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Listen NowAuditory neuropathy spectrum disorder (ANSD) affects how sound is sent from the ear's inner hair cells to the brain. Here's the latest research on ANSD, cochlear implant candidacy, and tips for (re)habilitation unique to this patient population.
Auditory neuropathy spectrum disorder (ANSD) is a group—or spectrum—of hearing disorders that affects how sound is sent from the inner hair cells of the ear to the brain. Some children with ANSD may have a normal or near-normal ability to detect sound, while others can experience a loss of hearing sensitivity ranging from mild to severe or even profound hearing loss.
Even when individuals with ANSD do detect sound, they can often have difficulty understanding speech clearly, especially when noise is present, which is typically out of proportion to their tonal thresholds [1]. ANSD can sometimes affect the processing of timing cues required to understand a rapidly changing acoustic signal such as speech; as a result, speech can seem distorted and difficult to understand even though the child is able to hear it. This condition has been described as dys-synchrony and is a common subtype of the auditory neuropathy spectrum. Individuals with ANSD may also display unexpectedly poorer performance with understanding speech-in-noise relative to their peers with congenital sensorineural hearing loss. Clinical presentation of ANSD varies widely, due to the range of possible etiologies [1].
Traditional audiological tools to assess the severity of ANSD, while useful for diagnosis, are not reliable indicators of auditory potential in children affected with this disorder. Specifically, do not dependably predict the auditory thresholds in children with ANSD.[2] Instead, current international guidelines suggest that inadequate progress in spoken language development and speech recognition ability should weigh heavily upon decisions about audiological management, particularly cochlear implantation, regardless of the individual’s hearing thresholds.[2]
ANSD outcomes for individuals following cochlear implantation have demonstrated an overall improvement in pure-tone thresholds following a failed trial with amplification.[3] Improvements in speech recognition performance have been generally favorable but more variable. Typically, poorer outcomes have been observed in individuals who have a compromised auditory nerve (e.g., cochlear nerve deficiency) or in cases where the neural integrity is in question.[4][5][6] Recent systematic reviews[7][8] have shown the overall benefits of cochlear implantation for children with ANSD, however prognostic factors including the site of lesion, hearing aid experience, genetic testing, genetic and developmental comorbidities and age of implantation need to be considered prior to recommending a cochlear implant for children with ANSD[7]. Age at implantation was suggested as a predictor of speech perception and speech intelligibility following cochlear implantation in this population[7]. For this reason, detailed multidisciplinary assessment, and careful and deliberate counselling of expectations regarding cochlear implant outcomes is recommended for all candidates.[2]
Cochlear implant candidacy for individuals with ANSD is determined by the individual’s cochlear implantation team.
(Re)habilitation following diagnosis, pre-implant counselling, and a collaborative team effort is essential for success in cochlear implant recipients with ANSD. A well-rounded (re)habilitation program should address:
In order to determine whether the ANSD has an adverse impact on a child’s listening development, rehabilitation professionals must ascertain how well the child understands natural spoken language. Here are some suggested activities to aid in the process:
Functional listening skills can provide useful information to professionals and caregivers about the individual’s auditory response to the sounds of speech. It is recommended for children who rely on a hearing device as well as those who listen without assistance. Daily use of the test can also reveal fluctuations in hearing responses, which is sometimes a feature of ANSD. The Ling 6 Sound Test is a quick and effective check of functional listening. Please visit the MED-EL Blog for more information about the Ling 6 Sound Test and a short video on how it is used.
If new vocabulary cannot be retained, then sophisticated spoken language will not emerge. Auditory memory skills challenge the auditory brain to listen and recall critical information in a sentence (i.e., connected speech). Auditory memory activities can include a varying number of key items (e.g., Get your jacket and ball.) or critical elements (e.g., Put your shoes under the table.) that the child must understand and remember in order to grasp the message or follow the request.
A sound aural habilitation program promotes spoken language development by building from simple, acoustically highlighted speech (e.g. Uh-oh! It fell downnnn!) towards more complex spoken messages (e.g. Your juice cup fell under the table). For children with ANSD, a prolonged emphasis on exaggerated, simplistic language can disguise persistent difficulty with natural conversation which is more rapid. Rehabilitation professionals can maintain a steady emphasis on speech understanding in connected discourse by also including:
References
De Siati, R. D., Rosenzweig, F., Gersdorff, G., Gregoire, A., Rombaux, P., & Deggouj, N. (2020). Auditory neuropathy spectrum disorders: from diagnosis to treatment: literature review and case reports. Journal of clinical medicine, 9(4), 1074. https://doi.org/10.3390/jcm9041074
Hayes, D., Sininger, Y. S., & Northern, J. (2008, June). Guidelines for identification and management of infants and young children with auditory neuropathy spectrum disorder. In Proceedings of the Guidelines Development Conference at NHS.
Roush, P., Frymark, T., Venediktov, R., & Wang, B. (2011). Audiologic Management of Auditory Neuropathy Spectrum Disorder in Children: A Systematic Review of the Literature. American Journal Of Audiology, 20(2), 159-170. https://doi.org/10.1044/1059-0889(2011/10-0032)
Buchman, C., Roush, P., Teagle, H., Brown, C., Zdanski, C., & Grose, J. (2006). Auditory Neuropathy Characteristics in Children with Cochlear Nerve Deficiency. Ear & Hearing, 27(4), 399-408. https://doi.org/10.1097/01.aud.0000224100.30525.ab
Teagle, H., Roush, P., Woodard, J., Hatch, D., Zdanski, C., Buss, E., & Buchman, C. (2010). Cochlear Implantation in Children with Auditory Neuropathy Spectrum Disorder. Ear & Hearing, 31(3), 325-335. https://doi.org/10.1097/aud.0b013e3181ce693b
Walton, J., Gibson, W., Sanli, H., & Prelog, K. (2008). Predicting Cochlear Implant Outcomes in Children With Auditory Neuropathy. Otology & Neurotology, 29(3), 302-309. https://doi.org/10.1097/mao.0b013e318164d0f6
Raza, A. F., Aryal, S., & Prabhu, P. (2023). Indicators for cochlear implantation in children with auditory neuropathy spectrum disorder: A systematic review. International Journal of Pediatric Otorhinolaryngology, 111737. https://doi.org/10.1016/j.ijporl.2023.111737
Morlet, T., O’Reilly, R., Pritchett, C., Venskytis, E., & Parkes, W. (2023). A 15-year review of 260 children with auditory neuropathy spectrum disorder: II. Management and outcomes. Ear and Hearing, 44(5), 979-989. https://doi.org/10.1097/AUD.0000000000001366
Therres, M., & Steyns, I. (2017). A Child’s Journey Developmental Milestones (Birth – 6 Years). Innsbruck, Austria: MED-EL Medical Electronics. Contact your local MED-EL representative to obtain a copy or download the A Child’s Journey app (available on tablets only).
Rance, G. (2014). An update on auditory neuropathy spectrum disorder in children. Proceedings Article: Sound Foundation Through Early Int. San Diego, CA: Plural Publishing, 137-44.
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