Konrad Johannes Stuermer1, Dirk Beutner2, Astrid Foerst2, Moritz Hahn3, Ruth Lang-Roth2, Martin Walger2. 1. Department of Otorhinolaryngology, University of Cologne, Germany. Electronic address: konrad.stuermer@uk-koeln.de. 2. Department of Otorhinolaryngology, University of Cologne, Germany. 3. Institute of Medical Statistics, Informatics and Epidemiology (IMSIE), University of Cologne, Germany.
Abstract
INTRODUCTION: The early diagnosis of AS/AN in children remains challenging because it exclusively relies on the detection of OAE and/or CM, while ABR are pathologically changed or missing. The aim of our study was to ensure the diagnosis of AS/AN, demarcate it to an outer hair cell damage and possibly differentiate between pre- and postsynaptic pathologies. METHODS: We retrospectively evaluated the transtympanic ECochG results of ten children with AS/AN and compared them to a matched group with SNHL and without any signs of AS/AN. We analyzed the thresholds, latencies and - as a new parameter - the amplitude ratio between CAP and SP. RESULTS: CM and SP thresholds were significantly lower than CAP thresholds in AS/AN patients and significantly lower than SP and CM thresholds in SNHL patients with comparable CAP thresholds. The CAP/SP ratio of amplitudes in SNHL children was more than three times (significantly) higher than in AS/AN children. The cutoff value was set at 1.0 in order to differentiate between both groups with a 80-90% sensitivity and specificity. It was not possible to differentiate between a pre- and postsynaptic type of AS/AN in our collective. SUMMARY AND CONCLUSION: The ECochG can add valuable information for a precise differential diagnosis of AS/AN, especially in babyhood. We identified the CAP/SP ratio as a new parameter for differentiation between AS/AN and SNHL. When the CAP/SP ratio falls below 1.0, patients can be diagnosed AS/AN with high specificity and sensitivity. Significantly smaller SPL are needed to evoke SP and CM in the AS/AN group, thus showing the preserved hair cell function.
<span class="abstract_title">INTRODUCTION: The early diagnosis of AS/an class="Chemical">AN in children remains challenging because it exclusively relies on the detection of OAE and/or CM, while ABR are pathologically changed or missing. The aim of our study was to ensure the diagnosis of AS/AN, demarcate it to an outer hair cell damage and possibly differentiate between pre- and postsynaptic pathologies. METHODS: We retrospectively evaluated the transtympanic ECochG results of ten children with AS/AN and compared them to a matched group with SNHL and without any signs of AS/AN. We analyzed the thresholds, latencies and - as a new parameter - the amplitude ratio between CAP and SP. RESULTS: CM and SP thresholds were significantly lower than CAP thresholds in AS/ANpatients and significantly lower than SP and CM thresholds in SNHL patients with comparable CAP thresholds. The CAP/SP ratio of amplitudes in SNHL children was more than three times (significantly) higher than in AS/ANchildren. The cutoff value was set at 1.0 in order to differentiate between both groups with a 80-90% sensitivity and specificity. It was not possible to differentiate between a pre- and postsynaptic type of AS/AN in our collective. SUMMARY AND CONCLUSION: The ECochG can add valuable information for a precise differential diagnosis of AS/AN, especially in babyhood. We identified the CAP/SP ratio as a new parameter for differentiation between AS/AN and SNHL. When the CAP/SP ratio falls below 1.0, patients can be diagnosed AS/AN with high specificity and sensitivity. Significantly smaller SPL are needed to evoke SP and CM in the AS/AN group, thus showing the preserved hair cell function.
Authors: Eyyup Kara; Kübra Aydın; A Alperen Akbulut; Sare Nur Karakol; Serkan Durmaz; H Murat Yener; E Deniz Gözen; Halide Kara Journal: J Int Adv Otol Date: 2020-04 Impact factor: 1.017
Authors: Christi M Barbee; Jessica A James; Jin Hyung Park; Emily M Smith; Carole E Johnson; Shari Clifton; Jeffrey L Danhauer Journal: Semin Hear Date: 2018-06-15
Authors: William J Riggs; Joseph P Roche; Christopher K Giardina; Michael S Harris; Zachary J Bastian; Tatyana E Fontenot; Craig A Buchman; Kevin D Brown; Oliver F Adunka; Douglas C Fitzpatrick Journal: Front Neurosci Date: 2017-07-19 Impact factor: 4.677