Human Otopathologic Findings in Cases of Folded Cochlear Implant Electrodes

HYPOTHESIS: We hypothesize that human cases of cochlear implantation (CI) with folding of the electrode array will demonstrate greater degrees of intracochlear ossification, lower spiral ganglion neuron (SGN) counts, and poorer audiometric outcomes. BACKGROUND: CI electrode array folding, such folding of the proximal array, is a relatively common surgical complication that can occur with forceful electrode insertion and may be an important and avoidable factor affecting implant outcomes. However, otopathologic findings and audiologic outcomes of human cases where folding of the implant electrode array is observed remain undefined. METHODS: Specimens from a human temporal bone repository having undergone CI during life were evaluated. Specimens with folding of the electrode array on histological analysis constituted study cases. Electrode-matched specimens without array folding constituted controls. All specimens were examined by light microscopy and histopathologically described. Intracochlear fibrosis and osseous tissue, and SGN counts were measured. Pre- and postoperative word recognition scores were also compared. RESULTS: Cases with folded electrodes showed greater volumes of intracochlear osseous tissue than controls, which was most prominent in areas adjacent to array folding. Both cases and controls demonstrated similar amounts of fibrous tissue. Folded cases showed decreased SGNs when compared with the contralateral ear, whereas controls showed stable SGN populations between ears. In this small cohort, postoperative hearing outcomes were similar between groups. CONCLUSION: Atypical fibro-osseous changes and lower SGN counts are observed in cases of CI electrode folding. Future studies are necessary to determine if recognition and correction of folding can prevent long-term intracochlear changes

Human Otopathology of Cochlear Implant Drill-out Procedures

OBJECTIVE: Human otopathology following drill-out procedures for cochlear implantation (CI) in cases with labyrinthitis ossificans (LO) has not been previously described. This study uses the high sensitivity of histopathology to (1) evaluate surgical drill-out technique with associated intracochlear findings and (2) quantify spiral ganglion neuron populations in a series of patients with LO who underwent CI. STUDY DESIGN: Retrospective otopathology study. SETTING: Otopathology laboratory. SUBJECTS AND METHODS: Temporal bone (TB) specimens from cases with evidence of preoperative intracochlear fibroossification that required a drill-out procedure for CI electrode array insertion were included. All cases were histopathologically evaluated and 3-dimensional reconstructions of the cochleae were performed to interpret drilling paths and electrode trajectories. RESULTS: Five TB specimens were identified, of which 4 underwent drill-out of the basal turn of the cochlea and 1 underwent a radical cochlear drill-out. In multiple TBs, drilling was imprecise with resultant damage to essential structures. Two TBs showed injury to the modiolus, which was associated with substantially decreased or even absent neuronal populations within these areas. In addition, 2 cases with inadequate drill-out or extensive LO of the basal turn resulted in extracochlear placement of electrode arrays into the vestibule due to persistent obstruction within the basal turn. CONCLUSION: Otopathology highlights the challenges of drill-out procedures in cases of LO. Imprecise drilling paths, due to distortion of normal cochlear anatomy, risk injury to the modiolus and adjacent neurons as well as extracochlear placement of electrode arrays, both of which may contribute to poorer hearing outcomes

Otopathology of Unilateral Cochlear Implantation in Patients With Bilateral Temporal Bone Fracture

OBJECTIVE: Audiometric outcomes following cochlear implantation (CI) in patients with temporal bone fracture (TBF) are variable and the pathophysiology is not well understood. Herein, we describe otopathologic findings in two such cases to provide insight into pathophysiology and outcomes. PATIENTS: Two patients had a history of head trauma resulting in bilateral TBF and sudden, profound, sensorineural hearing loss. INTERVENTION: Both cases underwent unilateral CI following head trauma. MAIN OUTCOME MEASURES: Both TBs from each patient were harvested postmortem and histologically analyzed to determine fracture lines, intralabyrinthine fibroosseous changes, and spiral ganglion neuron (SGN) counts. Clinical histories and audiometric outcomes were also reviewed. RESULTS: In both cases, the implanted TB showed extensive intracochlear ossification, which was greater when fracture involved the cochlea. In contrast, the nonimplanted cochleae were patent with small osseous deposits at the round window membrane. Interaural SGN counts were lower on the implanted side and hearing results were moderate to poor. CONCLUSIONS: Otopathologic analyses of patients with a CI after bilateral TBF are rare. Based on otopathology of two patients with bilateral TBF and subsequent CI, implanted TBs show extensive intracochlear fibroosseous changes greater than the nonimplanted side. Findings have implications for auditory rehabilitation after TBF