Apnea hypopnea index (AHI)
AHI | Rating |
---|---|
<5 | Normal (no Sleep Apnea) |
5-15 | Mild Sleep Apnea |
15-30 | Moderate Sleep Apnea |
>30 | Severe Sleep Apnea |
The Apnea-Hypopnea Index (AHI) is used as a measure of the severity of the condition known as sleep apnea. The AHI is the sum of the number of apneas (pauses in breathing) plus the number of hypopneas (periods of shallow breathing) that occur, on average, each hour. To count in the index apneas and hypopneas, collectively called events, must have a duration of at least 10 seconds.
The AHI, as with the separate Apnea Index and Hypopnea Index, is calculated by dividing the number of events by the number of hours of sleep.
Therefore,
AHI = (OA + CA + H) ÷ # of hours of sleep
ie. A person sleeps 8 hours. In 8 hours the individual experiences 2 obstructive apnea, 5 central apnea and 10 hypopnea.
AHI = (2 OA + 5 CA + 10 H) ÷ 8 hours of sleep (17) ÷ 8 2.125 AHI = 2.13
As we can see, AHI is proportional to the number of apnea events and inversely proportional to the number of hours logged as sleep. Naturally, if a person experiences any combination of apnea events then they will see a corresponding increase in their AHI, while an increase in hours slept will cause the AHI to decrease if the number of events stay the same.
This poses another problem. While an increase in sleep hours should cause a lower AHI, the increase in sleep hours will also increase the time that apnea events have the potential to occur.
For instance, a patient who sleeps for 6 hours on night 1, and experiences 5 obstructive apnea, 2 central apnea and 7 hypopnea.Their AHI will look like:
AHI = (5 OA + 2 CA + 7 H) ÷ 6 hours of sleep (14) ÷ 6 2.33 AHI = 2.33
If the same patient sleeps 8 hours on night 2 there are 2 more hours of sleep that the potential for apnea may occur. So the patient may experience 6 obstructive apnea, 4 central apnea and 9 hypopnea. The patient will have an AHI on night 2 that looks like this:
AHI = (6 OA + 4 CA + 9 H) ÷ 8 hours of sleep (19) ÷ 8 2.375 AHI = 2.38
While the patient achieved 2 more hours of logged sleep on night 2, the patient also experienced more apnea events because of the 2 extra hours that apnea events have the potential to occur. So the AHI only varied slightly even though the patient slept 25% more on night 2 versus night 1.
In conclusion, the reduction of AHI is reallistcally achieved by the reduction of events that occur.
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