How to calculate pure tone average
The pure tone average (PTA) is a standard measure used in audiology to assess an individual’s hearing sensitivity. It is the average of hearing How to calculate pure tone average?thresholds at specific frequencies, providing a simplified, single value representing a person’s overall hearing ability. In this article, we will discuss the importance of PTA, the steps involved in calculating PTA, and its significance in clinical practice.
The Importance of Pure Tone Average
PTA is an essential tool for audiologists and hearing professionals to:
1. Determine the degree of hearing loss.
2. Compare hearing test results over time.
3. Monitor the progression of hearing loss.
4. Make recommendations regarding appropriate interventions, such as hearing aids or cochlear implants.
How to Calculate Pure Tone Average
Calculating PTA involves several steps, including conducting a pure tone audiometry test and computing the average threshold values across specific frequencies. Here’s a step-by-step guide on calculating PTA:
Step 1: Conduct a Pure Tone Audiometry Test
During a pure tone audiometry test, the individual wears headphones or inserts in their ears that deliver pure tones at different frequencies and intensities. The person indicates when they hear a tone by raising their hand or pressing a button.
Step 2: Record Hearing Thresholds
For each frequency tested (usually 250 Hz, 500 Hz, 1000 Hz, 2000 Hz, 4000 Hz, and 8000 Hz), record the lowest intensity (in decibels) at which the individual can hear the tone.
Step 3: Select Relevant Frequencies for Calculation
Although testing is often conducted across six frequencies (as mentioned in step 2), only specific frequencies are used for calculating PTA:
– Three-frequency PTA (PTA3): commonly uses thresholds at 500 Hz, 1000 Hz, and 2000 Hz.
– Four-frequency PTA (PTA4): usually includes thresholds at 500 Hz, 1000 Hz, 2000 Hz, and 4000 Hz.
Step 4: Average Thresholds
Add the hearing thresholds for the chosen frequencies and divide the sum by the number of frequencies used. This will give you the PTA value.
Example:
Thresholds (in dB) at 500 Hz: 10
Thresholds (in dB) at 1000 Hz: 15
Thresholds (in dB) at 2000 Hz: 20
Thresholds (in dB) at 4000 Hz: 25
PTA3 = (10 + 15 + 20)/3 = 15 dB
PTA4 = (10 + 15 + 20 + 25)/4 = 17.5 dB
Interpreting the Pure Tone Average
The PTA value is typically interpreted using standardized categories for assessing the degree of hearing loss:
– Normal hearing: PTA ≤25 dB
– Mild hearing loss: PTA >25 to ≤40 dB
– Moderate hearing loss: PTA >40 to ≤70 dB
– Severe hearing loss: PTA >70 to ≤90 dB
– Profound hearing loss: PTA >90 dB
Conclusion
The pure tone average is a crucial measure in determining an individual’s hearing sensitivity and guiding appropriate interventions. By understanding how to calculate PTA and interpret its values, professionals can better diagnose and treat hearing impairments. Remember that PTA is a general indicator of an individual’s overall hearing ability, and comprehensive audiologic evaluations are essential for a complete understanding of their specific needs.