Quantitative Evaluation of New Bone and Fibrous Tissue in the Cochlea following Cochlear Implantation in the Human

Somdas, Mehmet Akıf; Li, Peter M. M. C.; Whiten, Darren M.; Eddington, Donald K.; Nadol, Joseph B.

doi:10.1159/000103208

Cited by 102 publications

(112 citation statements)

References 38 publications

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“…Finally, cochlear trauma during surgery and thereby loss of residual hearing leads to reactive fibrosis and ossification inside the cochlea and around the electrode array (5). Such changes could also diminish the ability to stimulate intact neural fibers selectively and thereby be the reason for the plateau in word perception over the long term in the nHP group.…”

Section: Discussionmentioning

confidence: 99%

“…Nowadays, minimization of cochlear trauma and/or hearing preservation is attempted in all CI surgeries. Although all surgeries should reduce trauma as much as possible, the following are additional reasons for this goal: 1) in patients with considerable residual low-frequency hearing after cochlear implantation, electro-acoustic stimulation, which allows better speech understanding and music perception, is an option (2,3); 2) the benefit from future treatment options such as stem cell therapy may depend on remaining intact cochlear structures (4); 3) less cochlear trauma leads to less intracochlear fibrosis and ossification (5,6), which simplifies revision surgery.…”

mentioning

confidence: 99%

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Hearing Preservation After Cochlear Implantation May Improve Long-term Word Perception in the Electric-only Condition

Dalbert

Huber

Baumann

et al. 2016

Otology &Amp; Neurotology

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Section: Discussionmentioning

confidence: 99%

mentioning

confidence: 99%

Hearing Preservation After Cochlear Implantation May Improve Long-term Word Perception in the Electric-only Condition

Dalbert

Huber

Baumann

et al. 2016

Otology &Amp; Neurotology

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“…Despite the low spiral ganglion cell counts, the patient derived benefit from the implants, with scores of 30% open-set word recognition and 66% on open-set sentences in both ears. Somdas et al [2007] developed a methodology to quantitatively evaluate new bone and fibrous tissue using three-dimensional reconstruction (Amira). They evaluated 7 temporal bones and demonstrated the greatest volume of new bone formation at the cochlear base (consistent with the present results) and at sites of trauma to the lateral cochlear wall in the ascending limb of the basal turn.…”

Section: Discussionmentioning

confidence: 99%

The Histopathology of Revision Cochlear Implantation

Lee

Eddington²,

Nadol

2010

Audiol Neurotol

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The current study evaluates histopathologic changes in the temporal bones of 4 human subjects who underwent revision cochlear implantation. Specimens were removed at autopsy, fixed and prepared for histological study by standard techniques. Specimens were serially sectioned, reconstructed by two-dimensional methods, and the tracks of the initial and revision cochlear-implant electrodes identified. The tracks were of three types: a ‘common track’ (shared by the reimplantation electrode and initial electrode), ‘two tracks’ (where the reimplantation electrode was in a different track than that of the initial electrode) and ‘one track’ (where the reimplantation electrode extended beyond the initial electrode, forming a single track). Associated histopathologic findings (new bone formation, fibrosis or inflammatory cells, and cochlear fluid) were evaluated for the three types of tracks. In all 4 subjects, the insertion depth of the revision cochlear implant was deeper than that of the initial cochlear implant. The primary track of the initial implantation did not interfere with insertion of a revision cochlear implant, and the trajectory of the revision electrode did not always follow the primary track. In cochlear segments with a common track or two tracks, the mean (across-subject) percent area of the extraelectrode cochlear duct filled with abnormal (new bone or fibrotic) tissue (43.2%) was significantly greater than the mean percent area occupied by fluid (13.4%; t = 3.12, d.f. = 19.9, p = 0.003).

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“…One variable might be the distances from the electrodes to the sites of action-potential initiation. These distances depend on a number of conditions that occur in the deafened, implanted cochlea including the position of the electrodes within the scala tympani with respect to the modiolar wall (Saunders et al, 2002); the presence of fibrous tissue and new bone within the scala tympani that obstructs the current path between the electrodes and the neurons (Somdas et al, 2007); and neural pathology that varies along the length of the cochlea, influencing the position of the remaining excitable neurons with respect to each stimulation site (Hinojosa and Lindsay, 1980;Nadol, 1997;Fayad and Linthicum, 2006). Current levels decrease as a function of the distance between the electrodes and the sites of action-potential initiation.…”

Section: Mechanisms Underlying Across-site Patternsmentioning

confidence: 99%

“…Histological studies have revealed several conditions that could lead to variation in the temporal and spatial patterns of responses in neurons stimulated by each of the implanted electrodes. These conditions include various patterns of nerve loss, and the growth of fibrous tissue and new bone in the implanted cochleae (Hinojosa and Lindsay, 1980;Nadol, 1997;Fayad and Linthicum, 2006;Somdas et al, 2007).…”

Section: Introductionmentioning

confidence: 99%

Psychophysical assessment of stimulation sites in auditory prosthesis electrode arrays

et al. 2008

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Auditory prostheses use implanted electrode arrays that permit stimulation at many sites along the tonotopic axis of auditory neurons. Psychophysical studies demonstrate that measures of implant function, such as detection and discrimination thresholds, vary considerably across these sites, that the across-site patterns of these measures differ across subjects, and that the likely mechanisms underlying this variability differ across measures. Psychophysical and speech recognition studies suggest that not all stimulation sites contribute equally to perception with the prosthesis and that some sites might have negative effects on perception. Studies that reduce the number of active stimulation sites indicate that most cochlear implant users can effectively utilize a maximum of only about seven sites in their processors. These findings support a strategy for improving implant performance by selecting only the best stimulation sites for the processor map. Another approach is to revise stimulation parameters for ineffective sites in an effort to improve acuity at those sites. In this paper, we discuss data supporting these approaches and some potential pitfalls.

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Quantitative Evaluation of New Bone and Fibrous Tissue in the Cochlea following Cochlear Implantation in the Human

Cited by 102 publications

References 38 publications

Hearing Preservation After Cochlear Implantation May Improve Long-term Word Perception in the Electric-only Condition

Hearing Preservation After Cochlear Implantation May Improve Long-term Word Perception in the Electric-only Condition

The Histopathology of Revision Cochlear Implantation

Psychophysical assessment of stimulation sites in auditory prosthesis electrode arrays

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