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Objective:To study the frequency of SLC26A4 gene mutation sites in children with enlarged vestibular aqueduct deafness in Yunnan, report the new mutation sites of SLC26A4 gene, further clarify the mutation spectrum of SLC26A4gene, and explore the association between biallelic and monoallelic mutations of SLC26A4 gene and CT phenotype of inner ear, so as to provide basis for clinical and genetic diagnosis of deafness. Methods:Review the results of temporal bone CT examination of 390 children after cochlear implantation in the Department of Otolaryngology, Kunming Children's Hospital from August 2016 to September 2021. Sanger sequencing of SLC26A4 gene was performed in 59 children with enlarged vestibular aqueduct. According to the genetic test results, the children who underwent temporal bone CT examination were divided into two groups: SLC26A4 biallelic mutation group(homozygous mutation and compound heterozygous mutation), monoallelic mutation group, and the association with inner ear CT phenotype was analyzed, and the new sites were summarized and analyzed. Results:The c.919-2a>g mutation was the most common mutation in children with enlarged vestibular aqueduct with SLC26A4 gene mutation. Three new variants of SLC26A4 gene were found; CT examination combined with genetic testing found that a part of children with enlarged vestibular aqueduct was associated with SLC26A4 monoallelic mutation or no SLC26A4 gene mutation was detected. Further research is needed to investigate the involvement of other pathogenic factors in the pathogenesis of EVA.
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Child , Humans , Mutation Rate , Membrane Transport Proteins/genetics , China , Hearing Loss, Sensorineural/diagnosis , Mutation , Vestibular Aqueduct , Vestibular Diseases/pathology , Deafness/geneticsABSTRACT
Objectives: Pendred syndrome is an autosomal recessive disorder characterized by the combination of sensorineural deafness and goiter and is caused by biallelic mutations in the SLC26A4/PDS gene. Thyroid function is generally reported as euthyroid or hypothyroid in this condition. We present a case of Pendred syndrome with hyperthyroidism.Patient: An 83-year-old woman with congenital deaf–mutism presented with complaints of nausea. She developed a large goiter and had hearing impairment. Her hearing level was 105 dB in both ears. She presented with hyperthyroidism and was treated with thiamazole.Results: She had a homozygous mutation in c.1579A>C:p.T527P of the SLC26A4 gene, confirming a diagnosis of Pendred syndrome.Conclusion: Pendred syndrome may develop into hyperthyroidism if the size of the goiter increases. Moreover, a homozygous mutation in c.1579A>C:p.T527P of the SLC26A4 gene, which was previously reported to be associated with nonsyndromic hearing loss with enlarged vestibular aqueduct, may also cause Pendred syndrome.
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Objective To explore the genetic pathogen of patients with non-syndromic hearing impairment and to provide prenatal diagnosis for the families of hereditary deafness. Methods Mutation screening of GJB2, SLC26A4, GJB3 and mitochondrial 12 S rRNA genes was performed in 208 patients with non-syndromic hearing impairment by gene chip. Then direct sequencing was used in 41 patients who were found one mutation of GJB2 or SLC26A4 gene. And prenatal diagnosis was carried out in two families by direct sequencing. Results Eighty-six patients (41.35%) were found at least one mutation by gene chip. Among them, 40 patients were found to carry two mutations and 46 patients were found to carry one mutation. The most frequent mutation was 235delC, which was found in 46 patients. And 12 cases were found the second mutation through direct sequencing. A total of 52 (25.00%) patients were detected two mutations. Prenatal diagnosis showed that one fetus carried compound mutations of 299-300delAT and 235delC, and another one carried heterozygous mutation of IVS7-2A>G. Conclusion Patients with non-syndromic hearing impairment can be accurately diagnosed by gene chip and Sanger sequencing. The prenatal diagnosis is primary means for high-risk fetuses.
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Objective To carry out mutation analysis of deafness-associated genes for deaf newborns and their parents, and to estimate the recurrence risk for their parents to have deaf descendants.Methods Suspected cases of inherited deafness were identified by neonatal hearing screening and questionnaires. Genomic DNAs of suspected cases and their parents were extracted from their peripheral blood samples . Common deafness-associated genes(i.e. GJB2,SLC26A4 and 12S rRNA genes)were amplified by polymerase chain reaction(PCR),and those PCR products were sequenced for the mutation analysis.Results From 2013 to 2016, 193 cases of deafness were found in neonatal hearing screening,29 cases of suspected as hereditary deafness were screened,and 17 out of 29 cases were found to have mutations in deafness-associated genes(detection rate:58.62%). GJB2 homozygous mutations were identified in two cases and their parents,and the recurrence risk to have deaf descendants was 100%. Four cases of suspected hereditary deafness had GJB2 homozygous mutations,and their parents were both GJB2 mutation carriers. There was one case with SLC26A4 homozygous mutations,and their parents were both SLC26A4 mutation carrier. Two cases were detected to have GJB2 V371 homozygous mutations,and their parents were both GJB2 V371 mutation carriers. For those seven parents carrying deafness-associated mutations above,the recurrence risk of deafness for their descendants was 25%.Conclusion In addition to hearing screening,the genetic diagnosis of deafness-associated genes is helpful to clarify the cause of suspected neonatal hereditary deafness,and can provide objective reproductive counseling and guidance for those deaf parents or parents with deaf children.
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Objective The molecular etiology of hearing impairment in Guangdong District has not been thor-oughly investigated.SCL26A4 gene mutation and relevant phenotype were analyzed in this study.Methods The coding exons of SLC26A4 were analyzed in 59 EVA cases.Those SLC26A4 gene mutations patients were examined by temporal bone CT.Results Fifty-nine cases were SLC26A4 mutations deafness patients,and 21 cases (35. 59%)and 38 cases (64.41%)patients with SLC26A4 biallelic allele (compound homozygous or heterozygous)and monoallelic gene mutation,including 16 cases of SLC26A4 gene IVS7-2 A> G homozygous mutations,2 cases of 2168A>G homozygous mutations and 3 cases of IVS7-2A>G,2168 A > G compound heterozygous mutations in children with CT showing bilateral enlarged vestibular aqueduct or other types of inner ear malformations.Thirty-one patients were IVS7-2A>G heterozygous for SLC26A4 mutation and seven 2168 A > G heterozygous muta-tion.Four patients with SLC26A4 gene mutations were confirmed to have enlarged vestibular aqueduct with Mondini dysplasia.Two patients with normal phenotype ,and others were enlarged vestibular aqueduct.Conclusion Muta-tions in the SLC26A4 gene with enlarged vestibular aqueduct patients were frequently found in Guangdong District.IVS7-2A>G mutations rate were highest,followed by 2168 A > G.We established the new strategy that detects SLC26A4 mutations prior to the temporal bone CT scan to find enlarged vestibular aqueduct and inner ear malforma-tion patients .
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Objective To explore the genetic mutation in neonates who failed to pass hearing screening.Methods A total of 111 cases of neonates who failed to pass hearing screening and were conifrmed sensorineural deafness by auditory brainstem evoked potential (ABR) were randomly selected. The heel blood was collected and DNA was extracted.GJB2, SLC26A4, and 11 mutation hotspots in mitochondria gene12SrRNA were tested. The relationship between degree of hearing loss and gene mutation was analyzed.Results In 111 neonates, mutation in deafness gene were found in 24 cases (21.6%) . Among them 14 cases (12.6%) hadGJB2 gene mutation including 5 cases of 235delC single heterozygous mutation, 5 cases of 235delC, and 1 case each of 299_300delAT compound heterozygous mutation, 235delC homozygous mutation, 299_300delAT single heterozygous mutation, 176_191del16 and 235delC compound heterozygous mutation, and 299_300delAT and 508_511dupAACG compound heterozygous mutation respectively. Ten cases (9.0%) hadSLC26A4 gene mutation including 2 cases of IVS7-2A>G single heterozygous mutation, 3 cases of 1226G>A single heterozygous mutation, 2 cases of 2168A>G single heterozygous mutation, and 3 cases of IVS7-2A>G and 2168A>G compound heterozygous mutation. Mitochondrial gene mutations were not detected. Conclusions Deafness gene mutation is detected in more than 1/5 neonates who failed to pass newborn hearing screening. GJB2 gene mutation is the most commons. The implementation of hotspots deafness gene detection can improve the diagnostic rate of deafness.
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Introducción: el acueducto vestibular dilatado, denominado en la literatura internacional EVA, porEnlarged Vestibular Aqueduct, ha sido reportadopor afectar hasta el 15% de la población pediátrica con hipoacusia neurosensorial. En su génesis compartecon Pendred en el Locus DFNB4, el Gen SLC26A4en el cromosma 7q22-31.1. No se conoce bienel comportamiento y la evolución de esta entidad,debido a la gran variabilidad genotípica y fenotípicaque presenta...
Introduction: Dilated Vestibular Aqueduct, known in the international literature Enlarged Vestibular Aqueduct (EVA) has been reported to affect up to 15% of the pediatric population with hearing loss Sensory Neuro. In its genesis shares with pendred in the locus DFNB4 the SLC26A4 gene in the cromosma 7q22-31.1. It is not well understood and evolution behavior of this entity, due to the great variability genotypic and phenotypic presented...
Introdução: Aqueduto vestibular dilatada conhecido na literatura internacional Enlarged Vestibular Aqueduct (EVA) tem sido relatada a afetar até 15% da população pediátrica com perda auditiva sensorial neuro. Em suas ações genesis com Pendred no Locus DFNB4 o gene SLC26A4 na 7q22-31.1 cromosma. Elenão é bem compreendida e o comportamento de evolução dessa entidade, devido à grande variabilidade genotípica e fenotípica apresentada...
Subject(s)
Male , Female , Humans , Adolescent , Adult , Child, Preschool , Child , Young Adult , Vestibular Aqueduct/abnormalities , Vestibular Aqueduct/anatomy & histology , Vestibular Aqueduct/physiopathology , Cochlear Implantation , Genetic Counseling , Hearing Loss/rehabilitation , Hearing Loss/surgeryABSTRACT
Objective To study the molecular pathogenesis of non -syndromic deafness in a Chinese family . Methods Clinical materials and DNA sample were obtained from the non -syndromic family with autosomal reces‐sive deafness .The exons and the flanking splicing sites of GJB2 and SLC26A4 were tested in all family members by PCR and direct sequencing .Results There were four deafness patients in the family ,and three of them had the same clinical phenotypes ,including prelingual profound sensorineural hearing loss and enlarged vestibular ,while the re‐mained one only presented to be prelingual profound sensorineural hearing loss without malformation of temporal bone .One type of GJB2 mutation and 3 different types of SLC26A4 mutations were identified in the family .The proband(Ⅲ -1) ,her sister(Ⅲ -2) ,her mother(Ⅱ -4) and her father(Ⅱ -3) carried different biallelic mutations which were SLC26A4 c .919 -2A > G/p .H723R ,p .Q413R/c .919 -2A > G ,p .Q413R/p .H723R and GJB2 c . 235delC/c .235delC ,respectively .Conclusion Different from most reported deafness families with the same molecu‐lar etiology in each one ,interestingly ,the pathogenies were different among all affected members in this family . They were caused by different biallelic mutations of SLC26A4 or GJB2 .