called “fight or flight” response. Some people may have an increased sympathetic drive, meaning they are primed to respond to an external threat. This signal can keep you awake during the day – but it also keeps insomniacs up at night. Some have described this as being “tired but wired”.

Even though you might have a predisposition towards insomnia, it has to be triggered. These triggers are called provocative factors. Insomnia might occur transiently and be secondary to stress, a cup of coffee, or an uncomfortable sleep environment. About 25 percent of people cannot identify the trigger for their insomnia. If you hadn’t encountered the trigger, however, you might continue to sleep without difficulty. Instead, you find yourself in the throes of acute insomnia. In time, this may resolve. But sometimes it doesn’t.

The final components that transform a passing difficulty sleeping into chronic insomnia are the precipitating factors. These are the elements that perpetuate the difficulty sleeping. These can best be understood by considering an example.

Let’s imagine that you lie awake several hours in the middle of the night, a common occurrence in insomnia. You recognize that you need 8 hours of sleep and by lying awake you are cutting into this time. You decide to start going to bed 2 hours earlier to compensate. This helps some, but now that you are going to bed extra early it is taking you more time to fall asleep. As you lie awake more of the night, your frustration increases and you compound your initial insomnia.

There are a variety of choices that might perpetuate your insomnia. Some people choose to limit their daytime activities because of sleepiness. This avoidance may reduce your physical activity. Since you are less tired, you may be less able to sleep. You may start working on your computer in bed to make the most of your time spent awake. This light and activity may worsen your ability to sleep. In addition, you may start napping during the day to get some sleep, and this could undermine your sleep drive and ability to sleep at night. All told, perpetuating factors are going to prolong your battle with insomnia.

How to Get to Sleep

Now that you understand the factors that might lead you to have difficulty sleeping at night, you no doubt wonder how you are going to get to sleep. In general, you can follow these simple rules:

1.    Build up your sleep drive through sleep restriction.

Work to make yourself tired by limiting your time in bed with sleep restriction. Avoid naps that may diminish your ability to sleep at night. Do not sleep in divided periods. If you find you cannot sleep, do not allow yourself prolonged wakefulness in bed, but observe stimulus control. These interventions can increase the quality of your sleep.

2. Respect your circadian rhythm, and sleep at the right time for you.

Acknowledge your body’s desired timing of sleep. If you are a night owl, don’t go to bed too early and lie awake. If you wake early, allow yourself adequate sleep time by going to bed early as well. There are ways to adjust the timing of your sleep, but start by sleeping when your body desires.

3.    Avoid triggers that can precipitate insomnia.

If you can identify the causes of your insomnia, do your best to avoid these triggers. Start by eliminating caffeine, especially after noon. Consider other ways that you may be ruining your sleep. Don’t forget about treating other sleep disorders, as these can also trigger difficulty falling or staying asleep.

4.    For those with chronic insomnia, seek professional help.

Finally, if you are suffering from chronic insomnia, lasting more than 3 months, you may need to seek professional help. When insomnia becomes prolonged, it is necessary to pursue other interventions. Sleeping pills may help in the short term, but other treatments are preferred for chronic insomnia. It can be very helpful to address the beliefs, thoughts, and feelings that surround your insomnia with a treatment called cognitive behavioral therapy.

If you suffer from insomnia, start by considering the factors that underlie your difficulty. Then talk with your doctor and if appropriate ask for a referral to a sleep specialist.

Sources:

Kryger, MH et al. "Principles and Practice of Sleep Medicine." ExpertConsult, 5th edition, 2011.

Spielman AJ, Caruso LS, Glovinsky PB. A behavioral perspective on insomnia treatment. Psychiatr Clin North Am. 1987;10(4):541-553.

Are Light Therapy Glasses Right for Me?

By Brandon Peters, MD

They look a little futuristic, casting a blue light over the eyes and onto the face. In some ways, they are. Light therapy delivered via glasses also relies on science that is as old as time. The use of light therapy glasses may be helpful to manage circadian mood and sleep disorders like seasonal affective disorder (SAD), insomnia, and jet lag. They may offer a boost of energy on a winter morning. How do light glasses work and are they right for you? Learn about phototherapy, circadian rhythms, and the usefulness of artificial light delivered via glasses for several conditions.

What is Light Therapy?

Light therapy, or phototherapy, is the use of light to treat a medical condition. It may be helpful to treat problems that occur when the internal circadian rhythm is misaligned to the natural patterns of light and darkness. This may impact the ability to sleep, the release of hormones including melatonin, and even mood and energy levels.

Light therapy may be done by properly timed exposure to sunlight. Unfortunately, living at northern latitudes may make this more difficult in the winter months. In some cases, an artificial source of light may be needed.

There are certain medical conditions that respond extremely well to this treatment, but how is it delivered?

Light Boxes Versus Light Glasses

Historically, light boxes were used to artificially deliver phototherapy. Initially quite large, the technology has become more portable. In fact, there are now several brands of light glasses that are capable of performing the task:

Ayo

The smallest glasses are available for $299 from Ayo. With a well-integrated app, it is possible to personalize the program by providing information on sleep habits and lifestyle. The light intensity, timing, and duration varies based on the mode and purpose. Boost energy, optimize the sleep-wake cycle, or even beat jet lag and adjust to the new time zone faster. There is some built-in flexibility in the timing of their use. The glasses are comfortable, with a sleek visor-like design that is unobtrusive. It is easy to charge the glasses by placing them in a pill-shaped pod that connects to a computer with a USB cable.

Luminette

For a lower price point, consider the light therapy glasses offered by Luminette. For $199 to buy, or $39 for a trial, similar technology is used to deliver the light therapy directly into the eyes. Unlike a light box, which may require 10,000 lux to be effective, the blue light directed into the eye accomplishes the same treatment with a lesser intensity. There are 3 intensity levels offered: 500, 1000, and 1500. The glasses themselves are larger, broadly situated above the eyes. It is recommended that they be used for 30 minutes daily for best effect.

Re-Timer

Similarly priced, at $199, Re-Timer delivers blue-green light into the eyes for the purposes of phototherapy. Designed to frame the eyes, these glasses were developed at a university based on 25 years of research. It is recommended that the glasses be used for 60 minutes daily, the longest recommended usage of the three models.

Conditions That Respond to Light

The circadian rhythms of the body are mostly affected by exposure to blue light. This part of the light spectrum is present in full-spectrum sunlight. It can also be isolated and delivered at a lower intensity with equivalent effectiveness. What conditions respond best to light therapy delivered via light glasses?

Seasonal affective disorder

Also known as winter depression, it occurs seasonally when the lack of light availability leads to a deterioration of mood. It may be associated with increased sleeping, lack of initiative and social isolation, and changes in appetite and weight gain.

Insomnia

Difficulty falling asleep may be especially responsive to the use of phototherapy. Artificial light exposure in the evening may be a problem, but using light glasses in the morning upon awakening may help to realign the circadian rhythm.

Delayed sleep phase syndrome

Night owls experience this condition that leads to both difficulty falling asleep at a conventional time as well as difficulty waking in the morning at an earlier time. Bedtimes may be at 2 a.m. or later and waking may naturally occur mid-morning or even mid-day. Though it does not necessarily have to be associated with insomnia, it often does when social pressures require sleep-wake timing that is not consistent with this genetic tendency.

Morning sleepiness

Difficulty getting out of bed in the morning due to sleepiness may be relieved with phototherapy. Light naturally wakes us. It initiates the circadian alerting signal. Consistent use in the morning may help to align sleep’s place to the darkness of the night.

Jet lag

In the modern age, jet travel allows a rapid misalignment of the body’s circadian rhythms to the patterns of light and darkness in the environment. It may take one day to adjust to each time zone crossed, but light therapy may make this adjustment occur more quickly. 

Cautions and Side Effects

Phototherapy is generally well tolerated. If it is bothersome, it should be discontinued. Any perceived side effects should resolve once the light glasses are no longer being used. In some cases, the following side effects may occur:

Headaches

Artificial light therapy may trigger headaches or migraines in those predisposed. In this case, a lower light intensity for a more prolonged period may be useful.

Insomnia

Light at the wrong time may lead to difficult sleeping. For example, using light glasses at bedtime may cause a shift in the timing of sleep later. This will make it hard to fall asleep, and hard to wake. Avoid this by following the instructions associated with the light glasses program.

Photophobia

Sensitivity to light may occur. This may lead to pain or simply an aversion to exposure characterized by squinting. It will go away when the light stimulus is removed.

Fatigue

Rarely, fatigue may occur with phototherapy. This may have to do with the changes that occur in the sleep-wake schedule. Following the directions of the program should help to minimize this risk.

Hypomania

For those who have a history of bipolar disorder, light therapy needs to be used with caution. There is a risk that the light may lead to a state of hypomania. This may be associated with an elevated mood, increased productivity, hypersexuality, or other symptoms.

Irritability

Although mood would typically improve with light therapy, in some cases it may lead to irritability. Like the other side effects, it should resolve by stopping the use of the light therapy glasses.

Importantly, there is no ultraviolet (UV) light exposure with the use of light therapy glasses. Therefore, the risks associated with this—such as damage to the eye or cancer—would not be present.

Conclusion

If you are interested in learning more about your sleep, consider evaluation by a board-certified sleep physician. In some cases, consultation with this specialist may optimize your response to the light therapy glasses. Should you experience any problems with their use, seek further assistance by an expert.

Sources:

Peters, BR. “Irregular Bedtimes and Awakenings.” Evaluation of Sleep Complaints. Sleep Med Clinic. 9(2014)481-489.

Reid, KJ and Zee, PC. “Circadian disorders of the sleep-wake cycle,” in Principles and Practices of Sleep Medicine. Edited by Kryger MH, Roth T, Dement WC. St. Louis, Missouri, Elsevier Saunders, 2011, pp. 470-482.

What Causes Sunday Night Insomnia and What Can Help?

By Brandon Peters, MD

It’s been a great weekend and now it’s time to settle into bed to get a good night of sleep before the busy week ahead. After waiting for a few minutes, you start to get a little anxious: you aren’t falling asleep. You start to worry about your function the next day. Then you realize that trouble falling asleep seems to occur every Sunday night. What causes Sunday night insomnia? Learn about some of the contributing factors, including sleeping in, taking naps, caffeine or alcohol use, and anxiety about the week ahead. By identifying and resolving some of the causes, you can finally get to sleep on Sunday nights easily without feeling dread for Monday morning.

Anticipating the Week of Ahead May Provoke Anxiety

What makes Sunday night so special? Of all the nights of the week, it seems to be mostly commonly associated with difficulty falling asleep that characterizes insomnia. Insomnia is defined as trouble falling or staying asleep. When it takes more than 20 to 30 minutes to drift off, this may be a sign of a problem.

There are lots of potential causes of insomnia. When it occurs, anxiety may make it worse. Pressure to fall asleep, or even the slightest focus on it, makes it nearly impossible to doze off. Sunday night may be the time that you start to think about the week ahead. If you hate your job, or if it is stressful, you may approach the week with dread. You might think about the coworkers who drive you crazy. You might ruminate on the projects that seem overwhelming. You might ponder the biggest stressors that you face in the week ahead. None of these thoughts will be conducive to falling asleep.

It may be helpful to use scheduled worry time or relaxation techniques to relieve this stress. You may be able to distract yourself from these thoughts, and fall asleep more easily. If you have persistent anxiety, you may need further help with the use of medication or psychotherapy from a counselor.

Weekend Sleep Patterns May Worsen Sleep Initiation

There is also good evidence that changes in the sleep patterns of the weekend may make it harder to fall asleep on Sunday night. It is very common to be sleep deprived during the week. You may get to bed too late or you may have to wake early. Getting the children ready for school, or making the commute to work, may prompt an earlier wake time. You may get to bed to late due to projects that delay your bedtime. As a result, you may note meet your individual sleep needs during the week. Each night, you may short yourself a little. Night after night, your desire for sleep grows stronger. When Saturday morning rolls around, you may sleep in. You “catch up” on lost sleep and pay off the accumulated sleep debt. If you don’t get up early Sunday morning, the same indulgence may recur. How does this impact sleep?

Our sleep is enhanced through two processes: homeostatic sleep drive and circadian rhythm. The sleep drive is the desire for sleep that builds the longer we stay awake. If you were to stay awake for 30 hours, at the end of 30 hours you would be very sleepy, and fall asleep very quickly. You would probably sleep longer and deeper than you normally would. All wakefulness builds this desire for sleep. Conversely, if you sleep, you diminish the sleep drive. By sleeping in, there is a delay in starting to build the desire for sleep. It is almost like going to bed early. If you sleep in 2 or 3 hours on the weekend, it’s like going to bed that much earlier. If your bedtime is normally at 11 PM, but you crawl into bed at 8 PM, is it any wonder that you can’t fall asleep?

Another contribution to poor sleep on Sunday night is our circadian rhythm. We have a natural tendency toward sleep that is synchronized to the day-night patterns of light and darkness. This is reinforced by our genetics as well as morning light exposure. By delaying the wake time, and getting light to our suprachiasmatic nucleus in the brain a little later, the pattern shifts. It makes it harder for us to wake up and harder for us to fall asleep.

Our bodies respond best to regular patterns, and this includes the pattern of sleep and wakefulness. Keep a regular wake time (with an alarm, if needed), even on the weekends. Go to bed when you feel sleepy, but try to get 7 to 8 hours of sleep through the week to meet your sleep needs. Try to avoid catching up on sleep on the weekend; get enough sleep every night to feel rested.

Afternoon Naps May Diminish Your Ability to Fall Asleep

Weekends are when we can most easily indulge in a nap. Though these don’t usually occur in the morning, they may frequently interrupt the afternoon. Imagine how often you have seen someone dozing on a lazy Sunday afternoon! Sports, movies, and reading seem perfectly paired for dozing on the weekends. Unfortunately, naps can diminish the drive for sleep.

Try to avoid taking prolonged naps, especially if you have difficulty falling asleep at night. Naps lasting 2 hours or more are especially problematic. (These naps may also be sign of a sleep disorder, such as sleep apnea.) As much as possible limit naps to shorter periods, perhaps 15 to 20 minutes. These can be refreshing, without impacting sleep at night. In addition, try to time the naps to mid-afternoon and avoid sleeping in the late afternoon or evening. Falling asleep in the hours before bedtime will make it especially difficult to get to sleep.

If your insomnia is especially entrenched, cut out the naps completely until your sleep improves.

Selecting a Bedtime and Going to Bed Sleepy

As noted above, try to keep a regular sleep schedule, including week nights and weekend nights. By going to bed at the same time every night, you will fall asleep more easily. It is also important to listen to your body and go to bed when you are feeling sleepy.

Sleepiness or drowsiness is different that fatigue, tiredness, or exhaustion. One can feel exhausted, and not fall asleep. Sleepiness is the strong desire for sleep that immediately precedes its onset. It may be associated with heavy eyelids, a warm sensation in the body, and loss of focus in vision.

Go to bed when you feel sleepy, including on the weekends. Don’t choose an optimistic bedtime based on when you would like to fall asleep. If you need to adjust your schedule, it is actually easier to change your wake time with an alarm. Subsequently adjust your bedtime earlier to correspond with when you are feeling sleepy. Insomnia is more likely to occur if you crawl into bed too early to get enough sleep to start your week.

If you are not falling asleep, observe stimulus control. Get up after 15 minutes, do something else relaxing, and come back to bed when you are feeling more sleepy.

Decreased Physical Activity and Consumption of Alcohol and Caffeine

There are other things that can impact your ability to fall asleep. These include changes in physical activity and the varying consumption of alcohol and caffeine.

Some people have very physical jobs. The weekends might be their opportunity to recover and rest. Decreased physical activity, including exercise, on the weekend may make it heard to fall asleep. As much as possible, try to maintain similar levels of exercise on the weekend (or even increase them, if possible).

Alcohol may enhance adenosine levels and increase the desire for sleep. Unfortunately, it is metabolized very quickly. The levels drop, and the desire for sleep disappears. Avoid alcohol intake in the hours before bedtime. Importantly, do not use alcohol as a nightcap.

Caffeine consumption can also impair our ability to sleep. Some people are very sensitive, and caffeine found in coffee, tea, soda pop, energy drinks, or chocolate should be avoided after noon. In others, reducing intake after mid-afternoon may be sufficient. If you have insomnia, try eliminating late consumption of caffeine to learn if it is impacting you.

Final Considerations for Sunday Night Insomnia

When difficulty falling asleep persists, consider other potential causes of Sunday night insomnia. Are you reluctant to go to bed because it means ending the weekend? Are you avoiding the stress of the work week? Is it time to make serious changes in your life to relieve stress?

If your insomnia persists, consider speaking with a sleep specialist about treatment options that may be helpful, including cognitive behavioral therapy for insomnia (CBTI). In rare cases, the use a sleeping pill on Sunday nights may be helpful.

You can sleep normally, even on Sunday nights.

Are You a Night Owl? Delayed Sleep Phase Syndrome Overview

By Brandon Peters, MD

Night owls rule the evening roost. What explains the natural desire to stay up late and sleep in, especially in teenagers? With this overview, discover the causes, symptoms, diagnostic testing, and treatments of delayed sleep phase syndrome. Consider the consequences, including insomnia and sleep deprivation, and what can be done to keep the condition in check.

What Is a Night Owl?

First, how is a night owl defined? Anyone who stays up later than most may be viewed as a potential suspect. However, those with delayed sleep phase syndrome may be birds of a different feather.

If the natural tendency to fall asleep is delayed by at least several hours compared to the average person, with a sleep onset closer to 1 to 3 a.m., this fits the bill. In some cases, the delay may be even more extreme, with a night owl going to sleep closer to sunrise.

The desire to wake up is similarly delayed by at least several hours. Someone who is characterized as a night owl may not desire to wake until 10 a.m. or later. With a sleep onset closer to sunrise, the affected person may not desire to wake until into the early afternoon.

How Common Is Delayed Sleep Phase Syndrome?

It is estimated that 10 percent of the population could be characterized as night owls with delayed sleep phase syndrome. It may be more common among teenagers, who are susceptible to a slight delay in their sleep timing, but it can persist throughout life. There are many retired people who experience the condition once the alarm clock is silenced!

What Causes a Delayed Sleep Phase?

There seems to be a genetic predisposition towards developing delayed sleep phase syndrome. Some of this science is understood. For example, a mutation in the CRY1 gene alters the human circadian clock, delaying sleep by 2 to 2 1/2 hours compared to non-carriers. There will likely be more genes identified that have a role. 

Approximately 40 percent of people with delayed sleep phase syndrome report a family history of the condition.

Beyond genetic programming, there are environmental factors that may unmask the condition. Most importantly, light has powerful effects on the timing of the circadian system. It may provoke the delay in sleep timing, and may also be used to correct the condition.

Understanding the Circadian System and Sleep

Sleep is dependent on two processes: sleep drive and the circadian alerting system. If isolated in a constant environment, like a cave, the genetically determined circadian timing will become evident. It is controlled by the suprachiasmatic nucleus, a region of cells in the hypothalamus of the brain, and highly influenced by light exposure. Every cell, and organ, in the body follows a circadian pattern.

For most people, this internal clock is programmed to run a little long, perhaps resetting every 24 1/2 hours. In the cave, without exposure to light variance, an isolated person would naturally fall asleep and wake 30 minutes later, shifting later each and every day. In a week, the timing of sleep would move 3 1/2 hours. In a month, it would shift 14 hours, so that the person would want to sleep during the natural day and be awake in the natural night. This natural drift in the circadian timing is reset with morning sunlight.

Exposure to natural light in the early morning hours is a signal to the brain for wakefulness. It makes it easier to wake. It also slightly shifts the timing of sleep earlier, making it easier to fall asleep. This helps to align the desire for sleep to the natural period of darkness overnight. Without it, significant problems can develop with sleep and health.

What Are the Symptoms of Delayed Sleep Phase Syndrome?

People with delayed sleep phase syndrome will generally experience two symptoms: insomnia and sleepiness. Why would these seemingly contradictory symptoms occur in the same person? Again, it comes back to a question of when—it comes back to timing. 

Insomnia

Most night owls will experience significant insomnia if they attempt to go to bed earlier than their natural desire for sleep onset. Crawling into bed at 10 p.m. may result in hours of lying awake, tossing and turning. This can provoke anxiety, frustration, and anger—feelings that make the insomnia worse. When left to stay up late on weekends or during vacation breaks, it suddenly becomes much easier to fall asleep.

Morning sleepiness

In the early morning hours, it can be difficult to wake a night owl. It’s like trying to wake the dead. Teenagers have to be dragged out of bed, splashed with water, or roused with threats from despondent parents. This morning sleepiness can be profound. Depending on the hour, it is akin to waking someone with normal sleep timing in the middle of the night. It is extremely difficult to wake and function. By midday, however, the sleepiness abates. When the late evening rolls around, the night owl feels very awake, repeating the cycle again.

Social Pressure Leads to Sleep Deprivation

Unfortunately, night owls are not typically allowed to sleep and wake when their bodies tell them to. If they could always go to bed at 2 a.m. and wake at 10 a.m., there would be no sleep problem. They would fall asleep easily, without insomnia, and wake easily without conflict. Unfortunately, pressure from the rest of society—parents, spouses, bosses, school systems—may be quite disruptive. Without accommodation, chronic tardiness and absenteeism can lead to educational and professional dysfunction.

If someone does not naturally fall asleep until 2 a.m., but has to wake at 6 a.m. to be to work on time, sleep deprivation inevitably results. Unfortunately, 4 hours of sleep is not enough to meet even basic sleep needs. This can have profound effects on health and well-being. Consider some of the symptoms associated with sleep deprivation:

  • Sleepiness

  • Fatigue

  • Difficulty concentrating

  • Memory problems

  • Mood changes (depression, anxiety, or irritability)

  • Errors or accidents

  • Physical pain

  • Hallucinations

  • Paranoia

There is some evidence this can be fatal. This is likely due to the chronic effects of sleep deprivation. One study suggests that people with delayed sleep phase syndrome have a 10 percent higher risk of dying compared to controls.

How Is Delayed Sleep Phase Diagnosed?

With proper education, it becomes fairly easy to recognize night owls who are likely experiencing delayed sleep phase syndrome. It may be a lifelong affliction, starting in adolescence and persisting for decades. How can it be diagnosed?

Fortunately, testing is not required to reach a diagnosis. A careful history by a board-certified sleep physician can typically identify the condition. In some cases, sleep logs kept over weeks may aid the recognition. Rarely is testing with actigraphy needed.

In research settings, the measurement of melatonin levels can help to identify the circadian timing. In particular, the dim light melatonin onset (DLMO) measured via blood or saliva can establish the pattern. Unfortunately, the repeated sampling requires a carefully controlled laboratory environment. This is virtually never done in a clinical practice. More recently, a blood test called TimeSignature has been developed, but it is not widely available.

Treatments of Delayed Sleep Phase Syndrome: Light, Melatonin, and More

If a condition is genetically determined, and potentially lifelong, it may seem like a life sentence. Fortunately, for delayed sleep phase syndrome, this is not the case! There are some effective ways to keep the timing of sleep in a normal phase. It may require a little extra effort, but consider these potential helpful interventions:

Sleep schedule consistency

There is good evidence that night owls can maintain a socially acceptable sleep timing. This requires consistency, especially in regard to the wake time. Get up at the same time every day, including weekends. Do not sleep in. Go to bed feeling sleepy, even if this initially requires a delay in the preferred bedtime. This will make it easier to fall asleep faster, relieve pressure to sleep, and reinforce the sleep quality.

Morning sunlight

It is especially important to reset the timing of sleep with morning sunlight. This is most effective immediately upon awakening. Try to go outside for 15 to 30 minutes upon awakening. Wake with an alarm, throw on clothes, and immediately get outside. Take a walk. Read the newspaper in the garden. Check social media while facing the sunrise. Light should hit the eyes, but don’t stare directly into the sun. Even a cloudy or rainy day, try to stick to the routine. In winter months, a light box may be necessary for phototherapy. The effects may take up to 1 month to become evident.

Avoid light at night

Artificial screen light should be minimized at night, especially in the hours preceding bedtime. It may shift the timing of sleep to occur later, causing insomnia and morning sleepiness. Devices may be switched to night mode, cutting out the blue light that can shift sleep timing. Blue blocker sunglasses (with an amber tint) or screen covers may be employed. Best yet, simply shut down the electronics in the 2 hours before bedtime. The buffer zone before the goal bedtime should be spent relaxing.

Melatonin

Melatonin is a hormone produced overnight by the pineal gland in the brain. It can be an external signal to the circadian system, most effective among the blind. If taken up to 6 hours before the desired bedtime, it may help night owls to fall asleep earlier. The effects may be somewhat weak, and certainly overpowered by the effects of light.

Cognitive behavioral therapy for insomnia (CBTI)

This effective treatment helps to improve the patterns of sleep and one’s relationship to it. Sleep consolidation, stimulus control, mindfulness, and relaxation techniques may be integrated into a program. It may be guided with help from a psychologist, class, online course, or book.\

Chronotherapy

Rarely, it may be necessary to adjust the timing of sleep incrementally in a structured environment. It is difficult to carry out at home and may require hospitalization. Over successive days, the sleep period may be delayed by 1 to 2 hours until the desired timing of sleep is achieved. Poorly timed light may complicate the efforts, and strict adherence to the final schedule must be observed.

Prescription medications

Sleeping pills and stimulant medication to enhance alertness have a limited role in this condition. Generally, they will be weakly effective. As a result, they may be overused and even abused. The risk of overdose in night owls, especially when these medications are used in combination with alcohol, is high. Instead of masking symptoms with a drug, the underlying timing of the circadian rhythm should be corrected.

Social awareness

Education may help parents to appreciate what their teenager is experiencing, to know that it is not laziness or defiance. High schools should continue to accommodate this natural timing among their students by shifting the school day. Later school start times enhance academic performance, reduce tardiness and truancy, and even diminish car accidents among teens. 

Conclusion

Sleep deprivation can have serious impacts on health and well-being. If you are struggling with delayed sleep phase syndrome, consider seeking the guidance of a board-certified sleep physician. Start with some simple advice: Go to bed feeling sleepy (even if later), keep a consistent wake time, and get sunlight upon awakening. If more help is needed, seek it out.

How the Best Sunrise Alarm Clocks Make Waking Easier

By Brandon Peters, MD

It is pretty normal to use an alarm clock to wake up. What is not as common, however, is for the clock to mimic a sunrise and wake you with a gradually increasing amount of light. How do the best sunrise alarm clocks make waking easier? Learn how a dawn simulation light works, why it might be preferable to an audible alarm, who benefits most from its use, and what alternatives exist that may help to enforce a circadian pattern, easing insomnia and making it easier to wake and get up.

What Is a Sunrise Alarm Clock?

A sunrise alarm clock, or dawn simulation light, is an artificial light source that is integrated into a standard digital clock. It is timed to gradually wake a person at a selected time. It does this by mimicking the steadily increasing light of sunrise, often over 30 to 40 minutes, but some models may allow the timer to be adjusted from 15 to 60 minutes.

These simulators may have a full-spectrum white or yellow LED lightbulb. The color spectrum, or color temperature (think of this as the “warmth”), of this light may vary slightly from one model to the next. Most are of modest intensity, often 100 to 300 lux, with less light than a standard light box.

There are a variety of models, most costing less than $25 to $100, including:

  • Philips Wake-Up Light HF3520

  • Philips HF3505

  • Philips Somneo HF3650

  • hOmeLabs Sunrise Alarm Clock

  • Mosche Sunrise Alarm Clock

  • INLIFE Wake Up Light Alarm Clock

  • NATPLUS Sunrise Alarm Clock

  • iHome Zenergy Bedside Sleep Therapy Machine

  • totobay

  • Sharp Sunrise Simulator

  • Lumie

The add-on features also vary widely from one product to the next. Many have the ability to adjust the light intensity, snooze features, and associated standard alarm sounds or music. There may be USB ports integrated for charging devices. Beyond encouraging a gradual awakening, some can even dim light gradually (a so-called sunset feature), making it feel more natural to fall asleep.

How Do Dawn Simulation Lights Work?

Dawn simulation lights can make it easier to wake, but how do these devices work? It is important to consider the natural patterns of light and darkness and how the circadian rhythm enforces optimal sleep and wakefulness.

Humans, like most animals, have evolved to sleep overnight during darkness. Light, conversely, has a waking effect on the brain and body. It suppresses melatonin and activates the circadian alerting signal. Light at the wrong time, like from a screen prior to bedtime, may make it hard to fall asleep and contribute to insomnia. In the morning, when incorporated into a sunrise alarm clock, it may make it easier to wake.

Light exerts this impact by traveling from the eyes via the optic nerves to an area of the brain that regulates the body’s circadian rhythm. This area of the brain, called the suprachiasmatic nucleus, lies in the hypothalamus. It is the master clock of the body. Without it, the patterns of sleep and wakefulness, metabolism, hormone release, cortisol levels, body temperature, and other processes would run amok.

Fortunately, light at the proper time may help us to sleep and feel better. Even artificial light, if appropriately timed, may enforce the normal patterns of our body that would exist if we slept in a perfectly natural environment. A gradual increase of light in the morning hours, even in the natural darkness present in winter months at northern latitudes, may reinforce a normal pattern of waking.

Why Is Light Better Than Sound?

The sudden, blaring sound of an alarm clock will definitely wake someone. However, this abrupt shift from sleep to wakefulness can be disorienting. If full wakefulness is not attained, the snooze button may be pressed and sleep may quickly resume. Short awakenings, such as those lasting less than 5 minutes, may go unremembered. If the alarm clock is simply turned off—or smashed into 1,000 pieces—trouble may ensue!

Light may wake a person more gently and more gradually. The transition from sleep to wakefulness is more orderly. This may help to relieve sleep inertia, that profound sense of sleepiness that is difficult to shake when first opening your eyes. It is something that feels more natural. The sky does not go from pitch black to glaring sunshine. As the sun creeps over the horizon, the amount of light hitting our eyes (even through closed eyelids) steadily increases. It may reach a threshold where it finally wakes us. This may make it less likely a person would want to hit snooze repeatedly and fall back asleep. Even the thought of it seems more pleasant.

Who Should Consider a Sunrise Alarm?

Although there are certain groups who may benefit more from using a sunrise alarm, scientific research suggests that many of us could yield positive health impacts.

There are a surprising number of important benefits from the use of dawn simulation lights. Research suggests it may:

  • Improve cardiac function and reduce the risk of heart attacks

  • Provide a boost to the brain’s function (in select cognitive domains)

  • Enhance performance in tasks done immediately after waking

Clearly there are certain conditions or groups of people who would likely enjoy the effects of a sunrise alarm even more. Consider these possibilities:

Night owls

Delayed sleep phase syndrome is a circadian disorder characterized by difficulty initiating sleep (insomnia) and profound morning sleepiness. It affects 10 percent of the population, usually starting in the teenage years. Most night owls feel naturally sleepy close to 2 a.m. and may not naturally wake until 10 a.m. The use of a dawn simulation light may make waking a little easier. In some cases, a light box may be more effective to reinforce an earlier circadian phase.

Winter depression

Seasonal affective disorder, or winter depression, impacts people living in northern latitudes during the winter months when the nights are long and the days are short. Darkness can make it hard to wake in the morning. This may lead to increased depressive symptoms, lethargy, prolonged sleep, weight gain, and other symptoms. An artificial light may help the morning to start a little easier.

Teenagers

As noted above, teenagers are susceptible to delayed sleep phase syndrome. As a general rule, teens are more likely to have a slight delay in sleep timing, even with a less profound shift in the pattern. This can make it hard for adolescents to fall asleep at a desirable time. It can also make it very difficult to wake them in the morning. This can lead to early morning fights with parents, tardiness, absenteeism, and other problems like car accidents, inattention, and academic failure. Consider how desirable it might be to have a gentle light do the waking, and let the drama of the morning fade away.

Shift workers

Those who work atypical shifts—second, third, graveyard, rotating, or even call coverage—are subject to many sleep problems. When the desire for sleep and wake is forcibly misaligned from the patterns of darkness and light, it can be difficult to function optimally. This may lead to increased errors, accidents, and health problems (including a higher risk for cardiovascular disease, weight gain, and breast and colorectal cancers). Artificial light, if properly timed, may help to alleviate some of this misalignment.

Jet lag 

For every one time zone crossed, it can take one day to adjust the circadian rhythm. Traveling across a continent, or an ocean, can lead to significant disruption. The use of a sunrise alarm clock may make this transition easier. The optimal timing of this light exposure will depend on the distance traveled, and whether preparation was made prior to departing on the trip.

Hearing impaired

Finally, those with a hearing impairment may benefit from using a light to wake, rather than an audible alarm. The deaf may otherwise need to rely on others to wake on time. The use of a sunrise alarm clock may provide a new degree of independence.

Alternatives to Sunrise Alarm Clocks

Many people will be attracted to the possibility of easing insomnia and waking and getting up easier. Not everyone may want to use a sunrise alarm clock, however. There may be a handful of alternatives to consider. Consider how these additional options may make it easier to wake in the morning:

Natural sunlight

Throw the window shades open in your bedroom before retiring for the evening. This will let in natural light. After sunrise, the light will be able to stream through the windows and promote wakefulness. Unfortunately, this may not be ideally timed certain times of the year.

Light box

Consider a light box with 10,000 lux of intensity. It is powerful enough to shift the circadian rhythm, benefiting seasonal affective disorder as well.

Light therapy glasses

For those with a little extra buying power, light therapy glasses are a convenient and effective option. With a lower amount of light, shone directly into the eyes, these glasses can make it easier to wake.

Caffeine

A cup of coffee or tea can make it easier to get the morning started. Caffeine blocks adenosine, a signal for sleep, within the brain. With a half-life of 4 to 6 hours, it can get you through the morning.

Get motivated

Consider ways to motivate yourself out of bed. Morning exercise, quickly hopping in the shower, a special breakfast, or stepping outside to enjoy the early light may be helpful. In some cases, scheduling something you really enjoy for first thing in the morning may do the trick. 

Conclusion

There are many effective ways to wake and feel refreshed. A sunrise alarm clock may help to ease the transition to wakefulness. If you consistently struggle to wake, or have sleep of poor quality, consider getting evaluate by a board-certified sleep physician. Sleep disorders can be effectively resolved to the benefit of your health and well-being.

Sources:

Follum JD, Catchpole JM. “Sunrise alarm clock for the hearing impaired.” Biomed Sci Instrum. 2011;47:18-23.

Viola AU et al. “Dawn simulation light: a potential cardiac events protector.” Sleep Med. 2015 Apr;16(4):457-61. doi: 10.1016/j.sleep.2014.12.016. Epub 2015 Feb 26.

Gabel V et al. “Dawn simulation light impacts on different cognitive domains under sleep restriction.” Behav Brain Res. 2015 Mar 15;281:258-66. doi: 10.1016/j.bbr.2014.12.043. Epub 2014 Dec 27.

Thompson A et al. “Effects of dawn simulation on markers of sleep inertia and post-waking performance in humans.” Eur J Appl Physiol. 2014 May;114(5):1049-56. doi: 10.1007/s00421-014.2831-z. Epub 2014 Feb 11.

The Science of Circadian Rhythms

By Brandon Peters, MD

Circadian rhythms may be the most difficult concept to understand in the world of sleep medicine. There is a lot of confusing language, and it relies on science that is not easily approached. Fortunately, a basic understanding of the science of circadian rhythms can be obtained and may help to explain some cases of insomnia and daytime sleepiness.

As the World Turns

The Earth’s 23 hour and 56 minute daily rotation provides predictable rhythms of light and temperature, food, and predator activity. Through adaptive evolution, our body’s metabolism and even our behaviors are programmed to respond to this precise timing. Franz Halberg coined the term circadian (from the Latin meaning “about a day”) in 1959. It describes numerous approximately 24-hour cycles that are generated within nearly every organism on the planet.

Within our body, there is a system in place that measures time and synchronizes many internal processes to daily events within the environment. Some of these important processes include:

  • Sleep and wakefulness

  • Metabolism

  • Core body temperature

  • Cortisol levels

  • Melatonin levels

  • Other hormones (growth hormone, thyroid hormone, etc.)

The control of these patterns is built into our genetic makeup; the machinery synchronizes rhythms that will persist independently of outside influences. The first mammalian gene, Clock, was identified in 1994. Multiple additional genes have been identified that constitute a core molecular clock that gives rise to other cellular, tissue, and organ function.

Every cell in our body follows a circadian pattern: an extraordinary symphony of biochemical reactions that are perfectly timed based on available resources and orchestrated by a small group of cells in the anterior part of the brain’s hypothalamus. Through hormones and other as yet undetermined influences, the central pacemaker coordinates peripheral clocks that are present in cells as diverse as cardiac, liver, and adipose tissues.

Light is perceived by the eyes and travels via the retina to the optic nerves. Above the optic chiasm, where the two optic nerves cross behind the eyes, sits the suprachiasmatic nucleus (SCN). This is the master clock of the body. It couples the numerous physiological processes described to the timing of light and darkness in the environment.

These patterns will persist without external time cues, but they may vary slightly from the geological day length. As a result, in isolation from resetting cues, the timing of these processes may gradually become desynchronized. The degree of shift may depend on our genetic program, or tau, with most people having an internal clock that runs longer than 24 hours. It is understood that our genetics and the interaction with other environmental factors – especially the exposure to morning sunlight – may have important effects on resetting the internal clock. These external influences are called zeitgebers, from the German for “time-givers”.

When the internal clock is misaligned to our environment, circadian disorders such as delayed and advanced sleep phase syndrome can occur. With a complete disconnect from light perception, as occurs in total blindness, a Non-24 rhythm occurs. These conditions are often associated with insomnia and excessive daytime sleepiness as well as irregularities in the sleep-wake rhythm that cause social and occupational dysfunction.

Fortunately, treatment of circadian disorders can be highly effective and a board-certified sleep physician can provide helpful guidance and resources.

Sources:

Borbely, AA. “A two process model of sleep regulation.” Hum Neurobiol. 1982;1:195-204.

Czeisler, CA et al. “Bright light resets the human circadian pacemaker independent of the timing of the sleep-wake cycle.” Science. 1986;233:667-671.

Lewy, AJ et al. “Phase shifting the human circadian clock using melatonin.” Behav Brain Res. 1996;73:131-134.

Moore RY and Eichler, VB. “Loss of a circadian adrenal corticosterone rhythm following suprachiasmatic lesions in the rat.” Brain Res. 1972 Jul 13;42(1):201-206.

Moore-Ede, MC et al. “A physiological system measuring time, “ in The Clocks That Time Us. Cambridge, Massachusetts, Harvard University Press, 1984, p. 3.

Peters, BR. “Irregular Bedtimes and Awakenings.” Evaluation of Sleep Complaints. Sleep Med Clinic. 9(2014)481-489.

Piggins, HD. “Human clock genes.” Ann Med. 2002;34(5)394-400.

Reid, KJ and Zee, PC. “Circadian disorders of the sleep-wake cycle,” in Principles and Practices of Sleep Medicine. Edited by Kryger MH, Roth T, Dement WC. St. Louis, Missouri, Elsevier Saunders, 2011, pp. 470-482.

Richardson, G and Malin, HV. “Circadian rhythm sleep disorders: pathophysiology and treatment.” J Clin Neurophysiol. 1996;13:17-31.

Sack, RL and Lewy, AJ. “Circadian rhythm sleep disorders: lessons from the blind.” Sleep Medicine Reviews. 2001;5(3):189-206.

Vitaterna, MH et al. “Mutagenesis and mapping of a mouse gene, Clock, essential for circadian behavior.” Science. 1994;264(5159):719-725.

How to Use Fitness Trackers for Sleep Improvement

By Brandon Peters, MD

If you have purchased a fitness tracker, like millions of others, you may wonder how to use the wearable device to improve your sleep. These sleep trackers may provide some valuable insight into an important of health and well-being. They can also be completely useless. What do these wearables measure? How accurate are these measurements? How do they differ from medical sleep studies? Importantly, how should the information collected be used to make changes to improve sleep and reduce insomnia? Let’s consider these important questions and discover how to use fitness trackers to sleep better.

What Sleep Metrics Do Wearable Fitness Trackers Measure?

There are many wearable devices available that can be used to track fitness goals and even sleep. Some of the most popular options include the FitBit and Apple Watch. There are also smartphone apps, smart beds, mattress pads, and stand-alone products that can track sleep metrics. What kind of information is collected?

Movement

Most devices are tracking movement. There are variations on actigraphy. This measures movement velocity and direction with an accelerometer. It may be assumed that stillness equates with sleep, and movement corresponds with activity.

Biometrics

Sophisticated devices may detect breathing patterns, heart rate, or oxygen levels. It may even be possible to measure electrical current conductivity within the skin. Sound may also be detected, sometimes via vibration, that may correspond with snoring.

Schedule

Timing is important to sleep quality. It may also be possible to input information about your bedtime, wake time, and even naps to help track sleep patterns over an extended period. This information is often collected via sleep logs and may help to identify circadian rhythm disorders.

Environmental Characteristics

Some devices may also be able to identify other environmental characteristics, such as lighting, temperature, and noise. These may be useful to support the other variables that are measured. If the room is dark, it is nighttime, and a person is not moving, it is more likely that they would be asleep.

How Accurate Are Sleep Trackers?

It is natural to wonder how accurate sleep trackers are in measuring the characteristics of sleep. If you were dieting and using a scale, you would certainly want to ensure the weight that it was reporting was close to reality, both true to the actual value (accuracy) and repeatable over time (precision).

Sleep is more than just lying still. Someone could lie perfectly still and a wearable may believe this inactivity corresponds to sleep. Similarly, movements may occur during sleep that do not necessarily correspond with complete wakefulness. Many awakenings will go unnoticed by an individual as it can take more than 5 minutes of wakefulness before a memory is generated.

It is possible that other measurements may help to strengthen the accuracy of these observations. Breathing becomes very regular in deep, slow-wave sleep. This may indicate a person has fallen asleep. Heart rate patterns, oxygen levels, and other biometric measurements may help improve accuracy.

Unfortunately, many sleep trackers are products that are designed for consumers without scientific validation. The measurements may not be either accurate or reproducible. Artifact may interfere with the measurements. Moreover, the collected information may not correspond to the gold standard measurements.

Comparing Information to Sleep Testing and Studies

When sleep is measured by a diagnostic polysomnogram in a sleep center, there are a number of important characteristics. These include the brain wave activity as measured by EEG, muscle tone, the movement of eyes, other body movements, and sometimes additional data. No fitness trackers are able to collect all of these data. The nightly sleep patterns they provide—showing light, deep, and even REM sleep—are not as accurate as the information gathered with formal sleep testing.

In fact, sleep trackers are perhaps closest to an actigraph, a small wristwatch-like device that measures movement to give a rough pattern of sleep and wakefulness. These data can be very difficult to interpret, even by expert researchers, and the messy signals may be inscrutable to an algorithm. What is a person to do? How can you use the data that is collected via a wearable sleep tracker to optimize your sleep?

How to Use Data to Improve Sleep

Though the data collected by wearables or other sleep trackers may be imperfect, it can still be useful. It may be important to take a bird’s eye view of the information that is collected. Consider these simple recommendations:

1. Trust your own experiences.

Before buying into the data collected by an imprecise, and possibly wholly inaccurate device, reflect on your own sense of how you are sleeping. Do you recall waking 30 times in the night? Do you remember dreaming, even though the device reported no dream sleep? Are you having difficulty explaining the sleep pattern it provides? If you feel like you are sleeping well, consider simply ignoring the sleep data your device may provide.

2. Use the information to reinforce good sleep habits.

It is helpful to keep a regular sleep-wake schedule. Get up at the same time every day, including weekends. Try to get 15 to 30 minutes of sunlight upon awakening. Go to bed at about the same time every day. Go to bed when you are feeling sleepy. Try to get at least 7 to 9 hours of sleep nightly, meeting your own sleep needs. Avoid naps when possible. If the sleep tracker helps to reinforce a regular schedule, it may be useful.

3. Don’t sweat the details.

There is evidence that data collected by sleep trackers can stress people out. It can add to anxiety and make insomnia worse. People become obsessed with the details, trying to explain every little blip in the data. If you find this is leading to obsessive behaviors for you, this could be a problem. Let it go. It may not be accurate anyway.

4. Corroborate the data with witness testimony.

There may be some inexplicable findings from your sleep tracker data. Perhaps some unremembered steps accumulated in the night. There may be frequent awakenings or restless sleep. The device may even report loud snoring. Try to verify these reports by asking a witness: consider questioning a bed partner. Learn if you sleepwalk, restlessly toss in the night, or rattle the windows with snoring. If there is a discrepancy, consider gathering more information before jumping to any conclusions.

5. If you are not sleeping well, get help.

Many people use sleep trackers because they are not sleeping well. They are hopeful that they may learn a little bit about why they are having difficulty sleeping. If the insomnia persists, this search can become desperate. Although some insight may be gleaned, more evaluation may be necessary. If you have poor sleep, especially if you have trouble sleeping through the night with frequent awakenings or experience daytime sleepiness, get evaluated by a board-certified sleep physician to sort out what might be contributing to your troubles.

Conclusion

It is fun to learn about ourselves. Sleep can be mysterious. Most of the night goes unremembered. It is natural to want to lift the curtain and glimpse a little about what occurs once our eyes close and we fall asleep. Be careful about positing too much faith into the accuracy of sleep trackers. The technology may improve with time, but these devices may be more novelties than serious scientific analyses. If you are struggling to sleep, get help from an expert.

How Does Screen Light Affect Sleep?

By Brandon Peters, MD

In a world increasingly dependent on technology, bright screens are more commonly part of our everyday life. These screens range broadly in size and purpose: televisions, computers, tablets, smartphones, e-books, and even wearable tech. How does this artificial light, especially when viewed at night, potentially impact our sleep? Learn how light at night affects our body’s circadian rhythm and whether it might contribute to insomnia and difficulty awakening. In addition, consider ways to reduce light exposure and counteract its effects.

Before Thomas Edison and His Light Bulb

It is hard to imagine a time before artificial light existed. It is such an integral part of our lives that we consider ourselves deeply inconvenienced when we lose power in a storm. Think back to what life was like before modern technology like computers and televisions, before light bulbs, and even before electricity.

Primitive societies and people were highly dependent on the natural availability of light. The sun ruled life. It is no surprise that it was worshiped in ancient Egypt. When artificial light became possible, things dramatically changed.

The Influence of Light on the Body’s Functions

All life on Earth has developed patterns of activity dependent on the timing of day and night. When isolated from the natural environment, innate circadian patterns will be revealed. As an example, most humans have an internal clock that runs just over 24 hours in length. However, light profoundly affects the timing of sleep and wakefulness, metabolism, and hormone release.

Morning sunlight has a key influence on life’s functions. It promotes wakefulness and ends sleep. It can help shift the desire for sleep slightly earlier. In the winter, when sunlight comes later, we may want to sleep in or suffer from symptoms called winter depression.

Due to the length of our internal clock, our bodies have a natural tendency towards delay in the timing of our sleep. This means that we always find it easier to go to bed and wake later. Have you ever noticed how easy it is to stay up another 15 minutes but how difficult it is to wake just 15 minutes earlier? Morning sunlight can profoundly reset this internal clock.

How Artificial Light at Night Impacts Sleep

Unfortunately, artificial light at night can negatively affect the timing of our sleep. Light shifts sleep timing, and light at night can shift our desire for sleep later. This can result in difficult falling asleep, as occurs with insomnia. Night owls, or those with delayed sleep phase syndrome, may be especially susceptible.

Not everyone is sensitive to these effects. If you are especially sleepy, perhaps due to inadequate total sleep time or poor sleep quality, you are unlikely to be impacted.

There are several important factors to consider:

The Source of Light

Artificial light can come from light bulbs and many other sources, including televisions, computers, tablets, smartphones, e-books, and even wearable tech. Each of these can generate a different intensity of light. Near screens may have more impact that those across a room.

The Amount of Light

Most overhead lights generate a light intensity that varies from about 500 to several thousand lux. For comparison, full sunlight at midday may be 100,000 lux in intensity. Commercially available lightboxes often generate about 10,000 lux. The screen of your smartphone may create hundreds of lux of light, depending on the settings you use. Even smaller amounts of light, such as from a tablet screen, may have an impact in some people.

The Color of Light

Much is made of the fact that blue light is responsible for shifting circadian rhythms. Full spectrum light – what you might consider as “white light” or “natural light” – contains the blue wavelengths. Blue-blocker sunglasses (with an amber or orange lens) and screen filters are sold to block this light wavelength.

The Timing of Light

One of the most important variables is when you are exposed to light, including from artificial sources. There is evidence that light at night could shift your desire for sleep by about 1 hour. This delays your ability to fall asleep and may impact your desire to wake in the morning.

Therefore, it is very important to turn down the lights at night, especially preceding your bedtime. Some people may need to avoid excessive artificial light exposure for the 1-2 hours before going to bed. This means turning off the phone, powering down the computer, and avoiding light from tablets, e-books, and other sources.

Instead, try to stick to low-tech options: listen to some music, read a book printed on old-fashioned paper, or page through a magazine. By reducing and eliminating your exposure to light at night, you may find that you are able to sleep better. If you continue to struggle, speak with a sleep doctor about additional treatment options.

How to Take Melatonin

By Brandon Peters, MD

Melatonin is a naturally occurring hormone that is often taken in a pill form as an over-the-counter supplement to aid sleep. It is most helpful in circadian rhythm sleep disorders, but it is frequently taken to alleviate difficulty falling or staying asleep (characteristic symptoms of insomnia). If you are interested in using melatonin to help you to sleep, you may wonder how to take melatonin, as well as the appropriate dose and timing.

What Dose of Melatonin Should I Take?

Melatonin is believed to be relatively safe and it is therefore available over-the-counter at many pharmacies and health supplement stores. It may be compounded in multiple different ways, and it is sometimes even added to other products meant to aid sleep. Pure melatonin is most often sold as a pill or capsule, but you can also buy it in a liquid or even spray form.

The advertised strength of the melatonin dose may range from 1 mg up to 10 mg or more. It is important to remember that melatonin is not regulated by the Food and Drug Administration (FDA). As such, production and quality standards are not enforced, so the dose may actual vary from the listed strength.

Research suggests that even quite low doses of melatonin may be effective, especially in circadian rhythm disorders. The relationship between the dose and the perceived effect -- a so-called dose-response relationship – does not appear to exist for melatonin. Therefore, it is difficult to determine the optimal dose for an individual. Given these limitations, it is probably best if you take the lowest possible effective dose. (This would mean taking 1 mg or 2 mg to aid sleep.) If you take too much, you may actually flood your system and the benefits will be counteracted. The timing of the dose is very important and high blood levels at the wrong times may be a problem.

When Should I Take Melatonin?

The role of melatonin in regulating our biological clock, or circadian rhythm, appears to be critical. Therefore, the timing of when you actually take it is just as important. It is normally produced in part of the brain called the pineal gland and is released during the period of darkness from sundown to sunrise. When taken as an oral supplement, it reaches a maximum concentration in your blood after 30 minutes. However, the timing of administration may not be quite so simple.

Most people should take melatonin in the evening before going to bed, but -- curiously -- there are others who should actually take it in the morning. How do you know when you should take it? If you have trouble falling asleep (especially if you want to stay asleep in the morning), you should take it at night. However, if you have no trouble falling asleep but you awaken too early in the morning, you should actually take it in the morning. (As an aside, you should also ensure that you have ample light exposure at the opposite time from when you take your melatonin.)

Now that you have figured out whether to take it in the morning or at night, how close should you take it to your desired bedtime (or after awakening)? If you decide to take it at night, you should take it 3 hours before your desired bedtime. Conversely, if you are falling asleep and awakening too early, you may take it 3 hours after waking.

Is It Safe to Take Melatonin Every Night?

As described above, melatonin is extremely safe. It is a hormone that your body makes naturally. Its use in a supplement form is also believed to be quite safe. It is not habit forming and you will not become “addicted” or dependent upon it. Therefore, if you find it to be helpful in improving your sleep, you may use it on a nightly basis without fear of adverse consequences.

Source:

Kryger, MH et al. "Principles and Practice of Sleep Medicine." Elsevier, 5th edition, pp. 916-920.

What Is Jet Lag?

By Brandon Peters, MD

Jet lag is a circadian disorder that transiently occurs after rapid travel across multiple time zones. It may be associated with other physical symptoms, including disturbed sleep. Learn about this common condition, its symptoms, and potential treatments.

If you have ever flown across a few time zones, you are undoubtedly familiar with the struggles of adjusting your sleep to the new hours. Why is jet lag, as it is called, so hard to tolerate and is there anything to be done?

First, it should be recognized that your body wishes to keep a regular sleep schedule. Certainly we are creatures of habit, and our bodies like when we go to bed and get up at the same time every day. Our biological clock, which is controlled by part of the brain called the suprachiasmatic nucleus, helps us to keep a regular schedule by releasing hormones on a regular pattern. This pattern is called a circadian—or “near day”—rhythm. Our sleep follows this same regular pattern.

When we disrupt the regularity of these cycles, our body treats us unkindly by making us sleepy or alert when we don’t wish to be. For example, if you were to go to bed three hours early tonight, you would have great difficulty falling asleep. However, if you fly from California to New York and crawl into bed at your normal bedtime, you are effectively attempting the same thing.

Causes

Rapid travel across multiple time zones leaves the circadian rhythms out of sync with the destination’s light-dark cycles. These rhythms affect sleep and wakefulness as well as metabolism, body temperature, and hormone release. It can take time for the internal circadian rhythm to be re-synchronized to external time cues. Jet lag is sometimes called desynchronosis, referring to the misaligned sense of time.

As a general rule, it is possible to adapt at an average rate of 1 hour per day. For someone who lives in California to fly to New York and cross three time zones, it would usually take 3 days to adjust to the new time zone. It is generally easier to travel westward and harder to travel eastward for most people.

Social jet lag may cause less intense symptoms and occurs in people who delay their bedtime and wake time by 1 to 2 hours on weekends and then have to correct as the work week resumes on Monday. This shift in the circadian timing may affect the start of the work week for several days.

Significance

In the new location, circadian signals may conflict with environmental and social cues in the context of jet lag. This may lead to a constellation of symptoms, including:

  • Excessive daytime sleepiness

  • Fatigue

  • Insomnia

  • Irritability

  • Poor concentration

  • Digestive problems (dyspepsia)

  • Malaise (feeling unwell)

These symptoms may be disruptive and may be exacerbated by sleep deprivation, dehydration, sleep environment changes, and stress associated with travel.

Testing

The presence of the typical symptoms in the context of jet travel confirms the diagnosis without the need for further testing. In research, it is possible to measure an individual’s circadian pattern with tests that detect melatonin levels, often sampled from repeated saliva measurements. There are new blood tests also coming into clinical use that may identify the circadian rhythm.

Associated Conditions

Jet lag is most commonly associated with insomnia, defined as difficulty falling asleep or returning to sleep after waking. If insomnia occurs for less than 3 months, it is termed acute insomnia. As most people would be taking trips of a shorter duration than this, it could be grouped with other briefer disturbances of sleep. In some cases, jet lag may trigger a disruption that may evolve into a chronic form of insomnia.

Treatment

How can we counter our circadian rhythm when we travel? There are several techniques to reduce the effects of jet lag.

One solution would be to keep the same hours as our original time zone, going to bed and getting up based on the times at home.  his may not be the best way to enjoy our travels, especially if we fly great distances. An alternative would be to slowly adapt to the new time zone prior to leaving.

It may be possible to prepare the body gradually prior to departure by slowing adjusting bedtime and wake time to match the destination’s time. This can be done by adjusting our sleep by an hour for a week at a time. If we are crossing two time zones, the change can occur over two weeks. If traveling west, we would go to bed and get up an hour later for one full week. During the second week we would repeat the same, going to bed and getting up another hour later. If traveling east, we would go to bed and get up an hour earlier each week. If we can slowly adapt to the change, we will tolerate it better.  Unfortunately, unless the trip is quite lengthy, we wouldn’t be able to adjust the other way for our return home.This adjustment may be enhanced with properly time light exposure.

Light is one of the primary synchronizers of the circadian rhythm in sighted individuals. It may advance the timing of sleep earlier if the light exposure occurs in the 2 hours prior to the normal wake time or immediately upon awakening. Sunlight is best, but the use of light boxes or light therapy boxes may also have a role.

Beyond light, it may be important to address the symptoms that occur. Caffeine or strategic napping may relieve sleepiness. Other stimulant medications could also have a role. It may also be helpful to use hypnotic medications to aid sleep, including over-the-counter melatonin or prescription pills, such as:

  • Zolpidem (Ambien)

  • Eszopiclone (Lunesta)

  • Zaleplon (Sonata)

  • Ramelteon (Rozerem)

These medications to aid both wakefulness and sleep may ease the transition to a new time zone.

Conclusion

If you have a big trip coming up, you might plan ahead in how you can adjust your circadian pattern of sleep and wakefulness with some of the interventions outlined. This may help to optimize your experience while traveling to avoid the symptoms of jet lag.

Sources: 

Drake CL and Wright KP. Shift Work, Shift-Work Disorder, and Jet Lag. Principles and Practice of Sleep Medicine, 6thed., Philadelphia, Elsevier, 2017. pp.714-725.

American Academy of Sleep Medicine. International Classification of Sleep Disorders, 3rd ed. Darien, IL: American Academy of Sleep Medicine, 2014.

Gooley JJ. Treatment of circadian rhythm sleep disorders with light. Annals of the Academy of Medicine, Singapore. 37(8):669-76, 2008 Aug.

Sack RL. The pathophysiology of jet lag. Travel Medicine & Infectious Disease. 2009 Mar;7(2):102-10.

Sack RL. Circadian rhythm sleep disorders: part I, basic principles, shift work and jet lag disorders. Sleep. 30(11):1460-83, 2007 Nov 1.

Srinivasan V, et al. Jet lag: therapeutic use of melatonin and possible application of melatonin analogs. Travel Medicine & Infectious Disease. 6(1-2):17-28, 2008 Jan-Mar.

How Long Should You Wait Between Screen Light Exposure and Going to Bed?

By Brandon Peters, MD

There is some concern that light exposure at night may affect sleep. What is the evidence that artificial light from screens contributes to insomnia? How long should you wait between screen light exposure and going to bed? Explore this relationship and some of the science behind the rationale.

The Science of Sleep

When considering how optimal sleep occurs, it is important to understand the two primary contributors: homeostatic sleep drive and circadian rhythm. Sleep drive is the fact that the longer you stay awake, the sleepier you will become. This is due to a chemical that gradually builds in the brain with prolonged wakefulness. This chemical is called adenosine. High levels of adenosine contribute to the onset of sleep. Sleep, at least in part, is a process of clearing this chemical away until consciousness is restored. Interestingly, caffeine blocks this signal and alcohol enhances it.

The circadian rhythm is the complement to this system. It is predominately an alerting signal that strengthens during the daytime and is largely absent overnight. It becomes strongest in the late evening hours, when we would expect to feel fairly sleepy. There is a lull in the mid-afternoon, which can contribute to a desire to take a nap then.  The circadian rhythm is based in our genetics, persisting without external influences. It contributes to sleep-wake propensity, hormone release, and metabolism. These processes are linked to the day-night cycle of light and darkness via the eyes.

How Light Changes Sleep

A simple anatomy lesson reveals the importance of light exposure to sleep. The eyes perceive light via the retina and pass this information along the optic nerves, extensions of the brain itself. These optic nerves receive input from each eye and cross at a location called the optic chiasm. Just above this is an area of the brain called the hypothalamus, a functional area that is integral to the control of the processes described above.

Within the hypothalamus lies the suprachiasmatic nucleus. This is the control center of the body’s circadian rhythm. It is the central pacemaker, coordinating the activities of all the body’s organs, tissues, and cells. Therefore, light input can be directly linked to the influence of many of the body’s processes.

In particular, light exposure can suppress the desire for sleep. Morning sunlight exposure may help to wake us, initiating the circadian alerting signal. In the same way, artificial light at night may affect the timing of sleep. It may contribute to insomnia in susceptible individuals, especially among those with a tendency towards being a night owl (called delayed sleep phase syndrome).

Preserving Darkness in the Night

What impact did Thomas Edison have on sleep in inventing the light bulb? As society has evolved, the potential disturbances have only expanded. With electricity, our evenings are filled with activity: televisions, computers, tablets, e-books, and phones that flicker light into our eyes. Moreover, the activity itself may keep us awake, shorten our total sleep time, and interfere with a relaxing buffer zone before bedtime. There is some evidence that light at night may adversely affect sleep.

Research has demonstrated that in the spectrum that we perceive as light, the blue wavelength is the one that can change our circadian rhythms. Therefore, industries have developed to supply filters and glasses that block the blue light. It seems that even short bursts of light, especially when of higher intensity, can impact sleep’s timing.

The sun is much more powerful in intensity compared to light from bulbs or screens. Full sunlight may be 100,000 lux in intensity while overhead lights may be just 1,000 lux. Therefore, a blast of sunlight at night could profoundly impact sleep. For susceptible individuals, artificial light may also negatively impact sleep onset and contribute to insomnia.

As a result, it is recommended that people who have difficult falling asleep may benefit from reduced light exposure prior to bedtime. Preserve the last 1 hour, and perhaps longer in highly sensitive individuals, as an electronics-free zone. Power off your screens, especially those that are closer to your eyes. It is also advisable to keep your bedroom free of electronics to preserve sleep. This is especially important advice for teens and children.

Why might some people not be bothered by light at night? The complement system, characterized by sleep drive and building levels of adenosine, could counteract these effects. If you are sleepy enough, you may not be bothered by the light. If you struggle with persisting insomnia, consider speaking with a sleep specialist to help determine ways for you to improve your sleep.

When College Classes Start Late, Students Sleep and Drink More — and Get Worse Grades

At first glance, it sounds like the perfect solution to the student sleep crisis: start college classes later in the morning so students can get more rest. In theory, better-rested students should have sharper focus, stronger memory, and improved academic performance. And in some studies of high schoolers, that’s exactly what happens.

But research on college students paints a more complicated picture. In some cases, later class start times are associated not with better grades, but with worse grades — despite students sleeping longer. The difference lies in what students do with that extra flexibility and how college culture shapes their habits.

The Promise of Later Starts

Sleep scientists have long known that young adults, like teenagers, have a natural tendency toward later bedtimes and wake times. In high school, early start times often force students to wake before their biological clock is ready, leading to chronic sleep deprivation.

College seems like the ideal place to fix this: if students can choose later classes, they can sleep closer to their natural rhythms. On paper, this should mean:

  • More total hours of sleep

  • Better mood and alertness in class

  • Stronger academic performance

And indeed, surveys confirm that students with later classes often report getting more sleep — sometimes an hour or more extra compared to their peers in early sections of the same course.

The Paradox: More Sleep, Lower Grades

However, large-scale studies have found that college students who take later classes often have lower GPAs than those with earlier schedules. A notable example is a University of Washington and University of California, Santa Barbara analysis, which showed that students with later first classes went to bed later, slept later, and engaged in more late-night activities — including drinking — that negatively affected academic outcomes.

Here’s the paradox: while these students may sleep longer, the timing of their sleep and their overall lifestyle may be less compatible with optimal learning.

Why Later Starts Can Backfire in College

1. Shifted Sleep Schedule

When the first class isn’t until 11:00 a.m. or later, many students push bedtime into the early morning hours. They still get their 8 hours — but much of that sleep occurs in a delayed cycle that can interfere with morning alertness and alignment with the day’s demands.

2. More Time for Late-Night Socializing

A later start means less pressure to wind down early. Parties, bar nights, and dorm hangouts can stretch into the small hours, with students feeling less need to cut themselves off because they “don’t have to be up early.” This can increase alcohol consumption and reduce sleep quality, even if total sleep time is higher.

3. Increased Alcohol Use

Multiple studies link later first classes with higher drinking rates among college students. The reasoning is simple: fewer morning obligations lower the perceived cost of staying out late and drinking. Unfortunately, alcohol disrupts the second half of the sleep cycle, leading to lighter, more fragmented rest that’s less restorative.

4. Lower Structure and Discipline

Early classes can serve as an anchor for the day — a reason to get up, get moving, and start on assignments earlier. Without that anchor, some students procrastinate on both waking up and starting work. Evenings fill with social activity, while afternoons may be spent catching up on sleep or idly passing time, leaving less total time for focused study.

5. Delayed Learning Window

Cognitive performance has daily rhythms, and for many people, attention and memory are strongest in the late morning. Students who push their academic work later in the day may be working during a lower-performance window, particularly if they’re also staying up past midnight.

The Role of Personal Responsibility

The impact of late starts varies by student. Self-disciplined students who use the extra rest to fuel productivity may see benefits. But for those still adjusting to the independence and distractions of college life, later classes can feed into a cycle of:

  • Staying up late → Sleeping late → Less time for daytime study → Increased evening socializing → Staying up late again

This cycle isn’t inevitable, but it’s common — especially among younger undergraduates.

Alcohol, Sleep Quality, and Academic Performance

Even moderate alcohol use before bed can reduce the proportion of deep slow-wave sleep and REM sleep. For students in the “late start” group who drink more frequently, the benefits of longer sleep may be offset — or erased — by poorer sleep quality.

Poor-quality sleep leads to:

  • Slower information processing

  • Reduced working memory capacity

  • Weaker problem-solving skills

  • More difficulty concentrating in lectures

When those effects stack up over a semester, grades can take a noticeable hit.

What the Research Suggests

Several key findings emerge from the research on this topic:

  • Later first classes = later bedtimes. Students rarely use the extra morning time to get more early sleep.

  • Alcohol use increases. The absence of morning obligations removes a deterrent to late-night drinking.

  • Grades can drop. The combination of later bedtimes, lower-quality sleep, and lifestyle changes appears to outweigh the benefits of extra rest for many students.

One study even found that for each hour a student’s first class started later, their GPA was slightly lower — largely explained by differences in sleep timing and alcohol use.

Navigating the Trade-Off

This doesn’t mean late classes are inherently bad — but it does mean students and educators should be aware of the trade-offs.

For students:

  • Treat a late start as an opportunity for better rest and earlier academic work, not just more social time.

  • Maintain a regular bedtime, even on nights without early obligations.

  • Watch for creeping increases in alcohol use and late-night activity.

For colleges:

  • Offer education on sleep hygiene and the risks of excessive alcohol use.

  • Encourage balanced scheduling that avoids both extremely early and very late first classes.

  • Provide quiet study spaces in the mornings to encourage productive use of time.

The Bottom Line

Late-start college classes offer the promise of more sleep — and in theory, more alert, higher-performing students. But in practice, the freedom they offer can lead to later bedtimes, more drinking, and weaker daily structure.

For some students, that means worse grades, even with extra rest. The lesson isn’t that late starts are bad for everyone, but that their success depends on how students use the flexibility. Sleep isn’t just about quantity; it’s about timing, quality, and the lifestyle choices that surround it.

In the end, the best academic results come when students combine healthy rest with consistent habits — whether their first class is at 8:00 a.m. or noon.

This article was created using OpenAI’s ChatGPT on August 15, 2025 and it was personally reviewed and edited by Brandon Peters, M.D. to ensure its accuracy. This use of augmented intelligence in this way allows the creation of health information that can be trusted.

Sleep and the Back-to-School Middle Schooler: What They Need and Why

The middle school years bring a whirlwind of change — new friends, tougher classes, bigger responsibilities, and a growing sense of independence. But one thing often gets overlooked during this transition: sleep. For 11- to 14-year-olds, getting enough high-quality rest isn’t just a nice idea — it’s essential for learning, mood regulation, and healthy development.

As summer fades and the school year begins, schedules shift earlier, homework piles up, and extracurricular activities kick in. Without careful planning, sleep can become the first casualty of the busy school routine. Understanding what middle schoolers need and how to help them get it can make the difference between a year of thriving and one of dragging.

How Much Sleep Do Middle Schoolers Need?

The American Academy of Sleep Medicine recommends 9–12 hours of sleep per night for children aged 6–12, and 8–10 hours for teens 13–18. That means most middle schoolers should be getting somewhere between 9 and 10 hours nightly.

But research shows many don’t. A CDC survey found that fewer than half of middle school students regularly get enough sleep on school nights. Late bedtimes, early alarms, and the lure of screens all contribute to the problem.

Why Sleep Is So Important in Middle School

Sleep affects middle schoolers in ways that are both immediate and long-term:

  • Cognitive performance: Sleep helps consolidate memories, process new information, and support creative problem-solving. Well-rested students pay better attention in class and remember more of what they learn.

  • Emotional regulation: Hormonal changes in early adolescence can amplify emotions. Adequate sleep makes it easier to handle stress, avoid conflicts, and recover from disappointments.

  • Physical health: Sleep strengthens the immune system, supports growth, and helps regulate appetite and metabolism.

  • Safety: Sleep-deprived students are more likely to make impulsive choices and have slower reaction times, which can be risky during sports, biking, or crossing streets.

The Middle School Sleep Challenge

Several factors make it harder for middle schoolers to get the rest they need:

  1. Shift in circadian rhythm
    As children enter puberty, their natural “sleep phase” shifts later. Melatonin — the hormone that signals bedtime — is released later at night, making it harder to feel sleepy early.

  2. Earlier school start times
    Many middle schools start before 8:00 a.m., which can require a wake-up time around 6:30 or earlier — out of sync with a teen’s biological clock.

  3. Increased homework and activities
    Sports, music, clubs, and other commitments can push dinner, homework, and bedtime later.

  4. Screen time
    Phones, tablets, and gaming consoles not only tempt kids to stay up later but also emit blue light that delays melatonin release even more.

Preparing for the Back-to-School Sleep Shift

If your middle schooler has been staying up and sleeping in during the summer, shifting back to a school schedule in one night will be a shock to the system. Start adjusting 1–2 weeks before school starts:

  • Move bedtime earlier by 15 minutes every few nights.

  • Wake them earlier in the morning to match the school-day schedule.

  • Keep the schedule consistent on weekends to reinforce the body clock.

Building a Sleep-Friendly Evening Routine

A consistent wind-down routine can help counteract late-night energy and screen distractions. Consider a 30–45 minute bedtime ritual that might include:

  1. Wrapping up homework and organizing the backpack for the next day.

  2. Turning off all electronics at least 30–60 minutes before bed.

  3. Taking a warm shower or bath.

  4. Reading a book or listening to calming music.

Parents can help by setting a clear “screens off” time and charging devices outside the bedroom.

Creating the Right Sleep Environment

Middle schoolers may not think their bedroom setup affects their sleep — but it does. Encourage:

  • Darkness: Blackout curtains or a sleep mask can help.

  • Cool temperature: Around 65–70°F (18–21°C) is ideal.

  • Quiet: White noise machines can mask household sounds.

  • Comfortable bedding: A supportive pillow and breathable sheets make a difference.

Balancing Activities and Rest

Middle schoolers often want to “do it all,” but overscheduling can push sleep to the bottom of the priority list. Help your child balance commitments by:

  • Limiting late-evening practices or events on school nights.

  • Encouraging them to choose a manageable number of extracurriculars.

  • Scheduling downtime after school before jumping into homework.

Watching for Signs of Sleep Deprivation

Even a shortfall of 30–60 minutes per night can add up over a week. Look for:

  • Difficulty waking up in the morning

  • Irritability or mood swings

  • Trouble concentrating

  • Frequent yawning or daydreaming

  • Dozing off in the car or on the couch after school

If you see these signs, reevaluate bedtime and daily schedule.

Setting a Good Example

Kids this age notice when adults burn the candle at both ends. Modeling good sleep habits — such as sticking to a regular bedtime and limiting screens late at night — reinforces the message that rest matters.

The Takeaway for Families

Middle school is a period of rapid growth and increasing demands. Without enough high-quality sleep, students risk falling behind academically, feeling overwhelmed emotionally, and struggling physically. But with consistent schedules, mindful routines, and supportive boundaries, parents can help ensure their child gets the rest they need to thrive.

As the school year begins, remember: academic success starts the night before — with lights out, a quiet room, and the steady breathing of a child who’s truly recharging for the day ahead.

This article was created using OpenAI’s ChatGPT on August 15, 2025 and it was personally reviewed and edited by Brandon Peters, M.D. to ensure its accuracy. This use of augmented intelligence in this way allows the creation of health information that can be trusted.

When School Starts Late, Teens Sleep Great

It’s no secret that most teenagers don’t bounce out of bed at 6:30 in the morning with a smile on their face. In fact, for many high school students, early mornings can feel like a battle against biology. When schools start later in the day, something remarkable happens: teenagers actually get more sleep — and not just more, but better sleep. That extra rest can transform their health, mood, and performance.

The Biology of a Teenage Sleep Clock

To understand why later start times work so well, you need to know about adolescent circadian rhythms. During puberty, the body’s internal clock shifts. The natural release of melatonin — the hormone that signals “time to sleep” — is delayed by about two hours compared to childhood. That means a teen who used to get sleepy at 9:30 p.m. may now feel wide awake until 11:30 p.m. or later.

This isn’t laziness or bad time management; it’s a physiological change rooted in brain chemistry. Combine that shift with early school bells, and you have a recipe for chronic sleep deprivation. Even a conscientious teen who goes to bed “on time” may still be fighting their biology.

The Problem With Early Starts

The American Academy of Pediatrics (AAP) recommends that middle and high schools start no earlier than 8:30 a.m. so that students can get the 8–10 hours of sleep they need each night. Yet, as of recent data, many U.S. high schools still ring their first bell before 8:00 a.m. In some districts, classes start as early as 7:15 a.m.

For a teenager who can’t fall asleep until 11:30 p.m., a 7:15 start time may require a wake-up alarm at 5:30 a.m. — meaning they’re functioning on just 6 hours of rest, night after night. Chronic sleep loss in teens is linked to a wide array of issues, including:

  • Lower academic performance

  • Increased risk of depression and anxiety

  • Weakened immune function

  • Slower reaction times and higher accident risk (especially for teen drivers)

  • Irritability and mood swings

It’s not that teens can’t adapt at all — they often do, because they have no choice — but the adaptation comes at a cost to their mental and physical health.

The Late Start Experiment

In recent years, some school districts have experimented with later start times, and the results have been eye-opening. For example:

  • Seattle, Washington moved high school start times from 7:50 to 8:45 a.m. in 2016. Researchers found that students got an average of 34 minutes more sleep per night, their grades improved, and attendance increased.

  • Edina, Minnesota was one of the first districts to delay high school start times back in the 1990s. Studies showed improved mood, fewer visits to the school nurse, and higher standardized test scores.

  • California passed a state law requiring most high schools to start no earlier than 8:30 a.m. as of 2022, citing public health benefits.

The common pattern is that when the start time moves later, teenagers don’t just stay up even later — they actually gain net sleep time. That’s because their schedules finally align with their biological clocks.

Why the Sleep Is Better

It’s not just the total hours of sleep that matter — it’s also the quality of that sleep. Later start times help teens get more time in the crucial stages of deep and REM sleep, which are essential for:

  • Consolidating memories (important for learning)

  • Regulating emotions

  • Physical recovery and growth

  • Strengthening the immune system

When teens are forced to wake up in the middle of these deep cycles, the sleep they’ve had is less restorative. Pushing back the start time reduces that disruption, letting them complete more full sleep cycles.

The Ripple Effects

The benefits of well-rested teens ripple outward:

  • Academic Gains: Sleep improves attention, working memory, and problem-solving — all critical for learning. Students are more likely to engage in class when they aren’t fighting fatigue.

  • Mental Health Boost: Adequate sleep is strongly linked to lower rates of depression and anxiety in adolescents. Given rising concerns about teen mental health, this is a major public health argument for later starts.

  • Safer Roads: Studies have shown a significant drop in car crashes involving teen drivers after districts delay start times. Sleep deprivation slows reaction time, and the morning commute is one of the most dangerous windows for young drivers.

  • Better Behavior: Teachers often report fewer discipline problems and less classroom disruption when students are better rested.

The Pushback and the Practicalities

Of course, shifting school schedules isn’t without challenges. Common concerns include:

  • Impact on after-school activities: Later dismissal times can affect sports practices, part-time jobs, and family schedules.

  • Transportation logistics: Many districts stagger start times across grade levels to optimize bus routes, so changing one group’s schedule can create a domino effect.

  • Parental work schedules: Some families rely on earlier school starts for childcare coverage in the mornings.

However, districts that have made the change often find creative solutions — such as adjusting practice times, using community facilities for late sports, or reorganizing bus routes. Over time, many communities report that the benefits outweigh the logistical hurdles.

What Families Can Do in the Meantime

Even if your teen’s school starts early, there are steps you can take to help them get better rest:

  1. Limit late-night screen time. The blue light from phones and laptops delays melatonin release even further.

  2. Create a wind-down routine. Dim lights, read a physical book, or do a relaxing activity before bed.

  3. Encourage consistency. Sleeping in until noon on weekends can make Monday mornings even harder; a moderate weekend sleep-in is better.

  4. Advocate locally. Join with other parents to petition your school board for a later start time.

The Takeaway

Teenagers aren’t just being dramatic when they say mornings are hard — they’re speaking from the experience of living in a body that’s wired for a later schedule. When schools start later, students sleep longer and better, with measurable benefits for learning, health, and safety. The science is clear: aligning school schedules with adolescent biology isn’t a luxury; it’s an investment in the well-being and potential of our youth.

This article was created using OpenAI’s ChatGPT on August 15, 2025 and it was personally reviewed and edited by Brandon Peters, M.D. to ensure its accuracy. This use of augmented intelligence in this way allows the creation of health information that can be trusted.

Sleep Paralysis is a Common Symptom of Sleep Disorders

Sleep paralysis is a phenomenon that often brings fear and confusion to those who experience it. Characterized by an inability to move or speak upon waking up or falling asleep, sleep paralysis typically lasts only a few seconds to a few minutes, but it can feel like an eternity. While this experience is commonly associated with vivid hallucinations—such as sensing a presence in the room or feeling a weight on the chest—many people do not realize that sleep paralysis is often a symptom of underlying sleep disorders. Understanding the link between sleep paralysis and these disorders is essential for managing and preventing future episodes.

What is Sleep Paralysis?

Sleep paralysis occurs when a person is conscious during the transition between sleep stages, usually when waking from or falling into REM (Rapid Eye Movement) sleep. During REM sleep, the brain is highly active, processing memories and emotions, and vivid dreams occur. However, the body undergoes a natural paralysis called REM atonia to prevent physical movement during dreams. Sleep paralysis happens when this paralysis persists while the individual regains consciousness, leaving them temporarily unable to move or speak.

Sleep paralysis is often accompanied by vivid and frightening hallucinations, such as seeing shadowy figures, hearing voices, or feeling as though someone is sitting on the chest. These hallucinations occur because the brain remains in a dream-like state while the body is awake and immobile. For many, this combination of immobility and sensory experiences makes sleep paralysis a terrifying event.

Sleep Paralysis and Sleep Disorders

While sleep paralysis can occur in healthy individuals with no underlying conditions, it is more commonly associated with various sleep disorders. These disorders can disrupt the natural sleep cycle, particularly the transition between sleep stages, increasing the likelihood of sleep paralysis episodes.

1. Narcolepsy

One of the most well-known sleep disorders associated with sleep paralysis is narcolepsy. Narcolepsy is a chronic neurological condition that affects the brain's ability to regulate the sleep-wake cycle. People with narcolepsy experience sudden, uncontrollable episodes of sleep attacks, which occur during the day, leading them to fall asleep unexpectedly.

In addition to excessive daytime sleepiness, narcolepsy is often accompanied by cataplexy, a sudden loss of muscle tone triggered by strong emotions such as laughter or anger. People with narcolepsy are also more likely to experience sleep paralysis. The connection lies in the dysregulation of REM sleep: individuals with narcolepsy can enter REM sleep almost immediately after falling asleep, and may also have disruptions when transitioning between sleep stages. This increases the chances of waking up during REM sleep while still experiencing the natural paralysis that occurs during this stage.

2. Insomnia

Insomnia, or difficulty falling or staying asleep, is another sleep disorder that can lead to sleep paralysis. Insomnia often causes fragmented sleep, leading to irregular transitions between sleep stages. When the sleep cycle is disrupted, it increases the chances of waking up during REM sleep, which may cause sleep paralysis.

Chronic insomnia, which is often accompanied by anxiety or depression, can lead to heightened stress levels, making it more likely for someone to experience sleep paralysis. The lack of sufficient rest and the stress-induced agitation contribute to the overall instability of the sleep cycle, making it easier for someone to become partially awake during REM sleep.

3. Sleep Apnea

Sleep apnea is a condition where an individual's breathing repeatedly stops and starts during sleep. The most common form, obstructive sleep apnea (OSA), occurs when the muscles at the back of the throat relax too much and temporarily block the airway. This leads to frequent waking throughout the night, which can disrupt the sleep cycle and increase the likelihood of sleep paralysis.

People with sleep apnea may wake up multiple times during the night due to brief interruptions in breathing. These frequent awakenings can cause them to be more likely to experience sleep paralysis, as they may regain consciousness during REM sleep while the body is still paralyzed. In addition, individuals with sleep apnea may experience higher levels of anxiety or fear related to their sleep disruptions, which can intensify the emotional aspect of sleep paralysis.

4. Shift Work Sleep Disorder

Shift work sleep disorder (SWSD) is a condition that affects people who work nontraditional hours, such as night shifts or rotating shifts. People with SWSD often have difficulty maintaining a regular sleep schedule, leading to irregular sleep patterns and disrupted circadian rhythms.

The misalignment between the body’s internal clock and external demands can cause the individual to fall asleep at irregular times, leading to fragmented sleep and difficulty transitioning between sleep stages. This increases the likelihood of experiencing sleep paralysis, especially when waking from REM sleep. Additionally, the stress and fatigue associated with shift work can exacerbate sleep disturbances, further heightening the risk of sleep paralysis.

Factors That Contribute to Sleep Paralysis in Sleep Disorders

There are several underlying factors that can make sleep paralysis more likely in individuals with sleep disorders:

1. Irregular Sleep Patterns

Disruptions in sleep cycles, such as those caused by insomnia, sleep apnea, or shift work, can increase the likelihood of waking up during REM sleep, when sleep paralysis is most likely to occur. The more fragmented or irregular an individual’s sleep, the higher the chances that they will experience sleep paralysis.

2. Stress and Anxiety

Many sleep disorders, including insomnia and sleep apnea, are often linked with high levels of stress and anxiety. When the body is stressed, it is more likely to have disturbed sleep, which can increase the risk of sleep paralysis. Anxiety can also amplify the fear associated with sleep paralysis episodes, making them more distressing.

3. Sleep Deprivation

Chronic sleep deprivation, which often accompanies sleep disorders like insomnia and narcolepsy, can make REM sleep more intense and erratic. Sleep deprivation also impacts the body’s ability to regulate the sleep-wake cycle, leading to more frequent disruptions and episodes of sleep paralysis.

Managing Sleep Paralysis in the Context of Sleep Disorders

While sleep paralysis can be frightening, it is important to recognize that it can be managed, especially when it is linked to a sleep disorder. The first step is to seek medical advice to identify and treat the underlying sleep disorder. Here are some general strategies that can help manage sleep paralysis:

  • Improving Sleep Hygiene: Establishing a consistent sleep schedule, avoiding caffeine or alcohol close to bedtime, and creating a relaxing bedtime routine can help promote better sleep quality and reduce the likelihood of sleep paralysis.

  • Treating Underlying Sleep Disorders: Addressing conditions like insomnia, narcolepsy, or sleep apnea can reduce the frequency of sleep paralysis episodes. This may involve medications, cognitive behavioral therapy for insomnia (CBT-I), or the use of a CPAP machine for sleep apnea.

  • Stress Management: Practicing relaxation techniques such as meditation, deep breathing, or yoga can help reduce stress and anxiety, both of which contribute to sleep disturbances and increase the risk of sleep paralysis.

  • Behavioral Therapy: Cognitive behavioral therapy (CBT) can help individuals cope with the fear and anxiety associated with sleep paralysis, making it less likely to cause distress or interfere with sleep.

Conclusion

Sleep paralysis is a common symptom of various sleep disorders, including narcolepsy, insomnia, sleep apnea, and shift work sleep disorder. It occurs when the body’s natural paralysis during REM sleep persists as the individual becomes partially awake, often accompanied by vivid hallucinations. While sleep paralysis can be unsettling, understanding its connection to sleep disorders can help individuals manage and prevent future episodes. Through proper treatment and lifestyle changes, people can reduce the frequency of sleep paralysis and improve their overall sleep quality, leading to better physical and mental health.

This article was created using OpenAI’s ChatGPT on May 16, 2025 and it was personally reviewed and edited by Brandon Peters, M.D. to ensure its accuracy. This use of augmented intelligence in this way allows the creation of health information that can be trusted.

Night Owls or Delayed Sleep Phase Syndrome in Teenagers

Teenagers are often known for staying up late and struggling to wake up early. While this behavior is sometimes dismissed as laziness or poor time management, there is growing recognition that it may reflect a real biological condition known as Delayed Sleep Phase Syndrome (DSPS) or Delayed Sleep-Wake Phase Disorder (DSWPD). Teenagers with this condition are often referred to as “night owls,” not simply because of preference, but due to a genuine shift in their circadian rhythms. Understanding DSPS is essential for parents, educators, and healthcare providers to support teens who struggle to sleep and function on conventional schedules.

What Is Delayed Sleep Phase Syndrome?

Delayed Sleep Phase Syndrome is a circadian rhythm sleep disorder where a person’s internal body clock is significantly delayed compared to what is considered normal. In other words, individuals with DSPS naturally feel sleepy much later at night—often between 2 a.m. and 6 a.m.—and prefer to wake up correspondingly later, such as between 10 a.m. and noon.

In teenagers, this delay often becomes noticeable during puberty. Their biological clocks begin to shift, making it harder to fall asleep early even when they are physically tired. This change is part of a natural developmental phase, but for some teens, it becomes extreme enough to interfere with daily functioning, especially when school requires early wake-up times. As a result, teens with DSPS frequently experience chronic sleep deprivation, poor academic performance, and emotional challenges due to their misaligned sleep schedule.

Causes of DSPS in Teenagers

The exact cause of DSPS is not fully understood, but several contributing factors are known. Biological changes during adolescence play a significant role. During puberty, melatonin—the hormone that regulates sleep—begins to be released later in the evening. This delays the body’s natural cue to prepare for sleep. For most teens, this delay is mild and manageable, but for others, it becomes more severe, leading to DSPS.

Lifestyle factors can also exacerbate the condition. The widespread use of smartphones, computers, and other screens late into the evening exposes teens to blue light, which suppresses melatonin production and further delays sleep onset. Inconsistent sleep schedules, especially sleeping in late on weekends, can also disrupt the body’s natural rhythm and worsen the problem over time.

There may also be a genetic predisposition to DSPS. Studies have found that circadian rhythm disorders can run in families, suggesting a hereditary component. Furthermore, individuals with other mental health conditions, such as ADHD, anxiety, or depression, are more likely to experience DSPS, either due to shared biological mechanisms or behavioral factors.

Symptoms and Impact

The most obvious symptom of DSPS is the inability to fall asleep at a socially acceptable bedtime. Teens with DSPS often lie awake in bed for hours, unable to sleep until the early morning hours. Consequently, waking up early for school or other responsibilities becomes extremely difficult, and they often feel tired, irritable, or mentally foggy during the day.

Despite these struggles, teens with DSPS often sleep normally—sometimes even longer than average—when allowed to follow their natural schedule. For example, during vacations or weekends, they may go to sleep at 3 a.m. and wake up at 11 a.m. feeling fully rested. This can confuse parents and teachers, who may mistake the pattern for laziness or poor discipline, rather than a biological issue.

DSPS can negatively affect academic performance, social life, and mental health. Chronic sleep deprivation is linked to mood disorders, poor concentration, and increased risk of accidents. Over time, a teen with untreated DSPS may begin to feel isolated or depressed, especially if they are frequently scolded or misunderstood for their sleep habits.

Diagnosis

Diagnosis of DSPS typically involves a thorough sleep history, often recorded in a sleep diary over one to two weeks. Some doctors may recommend actigraphy, where a wearable device tracks sleep-wake cycles. A diagnosis is made when a consistent pattern of delayed sleep onset and difficulty waking aligns with the symptoms of DSPS, and other medical or psychological conditions have been ruled out.

It’s important to distinguish DSPS from insomnia. While both conditions involve difficulty sleeping, insomnia sufferers typically want to sleep but can’t, regardless of timing. In contrast, individuals with DSPS sleep well when their schedule matches their body’s internal clock—they just sleep at non-traditional times. Someone with DSPS may not necessarily experience insomnia.

Treatment and Management

Treating DSPS involves gradually shifting the sleep schedule earlier—a process known as chronotherapy. This is done by setting a consistent bedtime and wake time and adjusting them slowly, usually in 15- to 30-minute increments every few days. Over time, this can help reset the circadian clock.

Light therapy is another effective tool. Exposure to bright light (especially blue-enriched light) in the morning shortly after waking can help shift the body’s rhythm earlier. This technique may use a light box that mimics natural sunlight and suppresses melatonin production, encouraging earlier wakefulness.

Melatonin supplements may also be used, typically taken a few hours before the desired bedtime. When used correctly under the guidance of a healthcare provider, melatonin can help teens fall asleep earlier by signaling the body to begin its nighttime routine.

Maintaining strict sleep hygiene is crucial. This includes avoiding screens in the evening, limiting naps, creating a dark and quiet sleep environment, and using the bed only for sleep. Consistency is key; even on weekends, wake-up and bedtimes should not vary significantly, as this can undo progress.

In some cases, if DSPS significantly impairs daily functioning and does not respond to behavioral changes, professional help from a sleep specialist may be necessary. Cognitive behavioral therapy for insomnia (CBT-I), modified for circadian rhythm disorders, can also be beneficial.

Supporting Teens with DSPS

Parents, teachers, and caregivers play a vital role in helping teenagers manage DSPS. Understanding that the problem is biological—not behavioral—can reduce blame and conflict. Advocating for school policies like later start times and providing a supportive environment can make a significant difference.

It’s also important to involve teens in their treatment plan. Encouraging self-awareness and responsibility over their sleep habits empowers them to take control of their health. With the right combination of strategies and support, most teenagers with DSPS can shift their sleep schedules and experience better rest and daytime functioning.

Conclusion

Delayed Sleep Phase Syndrome in teenagers is a real and often misunderstood condition. It goes beyond simple night owl behavior and represents a significant misalignment between a teen’s internal clock and societal expectations. With the right diagnosis and a combination of behavioral strategies, light therapy, and consistent routines, teens can manage DSPS effectively. Recognizing and addressing this condition not only improves sleep but also enhances academic performance, mood, and overall well-being.

This article was created using OpenAI’s ChatGPT on May 16, 2025 and it was personally reviewed and edited by Brandon Peters, M.D. to ensure its accuracy. This use of augmented intelligence in this way allows the creation of health information that can be trusted.

Should Teenagers Sleep In to Improve Insomnia?

Teenagers and sleep are often at odds. Caught in a whirlwind of hormonal changes, academic pressures, social commitments, and digital distractions, many teens struggle to get enough rest. Among the most common sleep issues in adolescence is insomnia—defined as persistent difficulty falling or staying asleep, even when given the opportunity. It’s tempting to think that letting teenagers "sleep in" on weekends or non-school days might help them recover from sleep debt and alleviate symptoms of insomnia. But is sleeping in actually an effective solution, or could it make matters worse?

The relationship between sleeping in and insomnia is more complex than it might appear. While extra sleep may offer temporary relief, regularly sleeping in can disrupt the body's internal clock and potentially make insomnia worse over time. Understanding the root causes of insomnia in teenagers and exploring how sleeping in fits into the broader picture is key to promoting long-term, restorative sleep.

Understanding Insomnia in Teenagers

Insomnia in teens can stem from a variety of factors—biological, psychological, and environmental. As part of puberty, teenagers experience a natural shift in their circadian rhythms. This "sleep phase delay" causes them to feel sleepy later at night, often not until 11 p.m. or later, even if they must wake up early the next morning for school. When this natural tendency to go to bed late collides with early wake-up times, it leads to chronic sleep deprivation.

Compounding the problem, teenagers often face high levels of stress, whether from schoolwork, peer relationships, or family expectations. Mental health conditions such as anxiety or depression, which are prevalent in adolescence, can also contribute to insomnia. Additionally, excessive use of screens late at night—phones, computers, gaming consoles—can interfere with melatonin production and delay sleep onset.

Teen insomnia is not just about having a hard time falling asleep. It often includes waking up frequently during the night, waking too early in the morning, or feeling unrefreshed after what seems like a full night of rest.

The Appeal of Sleeping In

Given the amount of sleep deprivation many teenagers accumulate during the school week, it’s understandable that they want to "catch up" by sleeping in on weekends. For some teens, this might mean sleeping until 10 a.m., noon, or even later. Initially, sleeping in can help reduce short-term sleep debt and improve mood, alertness, and emotional regulation. It might even seem to improve sleep at first—if only because the teen is finally getting closer to the 8–10 hours of sleep recommended for their age group.

However, while sleeping in can offer temporary relief, it's not a long-term solution for insomnia. In fact, habitual sleeping in can actually contribute to a worsening of sleep problems by disrupting the body’s natural sleep-wake cycle.

Circadian Rhythm Disruption

One of the main risks of regularly sleeping in is the disruption of the circadian rhythm, the internal biological clock that regulates sleep and wake times. Our bodies rely on consistent patterns of light exposure, meals, physical activity, and other daily routines to stay synchronized. When a teenager sleeps in several hours later on weekends than during the week, it sends mixed signals to their internal clock.

This phenomenon is sometimes called "social jet lag," where the weekend sleep schedule mimics the effect of changing time zones. When Monday morning arrives and the teen must wake up early again, their body is still aligned with the late weekend schedule, making it harder to fall asleep on Sunday night and wake up early on Monday morning. This weekly shift can make insomnia worse, not better.

What’s a Better Approach?

Instead of relying on sleeping in, teenagers with insomnia benefit more from maintaining a consistent sleep schedule—even on weekends. Going to bed and waking up at roughly the same times every day helps train the body’s internal clock to promote better sleep. This doesn’t mean teens can never sleep an hour or so later on a weekend, but the key is consistency and avoiding extreme shifts.

Teens should aim to keep weekend wake-up times within one to two hours of their usual weekday schedule. This minimizes the effects of social jet lag and helps preserve the sleep drive that supports healthy sleep onset.

In addition to regular sleep schedules, addressing the underlying causes of insomnia is essential. Practicing good sleep hygiene—such as turning off screens at least an hour before bed, keeping the bedroom cool and dark, and avoiding caffeine late in the day—can go a long way toward improving sleep quality. Cognitive behavioral therapy for insomnia (CBT-I), a structured, non-medication-based therapy, has also proven effective in helping teenagers overcome persistent sleep difficulties.

For some teens, mindfulness practices, relaxation techniques, and limiting academic or extracurricular overload can also support better sleep. In more severe cases, medical or psychological evaluation may be necessary to rule out underlying conditions contributing to insomnia.

A Word on Naps and Catch-Up Sleep

It’s also worth noting that short naps (15–30 minutes) in the early afternoon can be beneficial for teens who are sleep-deprived—without the same negative impact as sleeping in late in the morning. Naps should be used strategically, however, as long or late-afternoon naps can interfere with the ability to fall asleep at night.

Similarly, occasional catch-up sleep (such as sleeping an extra hour or two on the weekend) can help relieve extreme fatigue, but it shouldn't become a regular pattern. The goal should be to establish a routine where teens naturally get enough sleep each night, rather than constantly recovering from deficits.

Conclusion

Teenagers need between 8 to 10 hours of sleep per night, and for many, getting that amount can feel like a challenge. While sleeping in might provide short-term relief from sleep deprivation, it's not a sustainable fix for insomnia. In fact, consistently sleeping late on weekends can disrupt circadian rhythms and deepen sleep problems during the week.

The most effective way to improve teen insomnia is by establishing consistent sleep and wake times, practicing healthy sleep habits, and addressing any emotional or environmental factors contributing to the problem. With the right approach, teens can train their bodies and minds to fall asleep more easily and enjoy the full benefits of restorative sleep—no need to hit snooze until noon.

This article was created using OpenAI’s ChatGPT on May 16, 2025 and it was personally reviewed and edited by Brandon Peters, M.D. to ensure its accuracy. This use of augmented intelligence in this way allows the creation of health information that can be trusted.

How Much Sleep Do Teenagers Need to Feel Rested by Age?

Sleep is one of the most essential components of a teenager’s overall health and well-being. During adolescence, the body undergoes dramatic physical, emotional, and cognitive changes, and sleep plays a critical role in supporting this growth. Yet, many teenagers consistently fail to get the sleep they need. Academic pressures, social activities, screen time, and shifting biological sleep rhythms all contribute to this widespread problem. Understanding how much sleep teenagers need at different stages of adolescence—and why—is crucial for parents, educators, and teens themselves to promote healthier sleep habits.

The Role of Sleep During Adolescence

Sleep is not just a period of rest—it is an active and restorative process. During sleep, the brain consolidates memories, processes emotions, and regulates hormones. For adolescents, who are navigating major developmental milestones, sleep is essential for proper growth, mental clarity, emotional regulation, and immune function.

One of the most important changes during adolescence is the shift in circadian rhythms, which is the body’s internal clock. This biological change, often referred to as “sleep phase delay,” causes teenagers to feel sleepy later at night and makes it difficult for them to fall asleep early. As a result, even if a teenager is exhausted, they may not be able to fall asleep before 11 p.m.—yet they still need to wake up early for school. This misalignment often leads to chronic sleep deprivation.

Recommended Sleep by Age Group

Ages 10–12 (Preteens/Early Adolescents)

At this age, children are transitioning from childhood into early adolescence. Their bodies and brains are still growing rapidly, and they require more sleep than older teens. The National Sleep Foundation and the American Academy of Sleep Medicine recommend 9 to 12 hours of sleep per night for children in this age group.

Preteens who consistently get at least 9 hours of sleep are more likely to perform well in school, have better emotional regulation, and engage in fewer behavioral problems. Sleep also supports the early hormonal changes associated with puberty, helping to regulate mood and promote physical development.

Ages 13–15 (Middle Adolescents)

Teenagers in early to middle adolescence need slightly less sleep than younger children, but the requirement is still high. Experts recommend that adolescents in this age range get 8 to 10 hours of sleep each night. However, many 13- to 15-year-olds are already beginning to experience sleep challenges due to increased academic responsibilities, extracurricular activities, and social life.

In addition, puberty accelerates around this age, and hormone levels fluctuate significantly. Adequate sleep is essential for mood stability, cognitive functioning, and physical energy. Lack of sleep during this stage has been linked to increased risk of depression, anxiety, and poor academic performance.

Many middle school and early high school students struggle to meet these sleep guidelines due to early school start times. In fact, data from the Centers for Disease Control and Prevention (CDC) show that only about 30% of middle and high school students get the recommended amount of sleep on school nights.

Ages 16–19 (Late Adolescents)

As teenagers move into late adolescence, the need for sleep remains substantial. The general recommendation for this age group is also 8 to 10 hours of sleep per night. Although some older teens may believe they can get by with less sleep, science says otherwise. Their brains are still maturing—particularly the prefrontal cortex, which governs decision-making, impulse control, and reasoning.

Teens aged 16 to 19 are often juggling even more responsibilities, such as part-time jobs, advanced coursework, sports, and driving. The combination of a busy schedule and the natural sleep delay of adolescence often results in reduced sleep time. Unfortunately, chronic sleep deprivation at this age is associated with serious consequences, including higher rates of car accidents, substance use, and mental health challenges.

It’s important to note that while sleep needs may gradually decline in adulthood, teenagers do not transition to adult sleep patterns until their early 20s. Even an 18- or 19-year-old in college typically still requires around 9 hours of sleep to feel fully rested.

Signs a Teen Isn’t Getting Enough Sleep

Regardless of age, there are common signs that a teenager is not getting enough sleep. These may include:

  • Difficulty waking up in the morning, even after a full night in bed

  • Falling asleep in class or during quiet activities

  • Mood swings, irritability, or increased emotional sensitivity

  • Trouble concentrating or remembering things

  • A drop in academic performance

  • Increased reliance on caffeine or energy drinks

  • Sleeping for long periods on weekends to “catch up” on rest

Sleep deprivation doesn’t just affect mood and performance; it can also impact physical health. Teens who are consistently sleep-deprived are at greater risk for obesity, high blood pressure, and weakened immune function.

The Impact of School Start Times

One major factor contributing to teen sleep deprivation is early school start times. Many high schools begin classes as early as 7:00 or 7:30 a.m., which means students often have to wake up before 6:00 a.m. to get ready and commute. This schedule is at odds with their biological sleep patterns, which naturally push them to fall asleep later.

Research has shown that delaying school start times to 8:30 a.m. or later can significantly improve students’ sleep duration, academic performance, and mental health. In response, some school districts across the United States and other countries have begun implementing later start times, and early results have been promising.

How Teens Can Improve Their Sleep

While many factors affecting teen sleep are outside their control, there are steps teens and families can take to improve sleep quality and quantity.

Creating a consistent sleep routine—even on weekends—can help regulate the body’s internal clock. Avoiding caffeine in the late afternoon and evening, reducing screen time before bed, and developing a relaxing bedtime routine can all contribute to better sleep. Exposure to natural light during the day, especially in the morning, also helps set a healthy circadian rhythm.

Encouraging a bedroom environment that is quiet, dark, and cool can promote restful sleep. Removing distractions like smartphones and tablets from the bedroom can also reduce the temptation to stay up late scrolling through social media or watching videos.

Parents and caregivers play a critical role by modeling good sleep habits and advocating for policies that support adolescent sleep health, such as later school start times and reduced homework loads.

Conclusion

Teenagers need more sleep than most people realize—anywhere from 8 to 12 hours depending on their age and stage of development. Despite this need, many teens fall short due to busy schedules, early school start times, and natural biological changes. Chronic sleep deprivation in adolescents is not a normal part of growing up; it’s a public health concern that can have serious short- and long-term consequences.

By understanding how much sleep teens truly need and taking steps to support healthy sleep habits, we can help adolescents thrive physically, emotionally, and academically. Whether it’s adjusting school policies, limiting screen time, or simply prioritizing rest, every action taken to protect teen sleep contributes to a stronger foundation for their future well-being.

This article was created using OpenAI’s ChatGPT on May 16, 2025 and it was personally reviewed and edited by Brandon Peters, M.D. to ensure its accuracy. This use of augmented intelligence in this way allows the creation of health information that can be trusted.