• Definition
    • Polysomnography is a sleep study. This test records certain body functions as you sleep, or try to sleep. Polysomnography is used to diagnose sleep disorders.

  • Alternative Names
    • Sleep study; Polysomnogram; Rapid eye movement studies; Split night polysomnography; PSG; OSA - sleep study; Obstructive sleep apnea - sleep study; Sleep apnea - sleep study

  • How the Test is Performed
    • There are two states of sleep:

      • Rapid eye movement (REM) sleep. Most dreaming occurs during REM sleep. Under normal circumstances, your muscles, except for your eyes and breathing muscles, do not move during this stage of sleep.
      • Non-rapid eye movement (NREM) sleep. NREM has three stages that can be detected by brain waves (EEG).

      REM sleep alternates with NREM sleep about every 90 minutes. A person with normal sleep most often has four to five cycles of REM and NREM sleep during a night.

      A sleep study measures your sleep cycles and stages by recording:

      • Air flow in and out of your lungs as you breathe
      • The level of oxygen in your blood
      • Body position
      • Brain waves (EEG)
      • Breathing effort and rate
      • Electrical activity of muscles
      • Eye movement
      • Heart rate

      Polysomnography can be done either at a sleep center or in your home.


      Full sleep studies are most often done at a special sleep center.

      • You will be asked to arrive about 2 hours before bedtime.
      • You will sleep in a bed at the center. Many sleep centers have comfortable bedrooms, similar to a hotel.
      • The test is most often done at night so that your normal sleep patterns can be studied. If you are a night shift worker, many centers can perform the test during your normal sleep hours.
      • Your health care provider will place electrodes on your chin, scalp, and the outer edge of your eyelids. You will have monitors to record your heart rate and breathing attached to your chest. These will remain in place while you sleep.
      • The electrodes record signals while you are awake (with your eyes closed) and during sleep. The test measures the amount of time it takes you to fall asleep and how long it takes you to enter REM sleep.
      • A specially-trained health care provider will observe you while you sleep and note any changes in your breathing or heart rate.
      • The test will record the number of times that you either stop breathing or almost stop breathing.
      • There are also monitors to record your movements during sleep. Sometimes a video camera records your movements during sleep.

      AT HOME

      You may be able to use a sleep study device in your home instead of at a sleep center to help diagnose sleep apnea. You either pick up the device at a sleep center or a trained therapist comes to your home to set it up.

      Home testing may be used when:

      • You are under the care of a sleep specialist.
      • Your sleep doctor thinks you have obstructive sleep apnea.
      • You do not have other sleep disorders.
      • You do not have other serious health problems, such as heart disease or lung disease.
  • How to Prepare for the Test
    • Whether the test is at a sleep study center or at home, you prepare the same way. Unless directed to do so by your doctor, do not take any sleep medicine and do not drink alcohol or caffeinated beverages before the test. They can interfere with your sleep.

  • Why the Test is Performed
    • The test helps diagnose possible sleep disorders, including obstructive sleep apnea (OSA). Your health care provider may think you have OSA because you have these symptoms:

      • Daytime sleepiness (falling asleep during the day)
      • Loud snoring
      • Periods of holding your breath while you sleep, followed by gasps or snorts
      • Restless sleep

      Polysomnography can also diagnose other sleep disorders:

      • Periodic limb movements disorder (moving your legs often during sleep)
      • REM behavior disorder (physically "acting out" your dreams during sleep)
  • Normal Results
    • A sleep study tracks:

      • How often you stop breathing for at least 10 seconds (called apnea)
      • How often your breathing is partly blocked for 10 seconds (called hypopnea)
      • Your brain waves and muscle movements during sleep

      Most people have short periods during sleep where their breathing stops or is partly blocked. The Apnea-Hypopnea Index (AHI) is the number of apnea or hypopnea measured during a sleep study. AHI results are used to diagnose obstructive sleep apnea.

      Normal test result show:

      • Few or no episodes of stopping breathing. An AHI of less than 5 is considered normal.
      • Normal patterns of brain waves and muscle movements during sleep.
  • What Abnormal Results Mean
    • In adults, test results above 5 may mean you have sleep apnea:

      • 5 to 15 is mild sleep apnea
      • 15 to 30 is moderate sleep apnea
      • More than 30 is severe sleep apnea

      To make a diagnosis and decide on treatment, the sleep specialist must also look at:

      • Other findings from the sleep study
      • Your medical history and sleep-related complaints
      • Your physical exam
  • References
    • Chokdroverty S, Avidan AY. Sleep and its disorders. In: Daroff RB, Jankovic J, Mazziotta JC, Pomeroy SL, eds. Bradley's Neurology in Clinical Practice. 7th ed. Philadelphia, PA: Elsevier; 2016:chap 102.

      Qaseem A, Holty JE, Owens DK, Dallas P, Starkey M, Shekelle P; Clinical Guidelines Committee of the American College of Physicians. Management of obstructive sleep apnea in adults: a clinical practice guideline from the American College of Physicians. Ann Intern Med. 159(7):471-483. PMID: 24061345

      Vaughn BV. Disorders of sleep. In: Goldman L, Schafer AI, eds. Goldman's Cecil Medicine. 25th ed. Philadelphia, PA: Elsevier Saunders; 2016:chap 405.

      Wakefield TL, Lam DJ, Ishman SL. Sleep apnea and sleep disorders. In: Flint PW, Haughey BH, Lund LJ, et al, eds. Cummings Otolaryngology: Head & Neck Surgery. 6th ed. Philadelphia, PA: Elsevier Saunders; 2015:chap 18.