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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.

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.

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.

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.