Affiliations 

  • 1 The University of Melbourne, Department of Surgery and The Royal Victorian Eye and Ear Hospital. Electronic address: christofer.bester@unimelb.edu.au
  • 2 The University of Melbourne, Department of Surgery and The Royal Victorian Eye and Ear Hospital
  • 3 The University of Melbourne, Department of Surgery and The Royal Victorian Eye and Ear Hospital; Department of ENT, Head and Neck Surgery, University Hospital, Bern, Switzerland
  • 4 Department of ENT, RVEEH
  • 5 The University of Melbourne, Department of Surgery and The Royal Victorian Eye and Ear Hospital; Department of Otorhinolaryngology, University Putra Malaysia, Malaysia
  • 6 The University of Melbourne, Department of Surgery and The Royal Victorian Eye and Ear Hospital; Department of ENT, RVEEH
  • 7 The University of Melbourne, Department of Surgery and The Royal Victorian Eye and Ear Hospital; Department of ENT, RVEEH. Electronic address: sjoleary@unimelb.edu.au
Hear Res, 2022 Dec;426:108353.
PMID: 34600798 DOI: 10.1016/j.heares.2021.108353

Abstract

BACKGROUND: Preservation of natural hearing during cochlear implantation is associated with improved speech outcomes, however more than half of implant recipients lose this hearing. Real-time electrophysiological monitoring of cochlear output during implantation, made possible by recording electrocochleography using the electrodes on the cochlear implant, has shown promise in predicting hearing preservation. Sudden drops in the amplitude of the cochlear microphonic (CM) have been shown to predict more severe hearing losses. Here, we report on a randomized clinical trial investigating whether immediate surgical intervention triggered by these drops can save residual hearing.

METHODS: A single-blinded placebo-controlled trial of surgical intervention triggered when CM amplitude dropped by at least 30% of a prior maximum amplitude during cochlear implantation. Intraoperative electrocochleography was recorded in 60 adults implanted with Cochlear Ltd's Thin Straight Electrode, half randomly assigned to a control group and half to an interventional group. The surgical intervention was to withdraw the electrode in ½-mm steps to recover CM amplitude. The primary outcome was hearing preservation 3 months following implantation, with secondary outcomes of speech-in-noise reception thresholds by group or CM outcome, and depth of implantation.

RESULTS: Sixty patients were recruited; neither pre-operative audiometry nor speech reception thresholds were significantly different between groups. Post-operatively, hearing preservation was significantly better in the interventional group. This was the case in absolute difference (median of 30 dB for control, 20 dB for interventional, χ² = 6.2, p = .013), as well as for relative difference (medians of 66% for the control, 31% for the interventional, χ² = 5.9, p = .015). Speech-in-noise reception thresholds were significantly better in patients with no CM drop at any point during insertion compared with patients with a CM drop; however, those with successfully recovered CMs after an initial drop were not significantly different (median gain required for speech reception score of 50% above noise of 6.9 dB for no drop, 8.6 for recovered CM, and 9.8 for CM drop, χ² = 6.8, p = .032). Angular insertion depth was not significantly different between control and interventional groups.

CONCLUSIONS: This is the first demonstration that surgical intervention in response to intraoperative hearing monitoring can save residual hearing during cochlear implantation.

* Title and MeSH Headings from MEDLINE®/PubMed®, a database of the U.S. National Library of Medicine.