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Individual Optimization of the Insertion of a Preformed Cochlear Implant Electrode Array.

Rau TS, Lenarz T, Majdani O - Int J Otolaryngol (2015)

Bottom Line: Conclusion.This finding leads to the conclusion that, in general, consideration of the specific curling behaviour of a CI electrode array is beneficial in terms of less traumatic insertion.Therefore, these results highlight an entirely novel aspect of clinical application of preformed perimodiolar electrode arrays in general.

View Article: PubMed Central - PubMed

Affiliation: Department of Otolaryngology, Hannover Medical School, Carl-Neuberg-Straße 1, 30625 Hannover, Germany.

ABSTRACT
Purpose. The aim of this study was to show that individual adjustment of the curling behaviour of a preformed cochlear implant (CI) electrode array to the patient-specific shape of the cochlea can improve the insertion process in terms of reduced risk of insertion trauma. Methods. Geometry and curling behaviour of preformed, commercially available electrode arrays were modelled. Additionally, the anatomy of each small, medium-sized, and large human cochlea was modelled to consider anatomical variations. Finally, using a custom-made simulation tool, three different insertion strategies (conventional Advanced Off-Stylet (AOS) insertion technique, an automated implementation of the AOS technique, and a manually optimized insertion process) were simulated and compared with respect to the risk of insertion-related trauma. The risk of trauma was evaluated using a newly developed "trauma risk" rating scale. Results. Using this simulation-based approach, it was shown that an individually optimized insertion procedure is advantageous compared with the AOS insertion technique. Conclusion. This finding leads to the conclusion that, in general, consideration of the specific curling behaviour of a CI electrode array is beneficial in terms of less traumatic insertion. Therefore, these results highlight an entirely novel aspect of clinical application of preformed perimodiolar electrode arrays in general.

No MeSH data available.


Related in: MedlinePlus

More detailed findings with regard to change in trauma risk during an optimized insertion. RE01 was chosen because, of all the optimizations, it represents the “worst case”.
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fig15: More detailed findings with regard to change in trauma risk during an optimized insertion. RE01 was chosen because, of all the optimizations, it represents the “worst case”.

Mentions: The intracochlear curling caused by the stylet extraction and resulting from the individual optimization process is shown in Figure 15, with RE01 used as an example. As RE01 is the electrode array with the poorest trauma risk rating for all optimized insertions, Figure 15 shows the “worst case.”


Individual Optimization of the Insertion of a Preformed Cochlear Implant Electrode Array.

Rau TS, Lenarz T, Majdani O - Int J Otolaryngol (2015)

More detailed findings with regard to change in trauma risk during an optimized insertion. RE01 was chosen because, of all the optimizations, it represents the “worst case”.
© Copyright Policy - open-access
Related In: Results  -  Collection

Show All Figures
getmorefigures.php?uid=PMC4581552&req=5

fig15: More detailed findings with regard to change in trauma risk during an optimized insertion. RE01 was chosen because, of all the optimizations, it represents the “worst case”.
Mentions: The intracochlear curling caused by the stylet extraction and resulting from the individual optimization process is shown in Figure 15, with RE01 used as an example. As RE01 is the electrode array with the poorest trauma risk rating for all optimized insertions, Figure 15 shows the “worst case.”

Bottom Line: Conclusion.This finding leads to the conclusion that, in general, consideration of the specific curling behaviour of a CI electrode array is beneficial in terms of less traumatic insertion.Therefore, these results highlight an entirely novel aspect of clinical application of preformed perimodiolar electrode arrays in general.

View Article: PubMed Central - PubMed

Affiliation: Department of Otolaryngology, Hannover Medical School, Carl-Neuberg-Straße 1, 30625 Hannover, Germany.

ABSTRACT
Purpose. The aim of this study was to show that individual adjustment of the curling behaviour of a preformed cochlear implant (CI) electrode array to the patient-specific shape of the cochlea can improve the insertion process in terms of reduced risk of insertion trauma. Methods. Geometry and curling behaviour of preformed, commercially available electrode arrays were modelled. Additionally, the anatomy of each small, medium-sized, and large human cochlea was modelled to consider anatomical variations. Finally, using a custom-made simulation tool, three different insertion strategies (conventional Advanced Off-Stylet (AOS) insertion technique, an automated implementation of the AOS technique, and a manually optimized insertion process) were simulated and compared with respect to the risk of insertion-related trauma. The risk of trauma was evaluated using a newly developed "trauma risk" rating scale. Results. Using this simulation-based approach, it was shown that an individually optimized insertion procedure is advantageous compared with the AOS insertion technique. Conclusion. This finding leads to the conclusion that, in general, consideration of the specific curling behaviour of a CI electrode array is beneficial in terms of less traumatic insertion. Therefore, these results highlight an entirely novel aspect of clinical application of preformed perimodiolar electrode arrays in general.

No MeSH data available.


Related in: MedlinePlus