Polysomnography (PSG) is a comprehensive sleep study used to diagnose various sleep disorders. It is considered the gold standard for evaluating sleep patterns, disturbances, and related physiological functions. By monitoring multiple body functions during sleep, polysomnography provides invaluable insights into a person’s sleep health, aiding clinicians in identifying problems that affect sleep quality and overall well-being.
What is Polysomnography?
The term “polysomnography” is derived from Greek, where “poly” means many, “somno” means sleep, and “graphy” means recording. Essentially, it refers to the simultaneous recording of various physiological parameters during sleep. This study is usually conducted apnee del sonno overnight in a specialized sleep lab or sometimes in the comfort of the patient’s home using portable devices.
How Does Polysomnography Work?
During a polysomnographic study, several sensors are attached to the patient’s body to record data. These sensors monitor:
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Brain activity (EEG): Electrodes placed on the scalp record brain waves to determine different sleep stages, including REM (rapid eye movement) and non-REM sleep.
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Eye movements (EOG): Electrodes near the eyes detect eye movement, important for distinguishing REM sleep.
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Muscle activity (EMG): Sensors placed on the chin and legs track muscle tone and movements, helping to identify disorders like restless leg syndrome.
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Heart rate and rhythm (ECG): Electrodes monitor cardiac activity.
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Breathing patterns: Nasal airflow sensors, chest and abdominal belts measure breathing effort and airflow to detect apneas or hypopneas (pauses or reductions in breathing).
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Oxygen levels: A pulse oximeter attached to the finger measures blood oxygen saturation.
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Body position: Sensors may track how body position affects breathing.
All this data is recorded continuously as the patient sleeps, typically for 6 to 8 hours.
Why is Polysomnography Important?
Polysomnography plays a crucial role in diagnosing sleep disorders such as:
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Obstructive Sleep Apnea (OSA): Characterized by repeated airway blockages causing interrupted breathing during sleep.
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Narcolepsy: A neurological disorder causing excessive daytime sleepiness and sudden muscle weakness.
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Periodic Limb Movement Disorder (PLMD): Involuntary limb movements that disrupt sleep.
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REM Sleep Behavior Disorder: Acting out dreams physically due to lack of normal muscle paralysis during REM sleep.
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Insomnia and Other Sleep Disorders: Helps understand underlying causes.
By accurately diagnosing these conditions, PSG guides effective treatment, which may include lifestyle changes, CPAP therapy for sleep apnea, medication, or other interventions.
What to Expect During a Polysomnography Test?
Before the test, patients are usually advised to avoid caffeine, alcohol, and certain medications that might affect sleep. On the night of the study, electrodes and sensors are carefully attached to the body with adhesive patches and wires connected to a recording device. While it might feel cumbersome, the environment is made as comfortable as possible.
A sleep technician monitors the study from another room, ensuring data quality and making notes of any disturbances. After the study, a sleep specialist reviews the recorded data to provide a detailed report and diagnosis.
Advancements and Home-Based Polysomnography
With technological progress, portable PSG devices allow some patients to undergo sleep studies at home. While less comprehensive than lab-based studies, home polysomnography offers greater convenience and has improved accessibility for many patients.
In summary, polysomnography remains an essential diagnostic tool that provides a window into the complex physiology of sleep. By revealing the causes of sleep disturbances, it enables personalized treatment plans that improve health, quality of life, and daytime functioning.