Power output and hearing performance in osseointegrated auditory devices

Abstract

Background and objectiveOsseointegrated auditory devices are hearing gadgets that use the bone conduction of sound to produce hearing improvement. The mechanisms and factors that contribute to this sound transmission have been widely studied, however, there are other aspects that remain unknown, for instance, the influence of the processor power output. The aim of this study was to know if there is any relationship between the power output created by the devices and the hearing improvement that they achieve. Materials y methods44 patients were implanted with a percutaneous Baha® 5 model. Hearing thresholds in pure tone audiometry, free-field audiometry, and speech recognition (in quiet and in noise) were measured pre and postoperatively in each patient. The direct bone conduction thresholds and the power output values from the processors were also obtained. ResultsThe pure tone average threshold in free field was 39.29 dB (SD = 9.15), so that the mean gain was 29.18 dB (SD = 10.13) with the device. This involved an air-bone gap closure in 63.64% of patients. The pure tone average threshold in direct bone conduction was 27.6 dB (SD = 10.91), which was 8.4 dB better than the pure tone average threshold via bone conduction. The mean gain in speech recognition was 39.15% (SD = 23.98) at 40 dB and 36.66% (SD = 26.76) at 60 dB. The mean gain in the signal-to-noise ratio was -5.9 dB (SD = 4.32). On the other hand, the mean power output values were 27.95 dB µN (SD = 6.51) in G40 and 26.22 dB µN (SD = 6.49) in G60. When analysing the relationship between bone conduction thresholds and G40 and G60 values, a correlation from the frequency of 1000 Hz was observed. However, no statistically significant association between power output, functional gain or speech recognition gain was found. ConclusionsThe osseointegrated auditory devices generate hearing improvement in tonal thresholds and speech recognition, even in noise. Most patients closed the air-bone gap with the device. There is a direct relationship between the bone conduction threshold and the power output values from the processor, but only in mid and high frequencies. However, the relationship between power output and gain in speech recognition is weaker. Further investigation of contributing factors is necessary.