Kongenitale Schwerhörigkeit

Extended Preoperative Audiometry for Outcome Prediction and Risk Analysis in Patients Receiving Cochlear Implants

BACKGROUND

The outcome of cochlear implantation has improved over the last decades, but there are still patients with less benefit. Despite numerous studies examining the cochlear implant (CI) outcome, variations in speech comprehension with CI remains incompletely explained. The aim of this study was therefore to examine preoperative pure-tone audiogram and speech comprehension as well as aetiology, to investigate their relationship with postoperative speech comprehension in CI recipients.

METHODS

A retrospective study with 664 ears of 530 adult patients was conducted. Correlations between the target variable postoperative word comprehension with the preoperative speech and sound comprehension as well as aetiology were investigated. Significant correlations were inserted into multivariate models. Speech comprehension measured as word recognition score at 70 dB with CI was analyzed as (i) a continuous and (ii) a dichotomous variable.

RESULTS

All variables that tested preoperative hearing were significantly correlated with the dichotomous target; with the continuous target, all except word comprehension at 65 dB with hearing aid. The strongest correlation with postoperative speech comprehension was seen for monosyllabic words with hearing aid at 80 dB. The preoperative maximum word comprehension was reached or surpassed by 97.3% of CI patients. Meningitis and congenital diseases were strongly negatively associated with postoperative word comprehension. The multivariate model was able to explain 40% of postoperative variability.

CONCLUSION

Speech comprehension with hearing aid at 80 dB can be used as a supplementary preoperative indicator of CI-aided speech comprehension and should be measured regularly in the clinical routine. Combining audiological and aetiological variables provides more insights into the variability of the CI outcome, allowing for better patient counselling.

[Transplantation of neural stem cells into the cochlea]

BACKGROUND

Stem cell therapy is especially interesting for inner ear related diseases, since the hair cells are very sensitive and do not regenerate. Hair cell loss is therefore irreversible and is accompanied by hearing loss. In the last few years, different research groups have transplanted stem cells into the inner ear with promising results. In the presented study, our aim was to gain insight into how neuronal stem cells behave when they are transplanted, both in vitro and in vivo, into a damaged inner ear.

METHODS

Neuronal stem cells from E9.5 day old mouse embryos were collected and infected with an adenoviral vector encoding green fluorescent protein (GFP). GFP+ cells were then transplanted into a damaged organ of Corti in vitro or into a damaged mouse inner ear in vivo.

RESULTS

We were able to detect GFP+ cells close to the organ of Corti in vitro and in the organ of Corti in vivo. The GFP+ cells do not seem to be randomly distributed in either the in vitro or in vivo situation. Most interestingly, GFP+ cells could be detected close to places where hair cells had been lost in vivo.

CONCLUSION

Neuronal stem cells are interesting candidates to replace lost hair cells. However, a great deal of research is still needed before they can enter clinical trials.