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sleep environment

Why Does Insomnia Happen?

By Brandon Peters, MD

There are few things more frustrating than an inability to sleep. Insomnia may undermine your night’s rest, leading to important daytime consequences. Why does insomnia happen? Learn about the factors that may lead to an inability to sleep at night and consider what you might do about them.

Insomnia is defined as the inability to fall or stay asleep or sleep that is unrefreshing in the absence of another sleep disorder (such as sleep apnea). It is the most common of all the various sleep disorders, and it may be a significant problem in about 1 in 4 people. Nearly everyone has experienced some degree of insomnia, even if only transiently, but why does this occur?

Spielman’s theoretical model of insomnia underpins our current understanding of the disorder. This theory suggests that three things contribute to the development of chronic insomnia, including: predisposing, precipitating, and perpetuating factors.

Predisposition: The Threshold for Insomnia

It is believed that everyone has the capacity to develop difficult sleeping at night. This predisposition is likely genetically determined. Some of the contributions to it likely include our individual circadian rhythm, homeostatic sleep drive, and level of arousal. The circadian rhythm directs the timing of our sleep, and it may be either advanced or delayed in some people. The homeostatic sleep drive is dependent on the build of sleep-promoting chemicals, including the compound called adenosine. The longer we stay awake, the sleepier we become, due in part to these chemicals. Finally, the baseline level of arousal also is factored in. Some people are more “wired” – also likely due to varying levels of neurotransmitters that promote wakefulness – and this may make sleep disruption more likely.

The predisposition towards insomnia can be thought of as a threshold. Below the threshold at which insomnia will develop, you sleep fine. Given the proper scenario, however, and the balance tips toward sleep disruption. The things that provoke the development of insomnia are known as the precipitating factors.

The Precipitating Factors for Insomnia

What might cause insomnia? There will be some variability in what provokes insomnia in you. Triggers for insomnia may not be the same for every person. Something that is particularly disruptive to your sleep may have no effect on someone else’s. This varying sensitivity is normal, and it shouldn’t be a source of additional distress.

Some of the most common triggers for insomnia include stress, mood disorders, pain, substance use, and poor sleep environment. Stress of every imaginable type is highly likely to make it difficult to sleep. The night before a big examination or presentation at work may be fitful. Major life events such as moving, the loss of a job, relationship problems including divorce, or the death of a close friend or relative may also lead to insomnia. If these problems lead to anxiety or depression, the risk of insomnia may be compounded.

There are other causes of insomnia as well. In particular, chronic medical conditions, especially those that cause pain, may disrupt sleep. Sleep is usually an anesthetic state, in which pain is not sensed, but nevertheless pain can make it hard to fall asleep. There are certain substances that may contribute to difficulty falling or staying asleep as well. The most common, caffeine, is notorious for sleep disruption. Nicotine is another stimulating substance that disrupts sleep. Alcohol may cause drowsiness initially, but when it starts to wear off, sleep becomes fragmented. Other medications and drugs can also undermine sleep.

Finally, the sleep environment can also make it hard to sleep. If your bedroom is too warm or too cold, too bright, or too noisy, sleep may be fleeting. An uncomfortable bed, or none at all, may also cause insomnia. If someone is snoring nearby, or a baby cries out to be fed, sleep becomes light and fragmented. Studies have also shown that environmental noise, such as may be present in a busy city, can also disrupt sleep.

It should also be noted that working against your natural ability to sleep can also cause insomnia. If you try to sleep at a time that your body expects you to be awake (contradicting your circadian rhythm), you will likely lie awake. If you took a prolonged nap in the afternoon, your desire for sleep will be diminished due to a weakened sleep drive. In addition, if you are wound up after a fight with your spouse (with increased arousal), insomnia will likewise result.

Perpetuating an Inability to Sleep

Once your threshold for insomnia has been crossed, incited by one of the precipitating factors, you will find yourself lying awake at night. This may quickly pass, as occurs in acute insomnia. If you had insomnia due to an examination that has come and gone, for example, the difficulty sleeping goes away with it. However, there are scenarios where insomnia will persist, and unintentional behavioral or cognitive changes may actually make things worse.

If the precipitating factor has not resolved, it is very likely that it will continue to disrupt your sleep. It is possible to adapt to some of these triggers, depending on the nature of the disruption, but this may not always happen. Therefore, it can be important to identify the cause of the insomnia and try to resolve it. This will require a careful self-assessment of the factors that are important to your situation.

Unfortunately, some triggers are not easily remedied. It may require a tincture of time to grieve a death. A mood disorder may require medication or psychotherapy. A new baby may take months to sleep through the night. Focus on what you have control over, and avoid making things worse.

Many people with insomnia unintentionally make their insomnia more sustained. Several bad nights of sleep (or dozens, for that matter) may lead you to change your pattern of sleep. This can be particularly true if you find yourself waking and lying awake in the night. You may think, “I am not sleeping well, so I am going to go to bed earlier to try to get enough sleep.” By extending your time in bed, you have introduced a new problem: you are now going to bed earlier than your body wants you to. If your body says you will get sleepy at 11 PM, but you crawl into bed at 9 PM, guess what happens? You will now have trouble falling asleep as well.

There can be a lot of emotions and thoughts that become associated with insomnia. Chronic insomnia is deeply frustrating. Feelings of distress, hopelessness, inadequacy, and failure become part of the scenario. People who sleep well do not wake in the morning and assess how well they slept. Insomniacs often do. Sleep becomes a focus in insomnia, and when it does, it becomes a challenge. There can also be an element of catastrophization, in which the worst possible scenario is imagined during the periods of wakefulness: “If I don’t get enough sleep, I’m going to get fired.” Many of these thoughts and feelings must be defused, and cognitive behavioral therapy for insomnia (CBTI) can be very helpful in this regard.

It is clear that insomnia can happen for multiple reasons, as detailed above. Everyone has a specific threshold at which insomnia will develop. The precipitating factors will vary for each person, but there are common triggers related to stress, mood, pain, and substance use. Acute insomnia becomes chronic when behaviors, thoughts, and emotions change surrounding sleep. If you find yourself stuck in the pattern of insomnia, it can be helpful to speak to a sleep specialist to begin to make changes that can correct the problem. Insomnia can be treated effectively, so reach out to get the help that you need.

Source:

Kryger, MH et al. “Principles and Practice of Sleep Medicine.” Elsevier, 5th edition. 2011.

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.

What Is the Best Temperature for Sleep?

By Brandon Peters, MD

It can be a common battleground for couples who sleep together: What is the best temperature for sleep? Whether you are fighting over a thermostat setting, disagree on the best bedding or sleep attire, or are tugging or throwing covers from one side of the bed to the other, the effects of the bedroom temperature may be important. It may even cause insomnia. Learn the optimal room temperature for sleep, what to do if it is too warm or too cold at night, how to sleep better if the temperature is uncomfortable in the summer or winter, and what medical conditions may make it hard to regulate body temperature at night.

The Effects of the Bedroom Environment on Sleep

First, consider what makes for an ideal bedroom environment. Beyond reserving it as a space for sleep and removing electronics, including bright screens, it is also important to consider the roles of noise, light and temperature. As a general, the bedroom should be quiet, dark, and a cool but comfortable temperature. Why might this be?

Consider how you would be sleeping if you did not have a modern home. Imagine as it was 40,000 years ago, living as a Neanderthal. Normal bodily processes, including sleep and temperature regulation, would be closely tied to the natural environment. When it becomes dark and starts to cool off, your body temperature also drops and you would get sleepy and lie down for the night. These same patterns persist in the present day, driven by genetic and environmental factors.

The body temperature reaches its lowest point about 2 hours before your normal wake time. This means if you usually wake up at 6 a.m., your minimum core body temperature will occur at 4 a.m. If you have ever stayed up through the night, you may have noticed how cold you feel at this time. Most of the time we are asleep, however. Towards morning, as the sun approaches the eastern horizon, our body temperature starts to increase, following a consistent circadian (“near day”) pattern.

The pairing of our body temperature to the temperature of the environment helps to minimize heat loss overnight. It may promote normal features of sleep, including the patterns of deep and REM sleep. But what is the best temperature for sleep?

What is the Ideal Bedroom Temperature?

Sleep experts at the National Sleep Foundation recommend that there is an ideal bedroom temperature range to promote healthy sleep. These ranges may vary somewhat based on age. Consider these recommendations:

  • Babies and toddlers: 65 to 70 degrees Fahrenheit (18 to 21 degrees Celsius)

  • Children and adults: 60 to 67 degrees Fahrenheit (15 to 19 degrees Celsius)

It may be best to use a smart thermostat to regulate the temperature of your home, turning down the temperature setting overnight. A degree variation from these recommendations, higher or lower, likely has little effect. Though these suggestions may be comfortable for most people, respect your body. If you feel too cool, or too warm, you may have to make some adjustments.

What If It Is Too Cold?

If you sleep in an environment that is too cold at night, your body will have to work to maintain your core body temperature at the desired level. This may provoke shivering, as the muscles of the body contract to produce warming energy. Feeling cold at night may also provoke awakenings. This may be helpful to make changes in the environment, such as pulling up covers or snuggling close to a bed partner. Unfortunately, it may also contribute to poor sleep quality and insomnia.

In extreme scenarios, such as sleeping unprotected in the woods with inadequate clothing, may provoke a serious decrease in the body temperature that can lead to hypothermia and even death due to exposure.

What If It Is Too Warm?

Almost everyone has experienced a night when their bedroom was too warm, making it hard to fall asleep. This may occur in the summer on especially hot days. What occurs when the bedroom is too warm at night?

Not surprisingly, the most common side effect of feeling too warm at night is sweating. The body regulates its temperature by increasing blood flow to the periphery (including to the hands and feet). It also promotes evaporative cooling by causing sweating. Just like during wakefulness, sweating may start in the hair of the head, armpits, and groin. If additional cooling is needed, the torso (chest, abdomen, or back) or extremities (arms and legs) may become slick with sweat.

Beyond feeling sweaty, there may be restless sleep with frequent awakenings and position changes contributing to insomnia. Attempts may be made to flip a pillow over to its cool side, to throw off covers, or to move away from a bed partner. It may be necessary to remove clothing, such as shedding warm pajamas or other sleep attire. It may help to open a window overnight, so the natural cooling of the environment can occur in the bedroom as well. In some cases, major adjustments may be necessary, including changes in the mattress or pillow (such as avoiding memory foam) to improve temperature regulation during sleep.

If the body temperature increases to a dangerous level, the effects of the resulting fever may cause serious consequences, including loss of consciousness, seizures, coma, and even death.

What About Humidity?

Beyond temperature, it is also important to consider the effects of humidity on sleep. When air is cold, or warm, there are changes in the amount of moisture that the air contains. In the winter, colder air may be more dry and this may affect the ability to breathe optimally during sleep. This may lead to nasal dryness or congestion, increasing snoring or sleep apnea, or even may make it more likely to develop upper respiratory illnesses like colds or influenza. Humidifier use, especially in a dry climate, may make it more comfortable to breathe at night and this may improve sleep. 

How to Sleep Better During Cold Weather 

What should you do if you are having difficulty sleeping due to a bedroom that is too cool? This may be more likely during cold weather during the winter months. It may also occur if you share a bedroom with someone who prefers a cooler temperature. Consider these options:

  • Wear warmer pajamas (think flannel)

  • Use extra blankets or an electric heated blanket

  • Put heavier bedding on the bed (such as a heavy comforter or duvet)

  • Turn up the thermostat

  • Consider a space heater (kept away from flammable materials and with a safety timer feature to automatically turn off)

  • Cuddle with a bed partner or pet

  • Wear warm socks to bed

  • Drink a warm beverage before bedtime (but avoid caffeine)

  • Take a hot shower or bath prior to coming to bed

  • In some cases, you may need to sleep in a different bedroom from someone who has a starkly different temperature preference at night.

How to Sleep Better During Warm Weather 

What if it is just too hot at night? Fortunately, there may be some helpful interventions to cool off at night when the weather gets too warm. Review these suggestions:

  • Choose light, breathable sleep attire (such as cotton) or sleep naked

  • Remove heavy blankets and bedding and consider using just a sheet

  • Set up a circulating fan near the bed

  • Use the air conditioning overnight

  • Take a cool shower or bath prior to bedtime

  • Leave the windows open at night

  • Avoid artificial memory foam mattresses or pillows

  • Consider the use of cooling devices (including pillows, sheets, pads, or even headgear)

If the unpleasant weather is due to a summer heat wave, hopefully it breaks quickly and your sleep will promptly return to normal as it does.

Is Poor Temperature Regulation a Medical Condition?

It is normal to question whether a difficulty regulating the body temperature at night is due to a medical condition. In some cases, such as an acute illness associated with a fever, it clearly is. There may be other chronic medical conditions that affect temperatures at night as well.

The most common conditions that impact the body temperature overnight are related to hormones. Thyroid problems often cause sweats or chills, correlating with hyperthyroidism or hypothyroidism, respectively. In addition, night sweats may be linked to the hormonal changes of menopause.

Sweating may occur due to the side effects of some medications. Sleep disorders such as sleep apnea can lead to frequent sweats due to the associated bursts of cortisol (stress hormone). Obesity, anxiety, and even hypoglycemia may cause sweats at night.

There are rare conditions that can cause elevated temperatures at night, including infectious diseases like tuberculosis and even some cancers. If the temperature regulation problems persist without explanation, especially in the context of other symptoms, it may be worth getting checked out. 

Conclusion

If you have difficulty sleeping comfortably at night, review whether you can make some changes to help yourself to sleep better. If you struggle with chronic insomnia, consider cognitive behavioral therapy for insomnia (CBTI). Fortunately, speaking with a board-certified sleep physician can often provide you the answers you need to sleep normally throughout the year, tolerating the normal variation of nighttime temperatures.

Sources:

Troynikov O, et al. “Sleep environments and sleep physiology: A review.” J Therm Bio. 2018 Dec;78:192-203. doi: 10.1016/j.jtherbio.2018.09.012. Epub 2018 Oct 5.

Szymusiak R. “Body temperature and sleep.” Handb Clin Neurol. 2018;156:341-351. doi: 10.1016/B978-0-444-63912-7.00020-5. 

Roth T, et al. “A novel forehead temperature-regulating device for insomnia: a randomized clinical trial.Sleep. 2018 May 1:41(5). doi: 10.1093/sleep/zsy045.

Lappharat S, et al. “Effects of Bedroom Environmental Conditions on the Severity of Obstructive Sleep Apnea.” J Clin Sleep Med. 2018 Apr 15;14(4):565-573. doi: 10.5664/jcsm.7046.

Kryger MH, et al. Principles and Practice of Sleep Medicine. ExpertConsult, 6th edition, 2017.

Optimizing the Bedroom Environment for Sleep

By Brandon Peters, MD

It may seem like a rather inconsequential thing, but you shouldn’t underestimate the importance of the bedroom environment to sleep. It may be the one thing that helps you quickly transition to rest—or the thing that keeps you tossing and turning all night in fits of insomnia.

What is the Sleep Environment?

The sleep environment is simply the space in which you attempt to sleep. It may vary as our lifestyle dictates. For example, a business trip, a prolonged flight, or a camping expedition may result in sleep environments as variable as a hotel, an airplane, or a tent. Ideally the space in which we attempt to sleep would be conducive to our efforts.

Not everyone will agree on what makes for the best features of a chosen sleep environment. This may lead to relationship problems between bed partners requiring that we attempt to find common ground. There are a handful of common variables, however, that should be acknowledged:

1. Noise

In general, it is easiest to sleep in a quiet place. Whether it is a vestige of surviving in the wilderness or for some other reason, we tend to respond to external stimuli while asleep. In other words, if we hear a noise, we will wake up. This is advantageous if a lion is trying to eat us while we sleep in a cave, but when the neighbor is blasting the radio too loud it is less desirous.

When we hear noise we may not come fully to consciousness, but we certainly will leave deeper stages of sleep. If we are trying to sleep in a noisy environment, our ability to enjoy restful deep sleep will be compromised. It is therefore best to try to keep things as quiet as possible.

2. Temperature

Most people prefer to sleep in a slightly cool environment. You may bury yourself in thick blankets, but no matter how you choose to sleep, you no doubt want to be at the right temperature. Most people should target a bedroom temperature between 60 and 67 degrees. If you wake up shivering or drenched in sweat, the temperature of your sleep environment is a problem. Why is it a problem? It woke you up! When determining the best options for your sleep environment always remember that your goal is to sleep soundly.

3. Lighting

The amount of light can impact how well you sleep. In general, it is best to sleep in darkness. You may prefer to have a nightlight (especially for safety reasons if you get up during the night). Our body’s natural circadian rhythm tends to want to follow the natural dark-light cycle. Therefore, even if you are working nights, you should probably try to keep it dark when you are trying to sleep.

4. Bedding/Mattress

There are a variety of options in how people choose to sleep and there is no one right way. Variations may relate to personal preference, cultural practices, financial opportunities, and many other factors. Some things to consider may be the use of a mattress and its character (such as size and firmness). You may prefer only a sheet or mounds of blankets or a thick comforter.

5. Preserving the Sleep Space

The bedroom can sometimes become a multipurpose room, especially if you have space constraints (such as those in college dorms). You may choose to have a television in your bedroom or even sleep with your favorite pet at your side.

The bedroom space should be a relaxing place and not a source of stress or stimulation. As part of the general guidelines for good sleep, bedrooms are for sleep and sex, not for other activities. You should not be doing work there. Various electronics (televisions, gaming systems, computers, telephones, and other gadgets) should be removed from your sleep environment. Not only will they prevent you from falling asleep, they may become disruptive at inopportune times and wake you back up.

By carefully considering the variables in your sleep environment and preserving the space to foster a good night’s sleep, you will be able to rest better and wake up ready to have a successful and productive day.

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.

Insomnia Treatment Option: Stimulus Control

Insomnia is a prevalent sleep disorder characterized by difficulty falling asleep, staying asleep, or waking up too early. This condition can significantly impact daily functioning and overall quality of life. Among various treatment options available for insomnia, stimulus control therapy (SCT) is a highly effective behavioral intervention designed to help individuals improve their sleep patterns. This article will explore the principles of stimulus control, its implementation, and its benefits in treating insomnia.

Understanding Stimulus Control

Stimulus control therapy is based on the idea that certain stimuli in a person’s environment can become associated with sleep difficulties. These stimuli can include the bed, the bedroom, and even the act of trying to sleep itself. When a person spends too much time awake in bed or associates their sleeping environment with anxiety or frustration, it can create a cycle of insomnia.

The goal of stimulus control therapy is to re-establish a healthy relationship with sleep by modifying these associations. SCT encourages individuals to create a conducive sleep environment and develop habits that signal to their bodies that it is time to sleep. This behavioral approach is often part of a broader cognitive-behavioral therapy for insomnia (CBT-I) framework, which is considered one of the most effective treatments for chronic insomnia.

Key Principles of Stimulus Control Therapy

The implementation of stimulus control therapy involves several key principles that focus on creating a strong association between the bed and sleep. These principles are as follows:

  1. Use the Bed Only for Sleep and Intimacy: One of the foundational concepts of SCT is to reserve the bed for sleep and sexual activity only. Engaging in other activities, such as watching TV, working, or eating in bed, can weaken the association between the bed and sleep. By limiting activities in bed, individuals reinforce the idea that the bed is a place for sleep, thereby promoting relaxation when they lie down.

  2. Establish a Consistent Sleep Schedule: Maintaining a regular sleep-wake schedule is essential for regulating the body's internal clock. SCT encourages individuals to go to bed and wake up at the same time every day, even on weekends. Consistency helps reinforce the body’s natural sleep-wake cycle, making it easier to fall asleep and wake up feeling refreshed.

  3. Get Out of Bed if Unable to Sleep: If a person cannot fall asleep within about 20 minutes, they should get out of bed and engage in a quiet, relaxing activity in another room until they feel sleepy. This practice helps to prevent negative associations with the bed and reduces frustration. It allows the individual to return to bed only when they feel drowsy, reinforcing the connection between the bed and sleep.

  4. Limit Naps: While napping can be beneficial, excessive daytime sleep can disrupt the natural sleep-wake cycle and make it more challenging to fall asleep at night. SCT suggests limiting naps to 20-30 minutes and avoiding them in the late afternoon or evening to maintain sleep pressure for nighttime.

  5. Create a Relaxing Pre-Sleep Routine: Establishing a calming pre-sleep routine can signal to the body that it is time to wind down. Engaging in relaxing activities, such as reading, taking a warm bath, or practicing relaxation techniques, can help prepare the mind and body for sleep.

Implementation of Stimulus Control Therapy

Implementing stimulus control therapy requires commitment and consistency. Here are steps to help individuals effectively incorporate SCT into their routine:

  1. Assess Sleep Patterns: Begin by keeping a sleep diary for one to two weeks to identify sleep patterns, bedtime routines, and factors that may be contributing to insomnia. This assessment will provide valuable insights into areas for improvement.

  2. Set a Regular Sleep Schedule: Determine a target bedtime and wake-up time that allows for adequate sleep duration. Aim for 7-9 hours of sleep each night and be consistent with this schedule.

  3. Create a Comfortable Sleep Environment: Ensure that the bedroom is conducive to sleep. This includes a comfortable mattress and pillows, optimal room temperature, and minimal noise and light disturbances. Consider using blackout curtains, earplugs, or white noise machines if needed.

  4. Practice Relaxation Techniques: Incorporate relaxation techniques into the pre-sleep routine. Techniques such as deep breathing, progressive muscle relaxation, or meditation can help calm the mind and prepare the body for sleep.

  5. Monitor Progress: After implementing stimulus control therapy, continue to keep a sleep diary to track improvements in sleep patterns and any remaining challenges. Adjust the approach as needed and remain patient, as behavioral changes may take time to yield results.

Benefits of Stimulus Control Therapy

Stimulus control therapy offers numerous benefits for individuals struggling with insomnia:

  1. Improved Sleep Quality: By reinforcing healthy sleep associations, SCT can lead to more restful and uninterrupted sleep. Individuals often report feeling more refreshed and energized upon waking.

  2. Reduction in Sleep Anxiety: By changing negative associations with sleep and the bedroom, individuals can experience reduced anxiety related to falling asleep. This newfound relaxation can further facilitate better sleep quality.

  3. Behavioral Change: SCT promotes long-term behavioral changes that contribute to better sleep hygiene. These changes can help individuals develop healthier habits surrounding sleep, enhancing overall well-being.

  4. Minimal Side Effects: Unlike pharmacological treatments for insomnia, stimulus control therapy is a non-invasive and natural approach. It does not come with the risk of dependency or adverse side effects commonly associated with sleep medications.

  5. Empowerment and Self-Efficacy: SCT encourages individuals to take control of their sleep patterns and make conscious choices to promote better sleep. This empowerment can foster a greater sense of self-efficacy and improve overall mental health.

Conclusion

Stimulus control therapy is a valuable treatment option for individuals struggling with insomnia. By focusing on the environmental and behavioral factors that influence sleep, SCT can help individuals re-establish a healthy relationship with sleep and improve their overall sleep quality. With commitment, consistency, and a willingness to change, those suffering from insomnia can experience significant benefits from this behavioral approach. As part of a comprehensive treatment plan that may include cognitive-behavioral strategies and relaxation techniques, stimulus control therapy offers a pathway to restful nights and rejuvenated days. If insomnia persists, consulting a healthcare professional is advisable to explore additional treatment options tailored to individual needs.

This article was created using OpenAI’s ChatGPT on October 3, 2024 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.

Unraveling the Mystery: Why Does Your Heart Rate Spike During Sleep?

Sleep is a crucial aspect of our daily lives, allowing our bodies to rest, recover, and rejuvenate. However, for some individuals, the tranquility of sleep is disrupted by sudden spikes in heart rate. This phenomenon, known as sleep-related tachycardia, can be both bewildering and concerning. In this article, we will delve into the underlying reasons behind these nocturnal heart rate fluctuations and shed light on the potential causes and remedies.

The Basics of Heart Rate and Sleep

Before we delve into the reasons for heart rate spikes during sleep, it's essential to understand the fundamentals of heart rate regulation and the sleep cycle. The heart rate is a measure of how many times your heart beats per minute. During sleep, our body undergoes several stages, including light sleep, deep sleep, and REM (rapid eye movement) sleep. Each stage has a distinct impact on heart rate and other bodily functions.

Normal Heart Rate Variations During Sleep

Fluctuations in heart rate during sleep are normal and can be influenced by various factors, such as age, overall health, and physical fitness. Typically, the heart rate gradually decreases as you transition from wakefulness to deep sleep. During REM sleep, when vivid dreaming occurs, heart rate variability is higher, reflecting increased brain activity.

Causes of Heart Rate Spikes During Sleep

Sleep Apnea: One common cause of sleep-related tachycardia is obstructive sleep apnea (OSA). In this condition, the airway becomes partially or completely blocked during sleep, leading to breathing pauses and subsequent drops in oxygen levels. The body responds by increasing the heart rate to compensate for the reduced oxygen supply as the brainstem triggers a release of cortisol to trigger an awakening and restored breathing.

Nightmares and Sleep Disorders: Intense nightmares, night terrors, or other sleep disorders can trigger a sudden spike in heart rate. These conditions can activate the body's "fight or flight" response, part of the autonomic nervous system, causing an adrenaline rush and increased heart rate.

Anxiety and Stress: Persistent anxiety and stress can disrupt sleep patterns and lead to an increased heart rate during sleep. The mind-body connection plays a significant role in regulating heart rate, and heightened emotional states can result in physiological changes, including elevated heart rate.

Medications and Stimulants: Certain medications, such as beta-blockers or stimulants like caffeine or nicotine, can interfere with sleep and cause an elevated heart rate during the night.

Potential Health Implications

While occasional heart rate spikes during sleep might not be cause for alarm, persistent or severe tachycardia (with a rate of 100 or more beats per minute) can be indicative of underlying health issues. Individuals experiencing recurrent episodes of elevated heart rate during sleep should consider consulting a healthcare professional to rule out any underlying conditions or identify appropriate treatment options.

Tips for Managing Sleep-Related Tachycardia

  1. Maintain a Consistent Sleep Schedule: Establishing a regular sleep routine helps promote better sleep quality and reduces the likelihood of heart rate fluctuations during sleep.

  2. Create a Relaxing Sleep Environment: Ensure your sleep environment is conducive to relaxation, free from distractions, and kept at a comfortable temperature. Consider the role of light, noise, and other environmental disruptions (including a bed partner or pets).

  3. Practice Stress Reduction Techniques: Incorporating stress reduction techniques like meditation, deep breathing exercises, or engaging in a calming bedtime routine can help lower overall anxiety levels and promote better sleep.

  4. Avoid Substances: Limit the intake of substances such as caffeine, nicotine, and alcohol, as they can interfere with sleep quality and contribute to heart rate irregularities.

Conclusion

While occasional spikes in heart rate during sleep can be a normal response to various factors, persistent or severe tachycardia during sleep should not be ignored. By understanding the potential causes and adopting healthy sleep habits, individuals can take proactive steps towards managing sleep-related heart rate fluctuations. If concerns persist or worsen, consulting a healthcare professional is advisable to ensure optimal sleep and overall well-being.

This article was created using OpenAI’s ChatGPT on July 8, 2023 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.