The cochlear implant is a neural prosthesis and has been the gold standard treatment for severe to profound sensorineural hearing loss over several decades. The surgical procedure for cochlear implantation aims to atraumatically insert the electrode array of the cochlear implant into the cochlea. However, due to the location of the cochlea inside the skull, the surgeon is required to create an access from the surface of the temporal bone to the cochlea (inner ear). In conventional methods, this access is acquired by removal of portions of the mastoid bone through a mastoidectomy and posterior tympanotomy. The outcome and success of the conventional procedure varies due to mainly two factors: surgeon skill and subject anatomical variation. To overcome these variables toward a more consistent and less invasive cochlear implantation surgery, the development of robotic and image guided cochlear implantation has taken place. This study primarily aims to explore the performance of robotic cochlear implantation surgery.
Study Type
INTERVENTIONAL
Allocation
NA
Purpose
TREATMENT
Masking
NONE
Enrollment
3
Robotic system for otological procedures
Otological surgical planning software
Inselspital, Bern University Hospital
Bern, Switzerland
Relative ratio of successful electrode array insertions through the drilled direct cochlear access with the HEARO procedure to the total HEARO procedures.
The primary outcome measure of this study is to explore the relative ratio of the successful electrode array insertions into the cochlea through the drilled direct cochlear access with the HEARO procedure to the total HEARO procedures. Aborted or converted procedures count as procedure in which insertion through the direct cochlea access was not possible. The results will be expressed in relative numbers and in percentage.
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Electrode array insertion outcome
The angular insertion depth (in degrees) will be evaluated.
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Electrode array insertion outcome
The number of inserted electrode contacts will be evaluated.
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Electrode array insertion outcome
The surgical outcome (categories: nominal, tip-fold over or scalar deviation) will be evaluated.
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Insertion depth prediction accuracy
The insertion depth prediction accuracy as the difference between the estimated insertion depth of the electrode at the planning and the actual insertion depth.
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Absolute angular accuracy of the drilled tunnel access
The absolute in-plane and out-plane accuracy of the drilled tunnel is measured as the angular deviation between the planned trajectory in-plane and out-plane angles and the actual drilled angles from the intra-op image.
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Absolute lateral accuracy of the drilled tunnel at the facial recess
The absolute lateral accuracy of the drilled tunnel to the facial nerve and chorda tympani is measured as the difference between the planned trajectory and the actual drilled trajectory distance.
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Absolute lateral accuracy of the drilled tunnel at the target
The absolute lateral accuracy of the drilled tunnel is measured as the distance between the planned target trajectory position and actual target of the drilled trajectory position.
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Ratio of the round window membrane preservation during the inner ear access
The ratio of the visibility of round window membrane surface at the robotic inner ear access by visual inspection. This will be assessed as subjective evaluation by the surgeon.
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Timing of the HEARO procedure
The timing of the different steps of the HEARO procedure will be recorded.
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