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      Vestibular Impairment and Postural Development in Children With Bilateral Profound Hearing Loss

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      , MD, PhD 1 , 2 , , , PhD 1 , , PhD 1 , 2 , , MD, PhD 1 , 3
      JAMA Network Open
      American Medical Association

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          Abstract

          This cohort study assesses the association between vestibular function loss and ages at which head holding, sitting, standing with support, and independent walking were reached among children who were candidates for a cochlear implant.

          Key Points

          Question

          How common is vestibular impairment in children with profound hearing loss, and is vestibular impairment associated with developmental delays?

          Findings

          In this cohort study of 592 children with bilateral profound hearing loss, vestibular impairment was found in 44% of the children. A delay in achieving developmental milestones was associated with vestibular impairment severity.

          Meaning

          Findings of this study suggest that assessing vestibular function in all children prior to cochlear implantation is necessary in prescribing timely adapted vestibular rehabilitation and proposing cochlear implantation strategies for preserving vestibular function.

          Abstract

          Importance

          Children with profound hearing loss (HL) and vestibular impairment have worse cochlear implant outcomes compared with those without vestibular impairment. However, the decision for cochlear implantation is rarely based on vestibular function assessment as a complement to audiologic testing.

          Objectives

          To identify the prevalence of vestibular impairment according to HL origin and to assess the association between vestibular impairment and delayed posturomotor development in children with profound HL.

          Design, Setting, and Participants

          This cohort study was conducted in a pediatric referral center for cochlear implantation in Paris, France, using medical records data on HL origin, vestibular assessment, and ages of developmental milestone achievement. The cohort included children with profound HL (loss >90 dB HL) who completed vestibular assessment prior to cochlear implantation between January 1, 2009, and December 31, 2019. Data analyses were conducted between January and June 2023.

          Main Outcomes and Measures

          The primary outcome was prevalence of vestibular impairment according to HL origin. Children were classified into 3 groups according to their responses to vestibular testing: normal vestibular function (NVF), partially impaired vestibular function (PVF), and complete bilateral vestibular loss (CBVL). Generalized logit models were performed to evaluate the association between vestibular impairment and causes of HL as well as posturomotor development delay.

          Results

          A total of 592 children were included (308 males [52.0%]; mean [SD] age, 38 [34] months). In children with documented HL origin (n = 266), 45.1% (120) had HL with genetic origin, 50.0% of which were syndromic (mainly Usher and Waardenburg syndromes) and 50.0% were nonsyndromic (mainly associated with connexin 26). Among patients with infectious HL origin (n = 74), 70.3% (52) had cytomegalovirus (CMV) infection. Vestibular impairment was found in 44.4% (263 of 592) of the children; it was mostly symmetrical in 88.9% (526) and was CBVL in 5.7% (34) of the cases. Vestibular impairment was present in 78.3% (47) of children with genetic syndromic HL (56.7% [34] with PVF; 21.7% [13] with CBVL) and in 69.2% (36) of children with CMV infection (57.7% [30] with PVF; 11.5% [6] with CBVL). Genetic syndromic HL origin was found to be more often associated with both PVF and CBVL than other HL causes. The odds of having delays in 4 developmental milestones (head holding, sitting, standing with support, and independent walking) were higher in both PVF and CBVL (eg, head-holding odds ratios: 2.55 and 4.79) compared with NVF, and the age of achieving these milestones was higher in CBVL than PVF (eg, head holding: 7.33 vs 4.03 years; P < .001). All 4 developmental milestones were associated with the degree of vestibular impairment.

          Conclusions and Relevance

          This cohort study found that among children with profound HL, vestibular impairment was prevalent, varied according to HL origin, and associated with posturomotor development; while all developmental milestones were associated with vestibular impairment severity, not all HL causes were associated with vestibular impairment severity. Children with profound HL may benefit from complete vestibular assessment before cochlear implantation, which would support early and adapted management, such as physical therapy for CBVL and cochlear implantation strategy.

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          Most cited references43

          • Record: found
          • Abstract: found
          • Article: not found

          Hearing Loss in Children : A Review

          Hearing loss in children is common and by age 18 years, affects nearly 1 of every 5 children. Without hearing rehabilitation, hearing loss can cause detrimental effects on speech, language, developmental, educational, and cognitive outcomes in children.
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            Clinical nystagmography. A detailed study of electro-nystagmography in 341 patients with vertigo.

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              • Record: found
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              • Article: not found

              Vestibular impairments pre- and post-cochlear implant in children.

              Determine prevalence and types of vestibular impairments in sensorineural hearing loss (SNHL) in a large population of pediatric candidates for cochlear implants. Evaluate impact of cochlear implants on vestibular function. Retrospective and prospective study. Children with profound SNHL (n=224) underwent complete vestibular testing (clinical vestibular examination, bicaloric test, earth vertical axis rotation, off vertical axis rotation and vestibular evoked myogenic potentials) before cochlear implant. Changes in vestibular responses were measured after implants in 89 of these patients. In the SNHL population only 50% had normal bilateral vestibular function, while 20% had bilateral complete areflexia, 22.5% partial asymmetrical hypoexcitability and 7.5% partial symmetrical hypoexcitability. In the 71/89 follow-up patients showing vestibular responses prior to implant, 51 (71%) had changes in vestibular function including 7 (10%) who acquired ipsilateral areflexia. Others developed ipsilateral hypo- or hyperexcitability. Vestibular modifications occurred during the 3 months after surgery and were not clearly associated with clinical signs except for ipsilateral areflexia cases. In long-term follow-up, two of the 7 patients with ipsilateral areflexia partially recovered vestibular function. Since half of pediatric cochlear implant candidates have vestibular deficits and 51% of implants induce modifications of existing vestibular function, each implant should be preceded by canal and otolith functional tests to assure that the least functional vestibule is implanted. The tests provide baselines for follow-up monitoring of subsequent losses and recovery. This could be easily implemented with a clinical vestibular examination including the head thrust test associated with a bicaloric test and vestibular-evoked-myogenic-potentials.
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                Author and article information

                Journal
                JAMA Netw Open
                JAMA Netw Open
                JAMA Network Open
                American Medical Association
                2574-3805
                23 May 2024
                May 2024
                23 May 2024
                : 7
                : 5
                : e2412846
                Affiliations
                [1 ]Institut de l’Audition, Institut Pasteur, Centre De Recherche et d'Innovation et Audiologie Humaine (CERIAH), Paris, France
                [2 ]Service ORL, Centre d’Exploration Fonctionnelle de l’Equilibre Chez l’Enfant (EFEE), Hôpital Universitaire Robert Debré, Assistance Publique–Hôpitaux de Paris, Paris, France
                [3 ]Hospices Civils de Lyon, Hôpital Edouard Herriot et Hôpital Femme Mère Enfant, Service d’Audiologie et Explorations Otoneurologiques, Lyon University, Lyon, France
                Author notes
                Article Information
                Accepted for Publication: March 21, 2024.
                Published: May 23, 2024. doi:10.1001/jamanetworkopen.2024.12846
                Open Access: This is an open access article distributed under the terms of the CC-BY License. © 2024 Wiener-Vacher SR et al. JAMA Network Open.
                Corresponding Author: Sylvette Wiener-Vacher, MD, PhD, CERIAH, Institut Pasteur, 29 rue du Dr Roux, 75015 Paris, France ( sylvette.wiener@ 123456gmail.com ).
                Author Contributions: All authors had full access to all of the data in the study and take responsibility for the integrity of the data and the accuracy of the data analysis. Drs Wiener-Vacher and Campi contributed equally.
                Concept and design: Wiener-Vacher, Campi, Thai-Van.
                Acquisition, analysis, or interpretation of data: All authors.
                Drafting of the manuscript: All authors.
                Critical review of the manuscript for important intellectual content: Wiener-Vacher, Campi, Thai-Van.
                Statistical analysis: Wiener-Vacher, Campi.
                Obtained funding: Thai-Van.
                Administrative, technical, or material support: Wiener-Vacher, Caldani, Thai-Van.
                Supervision: Wiener-Vacher, Thai-Van.
                Conflict of Interest Disclosures: None reported.
                Data Sharing Statement: See the Supplement.
                Additional Contributions: Assistance Publique–Hôpitaux de Paris and Centre De Recherche et d'Innovation et Audiologie Humaine (CERIAH), Institut Pasteur and Hearing Institute (FPA IDA09), provided logistic support. Véréna Landel, PhD, Directon de la Recherche en Santé, Hospices Civils de Lyon, provided help with manuscript preparation. This individual received no compensation for her contributions.
                Article
                zoi240445
                10.1001/jamanetworkopen.2024.12846
                11117085
                38780940
                7fb25520-6233-41a8-a420-c7e86b5f73a5
                Copyright 2024 Wiener-Vacher SR et al. JAMA Network Open.

                This is an open access article distributed under the terms of the CC-BY License.

                History
                : 18 December 2023
                : 21 March 2024
                Categories
                Research
                Original Investigation
                Online Only
                Pediatrics

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