The Histopathology of Revision Cochlear Implantation

Lee, Joonhan; Eddington, Donald K.; Nadol, Joseph B.

doi:10.1159/000322307

Cited by 14 publications

(12 citation statements)

References 38 publications

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“…In cases with multiple surgeries, initial trauma was most likely due to the first implantation, as we have not seen evidence of damage from removal of an electrode. There is some conflicting evidence regarding the status of the sheath that surrounds an implant electrode after removal and reimplantation (17, 18). In this study, attention was paid in each multiple surgery case to determine whether a new electrode track was present.…”

Section: Discussionmentioning

confidence: 99%

Round Window Versus Cochleostomy Technique in Cochlear Implantation

Richard

Fayad²,

Doherty³

et al. 2012

Otology &Amp; Neurotology

115

102

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Hypothesis Cochleostomy or round window enlargement techniques for cochlear implant electrode insertion result in more abnormal tissue formation in the basal cochlea and are more apt to produce endolymphatic hydrops than round window electrode insertion. Methods Twelve temporal bones from implanted patients were examined under light microscopy and reconstructed with 3D reconstruction software to determine cochlear damage and volume of neo-ossification and fibrosis following electrode insertion. Amount of new tissue was compared between three groups of bones: insertion through the round window (RW), after enlarging the round window (RWE) and cochleostomy (Cochl). The probable role of the electrode was evaluated in each case with hydrops. Results More initial damage occurred in the Cochl and RWE groups than in the RW group, and the difference was significant between RWE and RW in cochlear segment I (p<0.026). The volume of new bone in segment I differed significantly between groups (p<.012) and was greater in the RWE group than in either the Cochl or RW groups (post hoc p’s <.035 and .019). Hydrops was seen in 5 cases, all in the Cochl and RWE groups. Blockage of the duct was due to new tissue formation in 4 of the 5 hydrops cases. Conclusion With the electrodes in this serie, implantation through the round window minimized initial intracochlear trauma and subsequent new tissue formation, while the round window extension technique used at the time of these implantations produced the greatest damage. Future studies may clarify whether today’s techniques and electrodes will produce these same patterns of damage.

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Section: Discussionmentioning

confidence: 99%

Round Window Versus Cochleostomy Technique in Cochlear Implantation

Richard

Fayad²,

Doherty³

et al. 2012

Otology &Amp; Neurotology

115

102

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“…Chute has insisted that both the level of cochlear neoosteogenesis and the electrode insertion depth might affect the postoperative hearing rehabilitation (24). On the contrary, evaluation of the histopathology of temporal bones of 4 human subjects who underwent revision CI revealed that a newly inserted electrode can make a new route in the cochlear duct as a common track or 2 tracks according to its pathology (21). They concluded that the electrode insertion depth at revision CI is not limited by the depth of insertion of the initial implant.…”

Section: Discussionmentioning

confidence: 99%

Revision Cochlear Implantation With Different Electrodes Can Cause Incomplete Electrode Insertion and Poor Performance

Shin¹,

Park²,

Lee³

et al. 2013

Otology &Amp; Neurotology

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In this study, full electrode insertion was achieved in all cases where the same type of electrode was used during initial and revision CI. In contrast, we noticed incomplete insertion in 4 of 5 patients who had revision electrodes that differed from initial electrodes. While incomplete electrode insertion does not necessitate poor speech performance, some patients with incomplete electrode insertion certainly experience it. Therefore, electrode selection requires circumspection in revision CI. Choosing a thinner electrode for revision CI may reduce the possibility of incomplete electrode insertion.

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“…38 Finally, it disrupts the architecture of the organ of Corti and provokes subsequent hair cell and neuronal loss, further compromising the maintenance of residual hearing. 39 The development of cochlear fibrosis can be as- Fibrotic scar formation after cochlear implantation. Acute inflammatory reaction is triggered by insertion trauma that induces recruitment of inflammatory cells such as macrophages or lymphocytes to site, thus promoting elimination of cellular debris and secretion of cytokines and growth factors.…”

Section: Molecular Pathways Involved In Hearing Loss After Cochlear Imentioning

confidence: 99%