Cochlear implant in a child diagnosed with Dandy-Walker Syndrome Variant: a study case

Pedrett, Mariana dos Santos; Borges, Silvia; Avelino Júnior, Luiz Carlos; Costa, Maria Beatriz Pedrett

doi:10.1590/1982-0216201820416217

ABSTRACT

Dandy-Walker Syndrome Variant presents itself as a milder form of Dandy-Walker Syndrome, with less pronounced vermis hypoplasia, and hearing impairment is among its characteristics. This study aimed to report the case of a male patient aged 4.5 clinically diagnosed with Dandy-Walker Syndrome variant, a cochlear implant user, who was referred to rehabilitation services and followed up by a multidisciplinary team. The patient underwent therapy assisted by an audiologist/speech therapist and a physiotherapist between June 2016 and December 2016, totaling 20 sessions, with emphasis on the Aurioral approach. His evolution regarding hearing and motor abilities was evaluated through standardized instruments that helped to catalogue the patient’s evolution and responses in an empirical way. The development of his auditory and motor skills, evaluated through standardized tests used as parameters of therapeutic evolution, demonstrated that rehabilitation, performed by a multi-professional team, can be satisfactorily applied in the management of cases where deafness does not appear as the only associated factor. It is suggested that a cochlear implant, despite the difficulties peculiar to the syndrome in question, can be an effective resource to acquire oral language and reach more complex stages related to hearing and language skills.

Keywords:
Cochlear Implant; Dandy-Walker Syndrome; Psychomotor Performance; Rehabilitation; Language

RESUMO

A Variante da Síndrome de Dandy-Walker apresenta uma forma mais branda em relação à Síndrome de Dandy-Walker, sendo a hipoplasia do vermes menos acentuada e dentre suas características, a deficiência auditiva. O estudo objetivou relatar o caso de um paciente do sexo masculino, 4:5 anos, quadro compatível com Variante da Síndrome, usuário de implante coclear, referenciado ao serviço de reabilitação com equipe multidisciplinar. Foi inserido em terapia com fonoaudiólogo e fisioterapeuta, no período entre julho a dezembro de 2016, totalizando 20 sessões, com ênfase na abordagem Aurioral. Avaliou-se sua evolução quanto às habilidades auditivas e motoras, por meio de instrumentos padronizados que auxiliaram na catalogação da evolução e das respostas do paciente de maneira empírica. O desenvolvimento das habilidades auditivas e motoras, avaliadas por meio de testes utilizados como parâmetros de evolução terapêutica demonstraram que a reabilitação, realizada em equipe multiprofissional, pode ser aplicada satisfatoriamente no gerenciamento de casos em que a surdez não aparece como único fator. Sugere-se que o implante coclear, apesar das dificuldades peculiares à síndrome, pode ser um recurso eficiente para aquisição da linguagem oral e alcance de etapas mais complexas relacionadas às habilidades auditivas e de linguagem.

Descritores:
Implante Coclear; Síndrome de Dandy-Walker; Desempenho Psicomotor; Reabilitação; Linguagem

Introduction

Dandy-Walker Syndrome is characterized by cystic dilatation of the fourth ventricle, by aplasia, either total or partial hypotrophy of cerebellar vermis, and it is a non-familial syndrome in which cerebral malformations with corpus callosum agenesis, heteropsias, lissenphaly, and stenosis of the aqueduct of Sylvius may occur. The Dandy-Walker variant presents itself as a milder form, with less pronounced hypoplasia of the vermis and hydrocephalus is less common ¹1. Albright AL, Pollack IF, Adelson PD. Principles and practice of pediatric neurosurgery. 2th ed. New York: Thieme Medical Publishers; 2008.^,²2. Cueva-Núñez JE, Lozano-Bustillo A, Irias-Álvarez MS, Vásquez-Montes RF, Varela-González DM. Variante de Dandy Walker: reporte de um caso. Rev Chil Pediatr. 2016;87(5):406-10..

Auditory deficit is among its main characteristics. Bilateral sensory-neural deafness may be part of the clinical picture of the syndrome, and a cochlear implant can be an option to reduce the effects of deafness on oral language acquisition³3. Oliveira AKP, Hamerschmidt R, Mocelin M, Rezende RK. Implante coclear em paciente com síndrome de Dandy-Walker. Int Arch Otorhinolaryngol. 2012;16(3):406-9.. Treatment involves a multidisciplinary team and the prognosis is variable according to the phenotype⁴4. Khan RL, Leon CA, Romagna ES, Ballardin PAZ. Dandy Walker variant: a case report. Scientia Medica. 2009;19(4):186-91..

The objective of this study was to evaluate the auditory, linguistic and motor skills of an implanted child included in a speech therapy program with aurioral approach by a multidisciplinary team.

Case Presentation

The research was approved by the Ethics Committee of the State University of Amazonas, normative act 1.679.634, the Free and Informed Consent Form was signed by the people in charge, according to Resolution CNS 466/2012.

The casuistry of this research consisted of a child, KL, 4.5 years of chronological age, male, diagnosed with profound bilateral sensorineural hearing loss at 1 year and 8 months of age, due to the Dandy-Walker syndrome variant.

Data from the patient’s record show audiological exams performed before the implant: Transient Otoacoustic Emissions and Evoked Otoacoustic Emissions, Distortion Product with absent responses in all frequency bands in both ears. In the electrophysiological hearing assessment, Brainstem Auditory Evoked Potentials were not detected bilaterally. The parameters used to perform the examination by air conduction were click stimuli, with alternating polarity and frequency rate of 27.1 clicks per second. As for the wave morphology at 100 dB HL, the V wave was identified with bilaterally increased absolute latency time, OE / OD with minimum response level at 95 dB HL. By bone conduction a click stimulus was used, with alternating polarity and frequency of 27.1 clicks per second, without contralateral masking, OE / OD with no response at 60 dB HL.

Tympanometry: bilateral type A curve. Absence of contralateral and ipsilateral stapedial reflexes. Behavioral hearing test with no response to the instruments and no observed VOR (Vestibulo-Ocular Reflex).

From this point on, there was a selection, indication and adaptation process of PSAP (Personal Sound Amplification Device/Product) in the institution that referred the patient to this service. The patient received, at the time, a pair of appliances, model NAIDA I UP, brand Phonak, adapted in bilateral shell mold. Free Field audiometry indicated auditory thresholds with PSAP in: 250 Hz-80dB HL, 500Hz-100 dB HL, 1000Hz-100dB HL, 2000HZ-100dB HL, 4000Hz-100dB HL, that is, the child was not able to detect speech even with the use of personal sound amplification devices, and undergoing therapy based on the aurioral approach.

CI surgery was performed at 2.5 years of age, with full insertion and adequate functioning of all electrodes, verified in impedance telemetry, in addition to adequate neural response. The inserted device was the Harmony model by Advanced Bionics. At 2.6 months of age the implant electrodes were activated, with the speech processor programmed with the HiRes 120 speech coding strategy. According to the family, the child makes effective use of the CI, however, has not used the PSAP in the contralateral ear, despite the indication/recommendation, since the implant activation. After CI, the free-field audiometry presented 35 dB on average and logoaudiometry 25 dB.

The diagnosis is Dandy-Walker Syndrome Variant. Magnetic resonance imaging of the encephalon indicates cerebellar vermis hypoplasia and mild dilatation of the cisterna magna (Figures 1 and 2).

Figure 1:
Magnetic resonance imaging, axial section evidencing hypoplasia of the cerebellar vermis.

Figure 2:
Magnetic resonance imaging, sagittal section showing reduced cerebellar volume and mild dilatation of cisterna magna

A karyotype study was performed, which revealed there was no consanguinity between the parents and no history of gestational complications. The patient presented delayed psychomotor development, significant psychomotor agitation and changes in balance. The child was included in a therapeutic process with an audiologist/speech therapist and a physiotherapist, in joint care, always using the CI device, between July 2016 and December 2016, totaling 20 sessions, with emphasis on the Aurioral approach. He presented a hearing age of 22 months at the beginning of the service. The therapeutic goals and objectives have prioritized certain aspects of rehabilitation to develop auditory skills such as: detection, discrimination, recognition and comprehension of oral language, associated to improvement of motor coordination and balance adequacy. At the beginning of each session, the proper functioning of the CI device was checked through the Ling sounds⁵5. Rissatto MR, Novaes BCAC. Próteses auditivas em crianças: importância dos processos de verificação e validação. Pró-Fono R. Atual. Cient. 2009;21(2):131-6., in which six phonemes representing the audibility of speech sounds were evaluated.

The data of the patient's chart containing the records of the therapies performed were analyzed. With this in mind, the evolution of the patient was evaluated through specific protocols, according to the child's age, which helped establish a comparison in a given period of therapeutic care, as well as catalogue and evaluate the patient's evolution and responses empirically.

For the evaluation of hearing and language skills, parents responded to the Significant Hearing Integration Scale protocol for small children - IT-MAIS, translated and validated for Portuguese⁶6. Castiquini EAT, Bevilacqua MC. Escala de integração auditiva significativa: procedimento adaptado para a avaliação da percepção da fala. Rev. Soc Bras Fonoaudiol. 2000;4(6):51-60., besides the classification of hearing and language development according to hearing and language categories ⁷7. Bevilacqua MC, Delgado EMC, Moret ALM. Estudos de casos clínicos de crianças do Centro Educacional do Deficiente Auditivo (CEDAU), do Hospital de Pesquisa e Reabilitação de Lesões Lábio-Palatais - USP. In: Costa OA, Bevilacqua MC (Orgs). Anais do XI Encontro Internacional de Audiologia;1996; 30 mar. 02 abr; Bauru, Brasil. 1996. p. 187.^,⁸8. Geers AE. Techniques for assessing auditory speech perception and lip reading enhancement in young deaf children. Volta R. 1994;96(5):85-96.. For the evaluation of motor skills, during care, the Developmental Coordination Disorder Questionnaire was used. DCDQ-Brazil, whose aim was to detect motor development disorders, through which it is possible to identify if motor difficulties interfere significantly in everyday activities.⁹9. Prado MSS, Magalhães LC, Wilson BN. Cross-cultural adaptation of the Developmental Coordination Disorder Questionnaire for brazilian children. Rev Bras Fisioter. 2009;13(3):236-43.

The so-called IT-MAIS (Significant Hearing Integration Scale for young children) is a protocol used to verify the auditory abilities of young children and aims to evaluate the perception of speech in children under 4 with profound hearing impairment. It is organized in 10 simple questions related to spontaneous auditory behaviors in everyday situations, it aims to evaluate three areas of development, such as changes in vocalization associated with the use of the device, alert of environmental sounds and attribution of meaning to sound. Each question on the scale corresponds to 5 points, ranging from 0 (zero) to 4 (four), 0 = never, 1 = rarely, 2 = occasionally, 3 = often and 4 = always. These questions add up to 40 points that correspond to 100%, indicating optimal auditory development in relation to attention and recognition of speech sounds.

Thus, the application was performed through an informal interview with parents, who were asked to report, as faithfully as possible, the child's auditory behavior, and provide examples of day-to-day development. At the end of the application, scores were assigned according to the categories proposed in the instrument, and the hearing ability was classified according to the hearing categories ⁸8. Geers AE. Techniques for assessing auditory speech perception and lip reading enhancement in young deaf children. Volta R. 1994;96(5):85-96.^,¹⁰10. Pinto ESM, Lacerda CBF, Porto PRC. Comparação entre os questionários IT-MAIS e MUSS com vídeo-gravação para avaliação de crianças candidatas ao implante coclear. Rev. Bras. Otorrinolaringol. 2008;74(1):91-8..

Category 0 - no speech detection. This child does not detect speech in normal conversation situations (speech detection threshold > 65 dB).

Category 1 - detection. This child detects the presence of the speech signal.

Category 2 - pattern of perception. This child differentiates words by supra segmental characteristics (duration, tone, etc.). e.g.: mão (hand) X sapato (shoe), casa (house) X menino (boy).

Category 3 - initiating word identification. This child differentiates between words in a closed set based on phonetic information. This pattern can be demonstrated with words that are identical in duration but contain multiple spectral differences, e.g. geladeira (refrigerator) X bicicleta (bicycle), gato (cat) X casa (house).

Category 4 - word identification through vowel recognition. This child differentiates between words, in a closed set, which differ primarily in the sound of the vowel. e.g.: pé (foot), pó (powder), pá (shovel); mão (hand), meu (mine/my), mim (me).

Category 5 - identification of words by means of consonant recognition. This child differentiates between words, in a closed set, which have the same vowel sound, but contain consonant differences. e.g.: mão (hand), pão (bread), tão (so/too), cão (dog), chão (ground).

Category 6 - word recognition in open set. This child is able to hear words out of context and extract enough phonemic information and recognize the word exclusively through listening.

For classification of hearing and language categories, behaviors, auditory responses and oral communication were also evaluated in interactive situations through activities in the therapeutic environment¹¹11. Melo TM, Lara JD. Habilidades auditivas e linguísticas iniciais em crianças usuárias de implante coclear: relato de caso. J. Soc. Bras. Fonoaudiol. 2012;24(4):390-4.. It was possible, therefore, to record clinical observations and classify the hearing and oral language aspects, as originally proposed by the therapeutic goals. In the end, scores were assigned according to language categories.

DCDQ-Brazil

To evaluate the skills and motor development, the Development Coordination Disorder Questionnaire (DCDQ), developed in Canada and adapted to Brazilian Portuguese for Brazilian children, was used⁹9. Prado MSS, Magalhães LC, Wilson BN. Cross-cultural adaptation of the Developmental Coordination Disorder Questionnaire for brazilian children. Rev Bras Fisioter. 2009;13(3):236-43.. The instrument has a specific questionnaire for the detection of motor development disorders. It consists of fifteen items that evaluate the performance of the child in different everyday life situations, whose questions are divided into three groups: motor control during movements, fine / written motor and general coordination. The items were scored on a five-point scale (1 = nothing like your child) and 5 (extremely similar to your child), with a maximum score equal to 75. The higher the score, the better the child's motor performance.

After completing the questionnaire, the scores of each item were added to obtain the final score. The maximum score, adding the points of the three areas, is 75. Three cut-points were developed for identification of DCD (Developmental Coordination Disorder). A score 0-46 indicates that the child has DCD or may have DCD. A score 47-75 indicates that the child probably does not have DCD. The authors reiterate that the final result should be compared to the observation of the child both in a therapeutic environment and in an informal environment. Thus, the instrument serves to screen and identify children who are at risk for DCD, Developmental Coordination Disorder, in which it is possible to identify if motor difficulties significantly interfere with activities of daily life⁹9. Prado MSS, Magalhães LC, Wilson BN. Cross-cultural adaptation of the Developmental Coordination Disorder Questionnaire for brazilian children. Rev Bras Fisioter. 2009;13(3):236-43..

It should be observed that all the evaluation instruments described were applied in two different moments. The first evaluation was performed in July 2016, when the child was referred by another service to assistance, and the second was performed after 6 months of therapy, in December 2016.

Results

Evaluation of the Development of Auditory and Language Skills

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Table 1:
Results from the first evaluation on after 6 months of therapy

With regard to hearing and language skills, the percentage started to set at 52.5% in IT-MAIS. The improvement of the performance of the hearing and language categories can be evidenced by the better results in the auditory comprehension, arranged in Tables 2 and 3.

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Table 2:
Evolution of language skills⁶6. Castiquini EAT, Bevilacqua MC. Escala de integração auditiva significativa: procedimento adaptado para a avaliação da percepção da fala. Rev. Soc Bras Fonoaudiol. 2000;4(6):51-60.

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Table 3:
Evolution of Auditory Skills⁷7. Bevilacqua MC, Delgado EMC, Moret ALM. Estudos de casos clínicos de crianças do Centro Educacional do Deficiente Auditivo (CEDAU), do Hospital de Pesquisa e Reabilitação de Lesões Lábio-Palatais - USP. In: Costa OA, Bevilacqua MC (Orgs). Anais do XI Encontro Internacional de Audiologia;1996; 30 mar. 02 abr; Bauru, Brasil. 1996. p. 187.

After analyzing Tables 2 and 3, it can be seen that the patient presented improvement in oral language, moving from category 1 (the child does not speak and can present undifferentiated vocalizations) to category 3 (this child builds sentences). Despite difficulties in aspects related to Dandy-Walker syndrome, these results guarantee quality of life. This information comes from parental reports when the questionnaires are applied.

Assessment of the Development of Motor Skills

It is important to note that the evaluation instruments were applied in two moments, an initial evaluation and another after six months of care to make it possible to determine a parameter of evolution of the child's responses, as shown in Figure 3.

Figure 3:
Evaluation of Developmental Coordination Disorder

Thus, in the initial evaluation, observing the indicative values of the instrument to verify the significant disorder in motor coordination, the child presented scores lower than 46 for his age group, indicative of difficulties in coordination, reaching, in the second evaluation, a score equal to 50, indicating a satisfactory evolution, during which, it was possible to notice the improvement of the motor control during movements, fine motor and general coordination, despite the balance limitations imposed by the syndrome.

In this process, 15 aspects distributed in the DCDQ-Brazil sessions were evaluated, including motor control during movement, fine motor skills and writing and global motor coordination.

Discussion

In the case presented herein, the patient’s age of diagnosis is considered late (1 year and 8 months old), due to his long-term hearing loss as well as his not performing well when using PSAPs, which may negatively interfere with the development of hearing and language, seeing that a relevant part of the neuronal plasticity period of the central pathways was compromised.

Some studies confirm that the performance of the implanted child in the evaluated areas is directly related to the factors, such as: frequent use of the device, the age the patient was when the surgery was performed, time of sensory deprivation, hearing disability etiology, family involvement in the therapeutic process, in addition to the existence of impairments associated with hearing loss, among others ⁵5. Rissatto MR, Novaes BCAC. Próteses auditivas em crianças: importância dos processos de verificação e validação. Pró-Fono R. Atual. Cient. 2009;21(2):131-6.^,⁷7. Bevilacqua MC, Delgado EMC, Moret ALM. Estudos de casos clínicos de crianças do Centro Educacional do Deficiente Auditivo (CEDAU), do Hospital de Pesquisa e Reabilitação de Lesões Lábio-Palatais - USP. In: Costa OA, Bevilacqua MC (Orgs). Anais do XI Encontro Internacional de Audiologia;1996; 30 mar. 02 abr; Bauru, Brasil. 1996. p. 187.^,¹⁰10. Pinto ESM, Lacerda CBF, Porto PRC. Comparação entre os questionários IT-MAIS e MUSS com vídeo-gravação para avaliação de crianças candidatas ao implante coclear. Rev. Bras. Otorrinolaringol. 2008;74(1):91-8.

11. Melo TM, Lara JD. Habilidades auditivas e linguísticas iniciais em crianças usuárias de implante coclear: relato de caso. J. Soc. Bras. Fonoaudiol. 2012;24(4):390-4.^-¹²12. Moret AL, Bevilacqua MC, Costa AO. Implante coclear: audição e linguagem em crianças deficientes auditivas pré-linguais. Pro-Fono R. Atual. Cientif. 2007;19(3):295-304..

However, despite these criteria and the association of this Syndrome with deafness, the participant, after being included in the therapeutic program, 6 months after the first IT-MAIS test, presented scores with a 20% increase, with significant gains in the hearing category , indicating that the CI contributed to a better auditory perception of this child, who started to speak more words with emission of sentences of up to two or more elements, at the end of this period, indicating a good evolution in terms of auditory and language skills. Evolving from Hearing Category 2 to 4.

It is observed that in the first application of the instrument (Table 1), there was an increase in vocalizations after the activation of the CI, a fact that can be attributed to the auditory feedback provided by the implant.

Besides, the application of questionnaires to parents, as well as the relationship between professionals and the family, enabled the extraction of important information related to auditory and linguistic development, as well as reports on the frequency of these abilities appearing in the child's daily life, as some studies corroborate¹⁰10. Pinto ESM, Lacerda CBF, Porto PRC. Comparação entre os questionários IT-MAIS e MUSS com vídeo-gravação para avaliação de crianças candidatas ao implante coclear. Rev. Bras. Otorrinolaringol. 2008;74(1):91-8.^,¹²12. Moret AL, Bevilacqua MC, Costa AO. Implante coclear: audição e linguagem em crianças deficientes auditivas pré-linguais. Pro-Fono R. Atual. Cientif. 2007;19(3):295-304.^,¹³13. Bicas RS, Guijo LM, Delgado-Pinheiro EMC. Oral communication and auditory skills of hearing impaired children and adolescents and the speech therapy rehabilitation process. Rev. CEFAC. 2017;19(4):465-74..

Studies described in the literature regarding the benefit of the implant in relation to hearing and language skills in cases involving the syndrome are quite scarce, only one publication suggests that the presence of Dandy-Walker syndrome cannot be considered a contraindication for surgery and the use of the cochlear implant³3. Oliveira AKP, Hamerschmidt R, Mocelin M, Rezende RK. Implante coclear em paciente com síndrome de Dandy-Walker. Int Arch Otorhinolaryngol. 2012;16(3):406-9.. However, other studies have described that, in children with hearing impairment, language development may be close to that of normal children if impairment is mild. On the other hand, children with more serious disorders may present a development that is below the expected. The use of CI in these cases would improve the perception of speech, although this improvement is often significantly lower than that found in children who do not have these additional disorders, which reinforces the present findings in this study¹⁴14. Eze N, Ofo E, Jing D, O'Connor AF. Systematic review of cochlear implantation in children with developmental disability. Otol Neurotol. 2013;34(1):1385-93.

15. Figueroa-Angel V, Reyes-Moreno I, García-López R, Rodriguez AC, Martínez-Muniz I. Síndrome de Dandy Walker. Arch Neurocien. 2013;18(2):92-8.^-¹⁶16. Daneschi A, Hassanzadeh S. Cochlear implantation in prelingually deaf persons with additional disability. J Laryngol Otol. 2007;121(7):635-8..

It is important to mention that there are studies that point out that the development of hearing and language skills may be slower in children with syndromes other than deafness, especially in relation to expressive language, an aspect that can be verified in the findings of this study, in which the child presented, with regard to language skills, slower results when compared to hearing abilities¹⁴14. Eze N, Ofo E, Jing D, O'Connor AF. Systematic review of cochlear implantation in children with developmental disability. Otol Neurotol. 2013;34(1):1385-93.^,¹⁶16. Daneschi A, Hassanzadeh S. Cochlear implantation in prelingually deaf persons with additional disability. J Laryngol Otol. 2007;121(7):635-8..

Regarding the development of motor skills, the results showed that when comparing initial evaluation with reevaluation there was a significant improvement in trunk balance, plantar support, coordination and overall movement. Research has shown that both the cerebellum and the prefrontal cortex are two important areas for motor functions and attention aspects of the subject, which are more disturbed in patients with the syndrome¹⁷17. Bhattacharya A, Desarkar P, Haque S. A case of Dandy-Walker variant disorder associated with multiple neuropsychiatric comorbidities managed with behavioral therapy. J Neuropsychiatry Clin Neurosci. 2013;25(1):E3-4.^,¹⁸18. Fonseca MSM, Vieira MW, Nascimento SRD, Esposito SB. Malformação de Dandy-Walker. Rev. Faculdade de Ciências Médicas de Sorocaba. 2017;19(1):4-5.. Thus, it is important to report that the child presented, at first, psychomotor difficulties during the performance of activities involving motor coordination and balance, in addition to hearing impairment. Because of this, multidisciplinary management was regarded relevant considering the presented symptoms, a language rehabilitation program, associated with the motor activities in a global way, offered the patient an adequate development in a holistic way. Moreover, the instrument was used to early identify whether or not there was a developmental coordination disorder, in order to allow adequate intervention and support to reduce the negative consequences associated with this condition.

Specific cases, such as this one, lead us to have discussions in the implant centers regarding the indication of CI in children with hearing loss disorders. Those who opt for implantation aim to minimize auditory sensory deprivation, improve interaction with the environment, understand language and, consequently, have quality of life. Although the results described in these studies by researchers fall short of those presented by their peers without associated syndromes, sensory input is described as a facilitating factor for interaction and access to auditory and language skills ³3. Oliveira AKP, Hamerschmidt R, Mocelin M, Rezende RK. Implante coclear em paciente com síndrome de Dandy-Walker. Int Arch Otorhinolaryngol. 2012;16(3):406-9.^,¹⁹19. Raffety A, Martin J, Strachan D, Raine C. Cochlear implantation in children with complex needs - outcomes. Cochlear Implants Int. 2013;14(1):61-6.

20. Santos MJD, Bevilacqua MC, Moret ALM, Lamônica DAC, Costa OA, Yamaguti EH. Processo de indicação do implante coclear em uma criança com paralisia cerebral: estudo de caso. Rev. soc. bras. fonoaudiol. 2011;16(4):474-8.^-²¹21. Broomfield SJ, Bruce IA, Henderson L, Ramsdeim RT, Greem KM. Cochlear implantation in children with syndromic deafness. Inter J. Pediatr Otorhinolaryngol. 2013;77(8):1312-6..

Cochlear implant centers are gaining more experience and the application criteria for surgery are being expanded, but children with additional disabilities continue to be a topic of discussion. Many centers perform surgery on children with additional disabilities, but this population is quite diverse and presents unique challenges. Literature suggests that 30-40% of children with sensorineural hearing loss have an additional deficiency¹⁵15. Figueroa-Angel V, Reyes-Moreno I, García-López R, Rodriguez AC, Martínez-Muniz I. Síndrome de Dandy Walker. Arch Neurocien. 2013;18(2):92-8.^,¹⁸18. Fonseca MSM, Vieira MW, Nascimento SRD, Esposito SB. Malformação de Dandy-Walker. Rev. Faculdade de Ciências Médicas de Sorocaba. 2017;19(1):4-5..

Other studies suggest that multidisciplinarity is able to add to the intervention context several benefits. Thus, it results in a rehabilitation program with language therapy and psychomotor exercises in patients with changes in motor and speech development, which emphasizes the importance of early diagnosis and a multidisciplinary team ⁴4. Khan RL, Leon CA, Romagna ES, Ballardin PAZ. Dandy Walker variant: a case report. Scientia Medica. 2009;19(4):186-91.^,¹⁷17. Bhattacharya A, Desarkar P, Haque S. A case of Dandy-Walker variant disorder associated with multiple neuropsychiatric comorbidities managed with behavioral therapy. J Neuropsychiatry Clin Neurosci. 2013;25(1):E3-4.^,¹⁹19. Raffety A, Martin J, Strachan D, Raine C. Cochlear implantation in children with complex needs - outcomes. Cochlear Implants Int. 2013;14(1):61-6..

Due to the motor limitations of the child, the assistance of a professional physiotherapist contributed to expand his functions, as well as the modification of neurological and motor difficulties, including cognitive and communication aspects.

Conclusion

The development of auditory skills and motor development, demonstrated in the IT-MAIS and DCDQ-Brazil test results, respectively, used as parameters of the therapeutic evolution of this child with diagnosis of the Dandy-Walker Variant, showed that therapeutic rehabilitation, performed with both support and a multi-professional team, can be applied satisfactorily in the management of cases where deafness does not appear as the only associated factor.

In addition, it suggests that a cochlear implant can be an efficient resource for acquiring oral language and reaching complex stages related to hearing abilities, despite the peculiar difficulties caused by the syndrome, it promotes access to sounds, minimizes auditory sensory deprivation, favors interaction with the environment and undeniable quality of life for the child and his family.

When analyzing the specific case of this patient, one can consider the scope of positive aspects in relation to the benefits obtained with the device.

References

¹
Albright AL, Pollack IF, Adelson PD. Principles and practice of pediatric neurosurgery. 2th ed. New York: Thieme Medical Publishers; 2008.
²
Cueva-Núñez JE, Lozano-Bustillo A, Irias-Álvarez MS, Vásquez-Montes RF, Varela-González DM. Variante de Dandy Walker: reporte de um caso. Rev Chil Pediatr. 2016;87(5):406-10.
³
Oliveira AKP, Hamerschmidt R, Mocelin M, Rezende RK. Implante coclear em paciente com síndrome de Dandy-Walker. Int Arch Otorhinolaryngol. 2012;16(3):406-9.
⁴
Khan RL, Leon CA, Romagna ES, Ballardin PAZ. Dandy Walker variant: a case report. Scientia Medica. 2009;19(4):186-91.
⁵
Rissatto MR, Novaes BCAC. Próteses auditivas em crianças: importância dos processos de verificação e validação. Pró-Fono R. Atual. Cient. 2009;21(2):131-6.
⁶
Castiquini EAT, Bevilacqua MC. Escala de integração auditiva significativa: procedimento adaptado para a avaliação da percepção da fala. Rev. Soc Bras Fonoaudiol. 2000;4(6):51-60.
⁷
Bevilacqua MC, Delgado EMC, Moret ALM. Estudos de casos clínicos de crianças do Centro Educacional do Deficiente Auditivo (CEDAU), do Hospital de Pesquisa e Reabilitação de Lesões Lábio-Palatais - USP. In: Costa OA, Bevilacqua MC (Orgs). Anais do XI Encontro Internacional de Audiologia;1996; 30 mar. 02 abr; Bauru, Brasil. 1996. p. 187.
⁸
Geers AE. Techniques for assessing auditory speech perception and lip reading enhancement in young deaf children. Volta R. 1994;96(5):85-96.
⁹
Prado MSS, Magalhães LC, Wilson BN. Cross-cultural adaptation of the Developmental Coordination Disorder Questionnaire for brazilian children. Rev Bras Fisioter. 2009;13(3):236-43.
¹⁰
Pinto ESM, Lacerda CBF, Porto PRC. Comparação entre os questionários IT-MAIS e MUSS com vídeo-gravação para avaliação de crianças candidatas ao implante coclear. Rev. Bras. Otorrinolaringol. 2008;74(1):91-8.
¹¹
Melo TM, Lara JD. Habilidades auditivas e linguísticas iniciais em crianças usuárias de implante coclear: relato de caso. J. Soc. Bras. Fonoaudiol. 2012;24(4):390-4.
¹²
Moret AL, Bevilacqua MC, Costa AO. Implante coclear: audição e linguagem em crianças deficientes auditivas pré-linguais. Pro-Fono R. Atual. Cientif. 2007;19(3):295-304.
¹³
Bicas RS, Guijo LM, Delgado-Pinheiro EMC. Oral communication and auditory skills of hearing impaired children and adolescents and the speech therapy rehabilitation process. Rev. CEFAC. 2017;19(4):465-74.
¹⁴
Eze N, Ofo E, Jing D, O'Connor AF. Systematic review of cochlear implantation in children with developmental disability. Otol Neurotol. 2013;34(1):1385-93.
¹⁵
Figueroa-Angel V, Reyes-Moreno I, García-López R, Rodriguez AC, Martínez-Muniz I. Síndrome de Dandy Walker. Arch Neurocien. 2013;18(2):92-8.
¹⁶
Daneschi A, Hassanzadeh S. Cochlear implantation in prelingually deaf persons with additional disability. J Laryngol Otol. 2007;121(7):635-8.
¹⁷
Bhattacharya A, Desarkar P, Haque S. A case of Dandy-Walker variant disorder associated with multiple neuropsychiatric comorbidities managed with behavioral therapy. J Neuropsychiatry Clin Neurosci. 2013;25(1):E3-4.
¹⁸
Fonseca MSM, Vieira MW, Nascimento SRD, Esposito SB. Malformação de Dandy-Walker. Rev. Faculdade de Ciências Médicas de Sorocaba. 2017;19(1):4-5.
¹⁹
Raffety A, Martin J, Strachan D, Raine C. Cochlear implantation in children with complex needs - outcomes. Cochlear Implants Int. 2013;14(1):61-6.
²⁰
Santos MJD, Bevilacqua MC, Moret ALM, Lamônica DAC, Costa OA, Yamaguti EH. Processo de indicação do implante coclear em uma criança com paralisia cerebral: estudo de caso. Rev. soc. bras. fonoaudiol. 2011;16(4):474-8.
²¹
Broomfield SJ, Bruce IA, Henderson L, Ramsdeim RT, Greem KM. Cochlear implantation in children with syndromic deafness. Inter J. Pediatr Otorhinolaryngol. 2013;77(8):1312-6.

Publication Dates

Publication in this collection
Jul-Aug 2018

History

Received
18 Oct 2017
Accepted
31 May 2018

This is an open-access article distributed under the terms of the Creative Commons Attribution License

[1] ¹
Albright AL, Pollack IF, Adelson PD. Principles and practice of pediatric neurosurgery. 2th ed. New York: Thieme Medical Publishers; 2008.

[2] ²
Cueva-Núñez JE, Lozano-Bustillo A, Irias-Álvarez MS, Vásquez-Montes RF, Varela-González DM. Variante de Dandy Walker: reporte de um caso. Rev Chil Pediatr. 2016;87(5):406-10.

[3] ³
Oliveira AKP, Hamerschmidt R, Mocelin M, Rezende RK. Implante coclear em paciente com síndrome de Dandy-Walker. Int Arch Otorhinolaryngol. 2012;16(3):406-9.

[4] ⁴
Khan RL, Leon CA, Romagna ES, Ballardin PAZ. Dandy Walker variant: a case report. Scientia Medica. 2009;19(4):186-91.

[5] ⁵
Rissatto MR, Novaes BCAC. Próteses auditivas em crianças: importância dos processos de verificação e validação. Pró-Fono R. Atual. Cient. 2009;21(2):131-6.

[6] ⁶
Castiquini EAT, Bevilacqua MC. Escala de integração auditiva significativa: procedimento adaptado para a avaliação da percepção da fala. Rev. Soc Bras Fonoaudiol. 2000;4(6):51-60.

[7] ⁷
Bevilacqua MC, Delgado EMC, Moret ALM. Estudos de casos clínicos de crianças do Centro Educacional do Deficiente Auditivo (CEDAU), do Hospital de Pesquisa e Reabilitação de Lesões Lábio-Palatais - USP. In: Costa OA, Bevilacqua MC (Orgs). Anais do XI Encontro Internacional de Audiologia;1996; 30 mar. 02 abr; Bauru, Brasil. 1996. p. 187.

[8] ⁸
Geers AE. Techniques for assessing auditory speech perception and lip reading enhancement in young deaf children. Volta R. 1994;96(5):85-96.

[9] ⁹
Prado MSS, Magalhães LC, Wilson BN. Cross-cultural adaptation of the Developmental Coordination Disorder Questionnaire for brazilian children. Rev Bras Fisioter. 2009;13(3):236-43.

[10] ¹⁰
Pinto ESM, Lacerda CBF, Porto PRC. Comparação entre os questionários IT-MAIS e MUSS com vídeo-gravação para avaliação de crianças candidatas ao implante coclear. Rev. Bras. Otorrinolaringol. 2008;74(1):91-8.

[11] ¹¹
Melo TM, Lara JD. Habilidades auditivas e linguísticas iniciais em crianças usuárias de implante coclear: relato de caso. J. Soc. Bras. Fonoaudiol. 2012;24(4):390-4.

[12] ¹²
Moret AL, Bevilacqua MC, Costa AO. Implante coclear: audição e linguagem em crianças deficientes auditivas pré-linguais. Pro-Fono R. Atual. Cientif. 2007;19(3):295-304.

[13] ¹³
Bicas RS, Guijo LM, Delgado-Pinheiro EMC. Oral communication and auditory skills of hearing impaired children and adolescents and the speech therapy rehabilitation process. Rev. CEFAC. 2017;19(4):465-74.

[14] ¹⁴
Eze N, Ofo E, Jing D, O'Connor AF. Systematic review of cochlear implantation in children with developmental disability. Otol Neurotol. 2013;34(1):1385-93.

[15] ¹⁵
Figueroa-Angel V, Reyes-Moreno I, García-López R, Rodriguez AC, Martínez-Muniz I. Síndrome de Dandy Walker. Arch Neurocien. 2013;18(2):92-8.

[16] ¹⁶
Daneschi A, Hassanzadeh S. Cochlear implantation in prelingually deaf persons with additional disability. J Laryngol Otol. 2007;121(7):635-8.

[17] ¹⁷
Bhattacharya A, Desarkar P, Haque S. A case of Dandy-Walker variant disorder associated with multiple neuropsychiatric comorbidities managed with behavioral therapy. J Neuropsychiatry Clin Neurosci. 2013;25(1):E3-4.

[18] ¹⁸
Fonseca MSM, Vieira MW, Nascimento SRD, Esposito SB. Malformação de Dandy-Walker. Rev. Faculdade de Ciências Médicas de Sorocaba. 2017;19(1):4-5.

[19] ¹⁹
Raffety A, Martin J, Strachan D, Raine C. Cochlear implantation in children with complex needs - outcomes. Cochlear Implants Int. 2013;14(1):61-6.

[20] ²⁰
Santos MJD, Bevilacqua MC, Moret ALM, Lamônica DAC, Costa OA, Yamaguti EH. Processo de indicação do implante coclear em uma criança com paralisia cerebral: estudo de caso. Rev. soc. bras. fonoaudiol. 2011;16(4):474-8.

[21] ²¹
Broomfield SJ, Bruce IA, Henderson L, Ramsdeim RT, Greem KM. Cochlear implantation in children with syndromic deafness. Inter J. Pediatr Otorhinolaryngol. 2013;77(8):1312-6.

Assessment	1st Evaluation	2nd Evaluation
Assessment	made in July 2016	made in Dec. 2016
IT-MAIS	32.5% Report of increase in vocalizations after the use of CI, attention to the call of the patient’s own name in a quiet environment. Attention to the environment sounds.	52.5% Patient responds to his name spontaneously in different environments, can discriminate environmental sounds in relation to speech sounds, and discriminates different voices .
Hearing Category	2	4
Language Category	1	3

Categories	July 2016	Dec.2016	Language Development
1	Starting Age: 4.5 Hearing Age: 22 months		This child does not speak and can present undifferentiated vocalizations.
2			He speaks only isolated words.
3		Age: 4.11 Hearing Age: 28 months	He builds simple sentences composed of 2 or 3 words (After Cochlear Implant).
4			He builds sentences of 4 or 5 words, and starts using connective elements (pronouns, articles, prepositions).
5			This child builds sentences of more than 5 words, using connective elements, conjugating verbs, using plurals, etc. He is fluent in oral language.

Categorias	Jul/2016	Dez/2016	Development of Auditory Skills
0			This child does not detect speech in normal conversation situations (speech detection threshold> 65 dB)..
1			Detection: This child detects the presence of the speech signal.
2	Starting Age: 4.5 Hearing Age: 22 months		This child differentiates words by supra-segmental traits (duration, tone, etc.), e.g. mão (hand) X sapato (shoe); casa (house) X menino (boy).
3			Beginning of the identification of words This child differentiates between words in a closed set based on phonetic information. This pattern can be demonstrated with words that are identical in duration but contain multiple spectral differences, e.g. geladeira (refrigerator) X bicicleta (bicycle), gato (cat) X casa (house).
4		Age: 4.11 Hearing Age: 28 months	Identification of words through vowel recognition. This child differentiates between words in a closed set that differ primarily in terms of the vowel sound, e.g. pé (foot), pó (powder), pá (shovel); mão (hand), meu (mine, me).
5			Identification of words through recognition of the consonant. This child differentiates between words in a closed set that has the same sound as the vowel, but contains different consonants, e.g. mão (hand), pão (bread), tão (so), cão (dog), chão (ground).
6			Recognition of words in an open set. This child is able to hear words out of context and extract enough phonemic information, and recognize the word exclusively through hearing.