AHI Calculator
Use our free Ahicalculator Calculator to get personalized health results. Based on validated medical formulas and clinical guidelines.
Formula
AHI = (Total Apneas + Total Hypopneas) / Total Sleep Time (hours)
The AHI is calculated by dividing the total number of apnea and hypopnea events by total sleep time in hours. An apnea is a complete cessation of airflow for at least 10 seconds, while a hypopnea is a 30%+ reduction in airflow with oxygen desaturation or arousal. Normal AHI < 5, Mild 5-14, Moderate 15-29, Severe >= 30.
Worked Examples
Example 1: Moderate Sleep Apnea Assessment
Problem: A patient had 20 apneas and 30 hypopneas during 7 hours of recorded sleep. 15 apneas were obstructive and 5 were central. Calculate the AHI.
Solution: Total events = 20 apneas + 30 hypopneas = 50 events\nTotal sleep time = 7 hours\nAHI = 50 / 7 = 7.14 events/hour\nApnea Index = 20 / 7 = 2.86/hr\nHypopnea Index = 30 / 7 = 4.29/hr\nObstructive Apnea Index = 15 / 7 = 2.14/hr\nCentral Apnea Index = 5 / 7 = 0.71/hr\nSeverity: Mild (AHI 5-14.9)
Result: AHI = 7.1 events/hour | Severity: Mild Sleep Apnea | Predominant Type: Obstructive
Example 2: Severe Sleep Apnea Assessment
Problem: A patient had 120 apneas and 80 hypopneas during 6 hours of sleep. 100 apneas were obstructive, 15 central, 5 mixed. Calculate AHI and indices.
Solution: Total events = 120 + 80 = 200 events\nTotal sleep time = 6 hours\nAHI = 200 / 6 = 33.3 events/hour\nApnea Index = 120 / 6 = 20.0/hr\nHypopnea Index = 80 / 6 = 13.3/hr\nOAI = 100 / 6 = 16.7/hr\nCAI = 15 / 6 = 2.5/hr\nSeverity: Severe (AHI >= 30)
Result: AHI = 33.3 events/hour | Severity: Severe Sleep Apnea | CPAP strongly recommended
Frequently Asked Questions
What is the Apnea-Hypopnea Index (AHI)?
The Apnea-Hypopnea Index (AHI) is the primary metric used to diagnose and classify the severity of sleep apnea. It measures the average number of apnea and hypopnea events per hour of sleep during a sleep study (polysomnography). An apnea is a complete cessation of airflow lasting at least 10 seconds, while a hypopnea is a partial reduction in airflow (at least 30 percent) lasting at least 10 seconds with a 3-4 percent oxygen desaturation or an arousal. The AHI is calculated by adding the total number of apneas and hypopneas and dividing by total sleep time in hours. It is the gold standard for sleep apnea diagnosis used by the American Academy of Sleep Medicine.
How is sleep apnea severity classified using AHI?
The American Academy of Sleep Medicine classifies sleep apnea severity based on AHI values as follows: Normal is an AHI below 5 events per hour, mild obstructive sleep apnea is 5 to 14 events per hour, moderate obstructive sleep apnea is 15 to 29 events per hour, and severe obstructive sleep apnea is 30 or more events per hour. These thresholds are clinically important because they guide treatment decisions. Mild cases may be managed with positional therapy or oral appliances, moderate cases typically benefit from CPAP therapy, and severe cases almost always require CPAP or surgical intervention. The severity classification also has prognostic significance for cardiovascular risk assessment.
What happens during a sleep study to measure AHI?
A polysomnography (sleep study) is an overnight test conducted in a sleep laboratory or at home that monitors multiple physiological parameters during sleep. Sensors measure airflow through the nose and mouth, respiratory effort from chest and abdominal belts, blood oxygen saturation via pulse oximetry, brain activity through electroencephalography (EEG), eye movements, muscle activity, heart rhythm, and body position. A sleep technologist scores each respiratory event as an apnea, hypopnea, or other event type according to AASM scoring rules. The total number of scored events is then divided by total sleep time to calculate the AHI. Home sleep apnea tests can also estimate AHI but measure fewer parameters.
Can AHI change over time or with treatment?
Yes, AHI can change significantly based on multiple factors. Weight gain often worsens AHI because increased soft tissue around the airway promotes collapse, while weight loss of 10 to 15 percent can reduce AHI by 30 to 50 percent. Alcohol consumption before sleep, sedative medications, and sleeping on the back (supine position) typically increase AHI. CPAP therapy effectively reduces AHI to near-normal levels (below 5) in most patients when used consistently. Oral appliances reduce AHI by an average of 50 to 60 percent. Surgical interventions such as uvulopalatopharyngoplasty (UPPP) or maxillomandibular advancement can permanently reduce AHI. Aging also tends to gradually increase AHI over time.
What is the Respiratory Disturbance Index (RDI) and how does it differ from AHI?
The Respiratory Disturbance Index (RDI) is a broader measure that includes all respiratory events counted in the AHI (apneas and hypopneas) plus respiratory effort-related arousals (RERAs), which are breathing disturbances that cause sleep fragmentation but do not meet the full criteria for apnea or hypopnea. The RDI is always equal to or greater than the AHI for the same patient. Some sleep centers use the RDI rather than AHI for diagnosis, which can result in a higher severity classification. Insurance companies and clinical guidelines may reference either metric, so it is important to know which index is being reported. The RDI may better capture sleep-disordered breathing in patients with upper airway resistance syndrome.
How does body position affect AHI values?
Body position significantly influences AHI in many sleep apnea patients, a phenomenon known as positional obstructive sleep apnea. Sleeping in the supine (back) position typically produces the highest AHI because gravity pulls the tongue and soft palate backward, narrowing the airway. Studies show that supine AHI can be twice as high as lateral (side) AHI in positional OSA patients. Approximately 50 to 60 percent of OSA patients have positional sleep apnea, where their supine AHI is at least twice their non-supine AHI. Positional therapy using specialized pillows, backpack-style devices, or vibrating position trainers can be an effective treatment for mild to moderate positional OSA. Sleep studies report both overall AHI and position-specific AHI values.