Audiograms Flashcards
conductive hearing loss
bone is WNL and better than air
sensorineural hearing loss
air and bone are equal but outside normal limits
mixed hearing loss
bone is better than air, but bone is not WNL
describing severity of hearing loss
least amount of hearing loss to greatest amount of hearing loss
configuration
extent of hearing loss at each frequency (i.e. high frequency loss, flat loss)
bilateral vs. unilateral
- bilateral = hearing loss in both ears
- unilateral = hearing loss in one ear only
symmetrical vs. assymetrical
- symmetrical = degree and configuration is same for both ears (bilateral)
- asymmetrical = 2 ears differ in degree and/or configuration (unilateral)
fluctuating vs. stable
- fluctuating hearing loss changes sometimes frequently
- stable remains the same
flat configuration
thresholds are relatively equal across all frequencies
high frequency configuration
greatest hearing loss in the higher frequencies
low frequency or reverse curve configuration
greatest amount of hearing loss in the low frequenices
saucer/cookie-bite configuration
greatest amount of loss in the mid frequencies
noise notch configuration
typically decrease in threshold at 4000 Hz (can be 3000-6000) with a recovery at 8000 Hz
ski slope configuration
rapid decrease in threshold responses after 250 and 500 Hz
how to calculate pure tone average (PTA)
- take air conduction thresholds t 500, 1000, and 2000 Hz
- add them together and then divide by 3
- round it to the closest 5 dB
