2022
DOI: 10.1038/s41598-022-21399-7
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The effect of the surgical approach and cochlear implant electrode on the structural integrity of the cochlea in human temporal bones

Abstract: Cochlear implants (CI) restore hearing of severely hearing-impaired patients. Although this auditory prosthesis is widely considered to be very successful, structural cochlear trauma during cochlear implantation is an important problem, reductions of which could help to improve hearing outcomes and to broaden selection criteria. The surgical approach in cochlear implantation, i.e. round window (RW) or cochleostomy (CO), and type of electrode-array, perimodiolar (PM) or lateral wall (LW), are variables that mig… Show more

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Cited by 8 publications
(6 citation statements)
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“…We should note that of the steps investigated, nowadays, cochleostomy is the less common approach for cochlear implantation ( Kant et al, 2022b ). However, cochleostomy and extended round window (which is a related approach as it also requires drilling) are expected still to be used in the future as these approaches are preferred in certain anatomical conditions and for perimodiolar electrode arrays ( Garaycochea et al, 2020 ; Jwair et al, 2022 ).…”
Section: Discussionmentioning
confidence: 99%
“…We should note that of the steps investigated, nowadays, cochleostomy is the less common approach for cochlear implantation ( Kant et al, 2022b ). However, cochleostomy and extended round window (which is a related approach as it also requires drilling) are expected still to be used in the future as these approaches are preferred in certain anatomical conditions and for perimodiolar electrode arrays ( Garaycochea et al, 2020 ; Jwair et al, 2022 ).…”
Section: Discussionmentioning
confidence: 99%
“…Second, not only the surgical techniques but also the electrode designs have evolved over time resulting in lower insertional trauma rates, at least in acute insertion studies (28,(38)(39)(40)(41). Third and finally, the distribution of the different electrode insertion locations in this study is skewed toward ERW insertions, whereas it is known that the insertion location of the electrode may impact the electrode trajectory and trauma pattern (37,40,42). Future insertions may be even less traumatic with robotic insertion and the integration of insertion tools that can help direct the electrode array in the cochlea away from delicate structures in real time (43,44).…”
Section: Acute Insertional Traumamentioning
confidence: 91%
“…It is important to consider that the use of animal models is complementary to measures that can be conducted in human patients and cadaveric tissues. For instance, several studies have characterised the electrical properties [32,72] and conducted CI insertion studies [18,75,77] in both fresh-frozen and fixed human cochleae. Furthermore, many electrophysiological and psychoacoustic measures have been developed to test the CI-nerve interface in humans, which include contact impedance and trans-impedance measurements [59,87,138], electrically evoked compound action potentials (eCAPS) [27,41,42], and electrically evoked auditory brainstem responses (eABR) [17,36] which enable the evaluation of CI electrical characteristics (including fibrosis, positioning, and electrical faults), cochlear neural activation patterns, and propagation the CI stimulation to the brain, respectively.…”
Section: Animal Modelsmentioning
confidence: 99%