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Updated: Jan 25, 2026

Extracting the Cochlea from a Human Temporal Bone: A Cadaveric Protocol
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First Experience With a New Thin Lateral Wall Electrode in Human Temporal Bones.

Thomas Lenarz1, Ersin Avci2, Dzemal Gazibegovic2

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The new SlimJ cochlear implant electrode array offers easy insertion and stable positioning within the cochlea. This design shows promise for hearing preservation and improved speech performance in future clinical studies.

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Area of Science:

  • Otolaryngology
  • Biomedical Engineering
  • Neurosurgery

Background:

  • Modern cochlear implant electrode arrays require a balance between surgical ease, cochlear structure preservation, and stable positioning.
  • Pediatric cochlear implant applications necessitate designs that prioritize minimal trauma and preservation of delicate cochlear structures.

Purpose of the Study:

  • To evaluate a novel lateral wall electrode array, the SlimJ, developed by Advanced Bionics.
  • To assess the surgical feasibility, positioning accuracy, and intracochlear trauma associated with the SlimJ electrode array in human temporal bones.

Main Methods:

  • Ten fresh-frozen human temporal bones were implanted with the SlimJ electrode array via the round window.
  • Postoperative cone beam computed tomography (CBCT) was used to assess electrode array location.
  • Histological analysis was performed to evaluate intracochlear trauma on a 0-4 grade scale.

Main Results:

  • The SlimJ electrode array demonstrated ease of insertion, with an average insertion depth of 432 degrees.
  • Nine out of ten arrays were fully inserted, with no observed translocations in any of the cochleae.
  • Slight contact with the basilar membrane was noted in 50% of cases, with no significant intracochlear trauma observed.

Conclusions:

  • The SlimJ thin lateral wall electrode array consistently achieved scala tympani placement with excellent insertion success.
  • The observed positioning and minimal trauma suggest the SlimJ array is a promising design for cochlear implantation.
  • Further clinical investigation is warranted to evaluate hearing preservation and speech performance outcomes.