Cell Transplantation to Restore Lost Auditory Nerve Function is a Realistic Clinical Opportunity

Sekiya, Takao; Holley, Matthew C.

doi:10.1177/09636897211035076

Cited by 5 publications

(6 citation statements)

References 207 publications

(320 reference statements)

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“…Additionally, better mapping of the anatomical and physiological properties of the type II SGN and the innervating efferent fibers could also guide the application of bioelectronic medicine in auditory neuroscience. Finally, combined techniques involving stem cell regenerative therapies augmented with bioelectronic medicine approaches could potentially restore lost AN function (Tang et al, 2018;Guo et al, 2021;Sekiya and Holley, 2021;Fang et al, 2023). Our vision for the future relies on continuous improvements in both basic understanding of the system and new tools to manipulate the nerve function to produce the desired immunological outcomes in the cochlea and auditory system.…”

Section: Discussionmentioning

confidence: 99%

Potential uses of auditory nerve stimulation to modulate immune responses in the inner ear and auditory brainstem

Seicol,

Guo,

Garrity

et al. 2023

Front. Integr. Neurosci.

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Bioelectronic medicine uses electrical stimulation of the nervous system to improve health outcomes throughout the body primarily by regulating immune responses. This concept, however, has yet to be applied systematically to the auditory system. There is growing interest in how cochlear damage and associated neuroinflammation may contribute to hearing loss. In conjunction with recent findings, we propose here a new perspective, which could be applied alongside advancing technologies, to use auditory nerve (AN) stimulation to modulate immune responses in hearing health disorders and following surgeries for auditory implants. In this article we will: (1) review the mechanisms of inflammation in the auditory system in relation to various forms of hearing loss, (2) explore nerve stimulation to reduce inflammation throughout the body and how similar neural-immune circuits likely exist in the auditory system (3) summarize current methods for stimulating the auditory system, particularly the AN, and (4) propose future directions to use bioelectronic medicine to ameliorate harmful immune responses in the inner ear and auditory brainstem to treat refractory conditions. We will illustrate how current knowledge from bioelectronic medicine can be applied to AN stimulation to resolve inflammation associated with implantation and disease. Further, we suggest the necessary steps to get discoveries in this emerging field from bench to bedside. Our vision is a future for AN stimulation that includes additional protocols as well as advances in devices to target and engage neural-immune circuitry for therapeutic benefits.

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Section: Discussionmentioning

confidence: 99%

Potential uses of auditory nerve stimulation to modulate immune responses in the inner ear and auditory brainstem

Seicol,

Guo,

Garrity

et al. 2023

Front. Integr. Neurosci.

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“…Hair cells are the primary target for regenerative approaches to hearing restoration. Building on pioneering work (summarized in Brigande & Heller, 2009 ), the field has moved forward in devising protocols for generating hair cells, SGNs, or even inner‐ear organoids from stem cells (recent reviews Janesick & Heller, 2019 ; Takeda et al , 2018 ; Wang & Puel, 2018 ; Sekiya & Holley, 2021 ). Koehler et al ( 2017 ) developed a protocol for generating inner‐ear organoids from human‐induced pluripotent stem cells (iPSCs) (Koehler et al , 2017 ).…”

Section: Regenerative Approachesmentioning

confidence: 99%

Is there an unmet medical need for improved hearing restoration?

et al. 2022

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Hearing impairment, the most prevalent sensory deficit, affects more than 466 million people worldwide (WHO). We presently lack causative treatment for the most common form, sensorineural hearing impairment; hearing aids and cochlear implants (CI) remain the only means of hearing restoration. We engaged with CI users to learn about their expectations and their willingness to collaborate with health care professionals on establishing novel therapies. We summarize upcoming CI innovations, gene therapies, and regenerative approaches and evaluate the chances for clinical translation of these novel strategies. We conclude that there remains an unmet medical need for improving hearing restoration and that we are likely to witness the clinical translation of gene therapy and major CI innovations within this decade.

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“…A common consequence of hair-cell loss is a flat epithelium (Shibata et al, 2010 ), which constitutes a predominated clinical situation of hearing loss that requires a future cure (Yamasoba et al, 2013 ; Yang et al, 2015 ; Homans et al, 2017 ; Revuelta et al, 2017 ; Dawson and Bowl, 2019 ; Dubno, 2019 ; Lopez-Juarez et al, 2019 ). Several studies have focused on various aspects of age-related hearing loss prevention, while others work toward the therapy (Schilder et al, 2019 ; Eshraghi et al, 2020 ; Roccio et al, 2020 ; Sekiya and Holley, 2021 ). For instance, cochlear implants (CI) are effectively used to functionally replace hair cells (Gantz et al, 2018 , 2005 ).…”

Section: Introductionmentioning

confidence: 99%

“…The presented review will describe mouse mutants to endorse a genetic model with a flat auditory epithelium and associated loss of sensory neurons of the ear and the brainstem. We aim through this approach to inspire innovative research and novel interventions by framing the hallmarks of aging (Campisi, 2013 ; López-Otín et al, 2013 ; Sekiya and Holley, 2021 ) to improve the upcoming translatability of present restoration challenges. Developing those leads to novel mouse models to deal with the strengths and weaknesses.…”

Section: Introductionmentioning

confidence: 99%

Age-Related Hearing Loss: Sensory and Neural Etiology and Their Interdependence

Elliott

Fritzsch

Yamoah

et al. 2022

Front. Aging Neurosci.

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Age-related hearing loss (ARHL) is a common, increasing problem for older adults, affecting about 1 billion people by 2050. We aim to correlate the different reductions of hearing from cochlear hair cells (HCs), spiral ganglion neurons (SGNs), cochlear nuclei (CN), and superior olivary complex (SOC) with the analysis of various reasons for each one on the sensory deficit profiles. Outer HCs show a progressive loss in a basal-to-apical gradient, and inner HCs show a loss in a apex-to-base progression that results in ARHL at high frequencies after 70 years of age. In early neonates, SGNs innervation of cochlear HCs is maintained. Loss of SGNs results in a considerable decrease (~50% or more) of cochlear nuclei in neonates, though the loss is milder in older mice and humans. The dorsal cochlear nuclei (fusiform neurons) project directly to the inferior colliculi while most anterior cochlear nuclei reach the SOC. Reducing the number of neurons in the medial nucleus of the trapezoid body (MNTB) affects the interactions with the lateral superior olive to fine-tune ipsi- and contralateral projections that may remain normal in mice, possibly humans. The inferior colliculi receive direct cochlear fibers and second-order fibers from the superior olivary complex. Loss of the second-order fibers leads to hearing loss in mice and humans. Although ARHL may arise from many complex causes, HC degeneration remains the more significant problem of hearing restoration that would replace the cochlear implant. The review presents recent findings of older humans and mice with hearing loss.

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Cell Transplantation to Restore Lost Auditory Nerve Function is a Realistic Clinical Opportunity

Cited by 5 publications

References 207 publications

Potential uses of auditory nerve stimulation to modulate immune responses in the inner ear and auditory brainstem

Potential uses of auditory nerve stimulation to modulate immune responses in the inner ear and auditory brainstem

Is there an unmet medical need for improved hearing restoration?

Age-Related Hearing Loss: Sensory and Neural Etiology and Their Interdependence

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