Carolina Der1,2, Sofía Bravo-Torres1,3, Nicolás Pons4. 1. Otorhinolaryngology Department, Dr. Luis Calvo Mackenna Children's Hospital. 2. School of Medicine, Clínica Alemana Universidad del Desarrollo. 3. School of Rehabilitation Sciences, Universidad Andrés Bello. 4. Hospital del Salvador, Universidad de Chile, Dr. Luis Calvo Mackenna Children's Hospital, Santiago, Chile.
Abstract
AIM: The aim of this study is to present the middle fossa technique (MFT) as an alternative for patients who cannot undergo traditional surgery for active transcutaneous bone conduction implants (ATBCI) due to their altered anatomy or desire for future aesthetic reconstruction. DESIGN: A case series descriptive study was designed. The MFT was developed. Preoperative and postoperative information from 24 patients with external auditory canal atresia (EACA) and implanted with ATBCI was reviewed. RESULTS: A total of 24 children with bilateral EACA received implants in the middle cranial fossa. Their average age was 12. Of these patients, eight had an associated congenital disorder: Goldenhar Syndrome, Treacher Collins Syndrome or the Pierre Robin Sequence. The average follow-up was at 17 months (ranging from between 2- and 36 mo) and there were no major complications. Four patients showed skin erythema at the processor site after turn on, which was solved by lowering the magnet strength. One patient had a scalp hematoma that required puncture drainage. The hearing thresholds went down on average from 66.5 to 25.2 dB 1 month after turn on. Speech recognition improved respectively from 29.4% without and 78.9% with a bone conduction hearing aid to 96.4%. CONCLUSION: MFT placement of the ATBCI was proven to be safe and effective and a viable option for treating pediatric patients with EACA who cannot receive implants at the sinodural angle or in the retrosigmoidal position because of their altered anatomy and/or desire for future aesthetic reconstruction.
AIM: The aim of this study is to present the middle fossa technique (MFT) as an alternative for patients who cannot undergo traditional surgery for active transcutaneous bone conduction implants (ATBCI) due to their altered anatomy or desire for future aesthetic reconstruction. DESIGN: A case series descriptive study was designed. The MFT was developed. Preoperative and postoperative information from 24 patients with external auditory canal atresia (EACA) and implanted with ATBCI was reviewed. RESULTS: A total of 24 children with bilateral EACA received implants in the middle cranial fossa. Their average age was 12. Of these patients, eight had an associated congenital disorder: Goldenhar Syndrome, Treacher Collins Syndrome or the Pierre Robin Sequence. The average follow-up was at 17 months (ranging from between 2- and 36 mo) and there were no major complications. Four patients showed skin erythema at the processor site after turn on, which was solved by lowering the magnet strength. One patient had a scalp hematoma that required puncture drainage. The hearing thresholds went down on average from 66.5 to 25.2 dB 1 month after turn on. Speech recognition improved respectively from 29.4% without and 78.9% with a bone conduction hearing aid to 96.4%. CONCLUSION: MFT placement of the ATBCI was proven to be safe and effective and a viable option for treating pediatric patients with EACA who cannot receive implants at the sinodural angle or in the retrosigmoidal position because of their altered anatomy and/or desire for future aesthetic reconstruction.
Authors: Pietro Canzi; Irene Avato; Millo Beltrame; Giovanni Bianchin; Marco Perotti; Lorenzo Tribi; Barbara Gioia; Federico Aprile; Stefano Malpede; Andrea Scribante; Marco Manfrin; Marco Benazzo Journal: Acta Otorhinolaryngol Ital Date: 2021-02 Impact factor: 2.124
Authors: Faris F Brkic; Dominik Riss; Katharina Scheuba; Christoph Arnoldner; Wolfgang Gstöttner; Wolf-Dieter Baumgartner; Erich Vyskocil Journal: J Clin Med Date: 2019-10-03 Impact factor: 4.241