[Hearing loss due to mutations or lack of the gene coding protein stereocillin]. / Narushenie slukha pri mutatsiyakh ili otsutstvii gena, kodiruyushchego belok stereotsilin.

OBJECTIVE: The description of a clinical picture and audiological features at the hearing loss caused by changes of a STRC gene, coding protein stereocillin (MIM: 606440). Mutations in the numerous genes responsible for the inner ear proteins are the reason for congenital sensorineural hearing loss. The main cause of congenital bilateral sensorineural hearing loss in the Russian Federation are mutations in GJB2 gene it reaches up 68% of cases identified in infancy. GJB2 gene tests already became routine around the world. Possibilities of new methods based on sequencing of new generation (NGS, next generation sequencing) allow to conduct a research of more rare genes connected with a hearing impairment. The most often among GJB2 negative patients reveal mutations and deletion of a gene of STRC. PATIENTS AND METHODS: Full audiological examination of 5 children and one adult with a hearing loss from 2 unrelated families is provided. Mutations in STRC gene were identified. All children are examined aged before 8 years, and 3 children failed universal audiological screening in maternity hospital, to two children screening was not carried out as they were born till 2009. RESULTS: The children with the sensorineural hearing loss connected with mutations and deletion of STRC gene failed hearing screening in maternity hospital because of the OAE is not registered, what indicates the congenital nature of a hearing loss. Recently it could not be noticed earlier because of slight increase of hearing thresholds and was regarded only as the early onset. Our data emphasize that the of thresholds from 35 to 60 dB in frequencies 0,5-4 kHz is common for mutations/deletions of STRC gene. CONCLUSION: The development of molecular genetics methods confirms the hereditary causes of GJB2-negative patients and expands indications for family counseling. Special approach for child with hearing loss so early revealed is necessary and the consultation of parents frightened of screening results is very important.

[OTOF-related auditory neuropathy spectrum disorder]. / Zabolevanie spektra auditornykh neiropatii, obuslovlennoe mutatsiyami v gene otoferlina (OTOF).

Otoferlin (OTOF) gene mutations are the most common cause of hereditary ANSD according to investigations in several countries. THE AIM: Of this study was to estimate the prevalence of OTOF mutations in Russian children with ANSD and evaluate audiological and clinical features of OTOF-related ANSD. PATIENTS AND METHODS: 28 children with bilateral ANSDwere enrolled in the investigation. Two step genetic testing was performed: first step - GJB2 gene testing to exclude GJB2-related hearing loss; second step - NGS-based sequencing to explore another 35 hearing loss genes (including OTOF). RESULTS: OTOF mutations, including 6 new variants, were found in 5 children with ANSD (18%). All 5 children had no risk factors for hearing loss and passed hearing screening. OAE and cochlear microphonics were present till the last testing at the age of 4-5 years. ABR were not detectable. The ASSR were measurable bilaterally at all frequencies in all cases, but they did not correlate with behavioral thresholds that revealed severe hearing loss. Hearing thresholds were stable during follow up period. 3 children underwent cochlear implantation. After cochlear implantation auditory nerve action potentials to electric stimulation were detected within normal range. CONCLUSION: Genetic testing of children with ANSD and first of all OTOF testing enables to reveal hearing loss etiology and provide the optimal rehabilitation approach, including cochlear implantation, as early as possible.

[The audiological phenotype and the prevalence of GJB2-related sensorineural loss of hearing in the infants suffering acoustic disturbances].

The objective of the present work was to study specific features of the audiological phenotype and the prevalence of GJB2-related sensorineural hearing loss (SNHL) in the infants suffering acoustic disturbances. The study included 264 children with bilateral non-syndromic sensorineural loss of hearing diagnosed during the first year of life by means of detailed audiological examination that included tympanometry, registration of short-latency auditory action potentials (SLAAP), delayed evoked otoacoustic emission (DEOAE), distortion product-frequency otoacoustic emission (DPFOAE), and auditory brain-stem response (ABR). In addition, stationary acoustically evoked responses (SAER) were recorded in 38 children presenting with hearing impairment associated with GJB2-related sensorineural loss of hearing. The follow-up dynamic study involved 113 children subjected to repeated audiological examination. The study revealed the genotype with pathological mutations in 182 (69.0%) children including 171 (64.8%) ones with biallelic mutations and 11 (4.2%) with a single mutation (heterozygous genotype). Eighty two (31.0%) children had genotype without mutations. A total of 21 different mutations and 30 different genotypes were identified. Analysis of the family histories of the children showed that neither the absence of relatives suffering from hearing impairment nor the presence of risk factors of acquired hearing impairment excludes the possibility of GJB2-related sensorineural loss of hearing in the infants. Otoacoustic emission fails to be registered in the majority of the children with the altered genotype (87%) during the stay in the maternity house. Mutations in the GJB2 gene are most frequently diagnosed in the patients with the moderate, moderately severe, and severe loss of hearing. At the same time, almost half of the infants presenting with the mild loss of hearing were found to exhibit changes in the GJB2 gene. The thresholds of registration of short-latency auditory action potentials remain stable in 90.0% of the children presenting with GJB2-related sensorineural loss of hearing which makes it possible to choose the strategy of their rehabilitative treatment (the use of hearing aids or cochlear implantation) during the very first months of life and predict the favourable outcome of cochlear implantation and hearing aid measures. The results of the present work illustrate the importance and practical significance of genetic studies (GJB2 gene tresting) of the infants suffering sensorineural loss of hearing and other acoustic disturbances for the elucidation of etiology of these conditions, prognosis of the disease, and the choice of the strategy for its treatment.

[The mutation spectrum of the GJB2 gene in Belarussian patients with hearing loss. Results of pilot genetic screening of hearing impairment in newborns].

A total of 111 unrelated probands and their 8 sibs from Grodno oblast (Belarus) with bilateral isolated sensorineural hearing impairment were studied for the presence of mutations in the connexin 26--GJB2gene. Mutations were detected in 51 probands (46% of the sample). A significantly higher frequency of the GJB2gene mutations was observed in familial cases of the disease with the autosomal recessive type of inheritance (in 78% of families). Detected peculiarities of the GJB2 gene mutation spectrum demonstrated that use of the algorithm, which was developed for Russian patients, is optimal for the molecular study of patients from Be- larus. In the sample of patients with hearing loss, the highest (among other similar samples studied in the world) allele frequency of c.313_326de114 mutation (7% out of all pathological GJB2 alleles) was registered; Polish origin of this deletion was suggested. It was demonstrated that detection of the GJB2 gene mutation on only one patient's chromosome is insufficient to confirm a molecular genetic diagnosis of hearing loss of the DFNB1 genetic type (autosomal recessive hearing loss caused by the GJB2 gene mutations). Pilot screening in the presence of GJB2 gene mutations in newborns from Grodno oblast was conducted. The material from 235 children was studied during the screening; nine heterozygous carriers of the mutation were found. The c.35delG mutation was detected in a homozygous state in a single newborn (hearing loss of moderate severity was subsequently audiologically confirmed in this child).

[New recurrent extended deletion, including GJB2 and GJB6 genes, results in isolated sensorineural hearing impairment with autosomal recessive type of inheritance].

Hereditary hearing loss with the autosomal recessive type of inheritance of the DFNB 1 genetic type, caused by mutations in the GJB2 gene, is the main reason of innate non-syndromal hearing impairment in most developed countries of the world (including Russia). Intragenic point mutations prevail among the GJB2 gene defectors; however, extended deletions in the DFNB1 locus are also found with considerable frequency in some populations (for example, Spain, Great Britain, France, United States, and Brazil). Among the four known extended deletions, only one deletion affects directly the GJB2 gene sequence and was described in a single family. A new extended deletion in the GJB2 and GJB6 gene sequences (approximately 101 kb in size; NC_000013.10:g.20,757,021_20,858,394del), detected in three unrelated Russian patients, was described and characterized. Ingush origin of this mutation is assumed. If the new deletion is frequent, its detection is very important for the genetic consulting of families with hereditary hearing impairment.

[Changes in the connexin 26 (GJB2) gene in Russian patients with hearing disorders: results of long-term molecular diagnostics of hereditary nonsyndromic deafness].

Search for mutations in the connexin 26 gene (GJB2) is a routine molecular-genetic analysis ofthe hereditary deafness worldwide. However, till now there is no assessment of the diagnostic significance of this analysis for Russian patients, and there are difficulties in interpretation of the results of DNA diagnostics. In the present study, a sample of 705 patients with nonsyndromic autosomal recessive deafness from different regions of Russian Federation was investigated. A portion of deafness like DFNB1 caused by mutations in the GJB2 gene among the sample was 46%. The frequency of deafness of such genetic type was 1:1000, that is, the frequency of isolated autosomal recessive deafness was 1:500 in the population. It was found that each sixteenth individual in Russia is a heterozygous carrier of the mutation in the GJB2gene. Totally, 20 pathological GJB2 alleles were detected; among them, a c.35delG mutation with the allelic frequency 81% prevails. Six most frequent mutations (c.35delG, c.313_326de114, c.-23+1G>A (IVS1+1G>A), c.235delC, c.167delT, and p.Glul20del), which account for 95% of pathological GJB2 alleles, were detected. Mutations previously not described in the GJB2 gene (c.129delG, p.Gly200Arg, and c[Arg127His, Gly160Ser]) were found. An optimal algorithm of molecular investigation of Russian patients which detects up to 100% of mutations in the GJB2 gene was suggested. Data concerning a clinical significance of p.Met34Thr and p.Va137Ile mutations are confirmed in the study. Eight polymorphic substitutions in the GJB2gene which do not have clinical significance (p.Va127Ile, c.*3C>A, p.Va115311e, p.Gly160Ser, c.Arg127His, p.Glull4Gly (c.341A>G), c.-45C>A, and p.Ala149Thr) were also detected.

[The results of audiological examination of children presenting with sensorineural loss of hearing due to GJB2 gene mutations during the first year of life].

One of the topical problems of modern pediatric audiology is early diagnostics of congenital sensorineural loss of hearing in children and their timely rehabilitation. The objective of the present study was to obtain audiological characteristics of sensorineural hearing impairment associated with GJB2 gene mutations in children during the first year of life. The methods used were registration of short-latency auditory evoked potentials (slAEP) and the otoacoustic emission (OAE) techniques. The study included 66 children at the age of several months presenting with bilateral sensorineural loss of hearing who were available for the examination by an otorhinolaryngologist, tympanometry, slAEP recording, delayed EOAE (dEOAE) and distortion-product frequency OAE (dpOAE) techniques, and genetic counseling. The examination was carried out in duplicate, with an interval of 3 months. The genotype containing GJB2 gene mutations was identified in 47 (71.2%) children. The 35delG mutation was found in 41; in 31 of them it occurred in the homozygous state and in 10 in the heterozygous state. In the latter group, 8 children had the 35delG mutation in the compound heterozygous state together with one more mutation. Six children turned out to carry a pathological genotype with other GJB2 gene mutations. It was shown that OAE fails to be recorded in most patients with hearing impairment due to GJB2 gene mutations during the first months of life. The authors conclude that these mutations usually lead to the development of persistent bilateral symmetric sensorineural loss of hearing.

[Genetic screening for hearing disorders in newborn infants in combination with audiological screening].

Congenital deafness has the heterogeneous nature and can be underlain by both acquired and genetically determined causes. It has been estimated that the prevalence of clinically manifest forms of congenital deafness amounts to 1 case per 700 births. Half of these patients present with the deafness of genetic origin. One of the most common forms of congenital deafness is the hereditary one associated with mutations of the GJB2 gene. The most frequent mutation documented in this country is 35delG leading to congenital and prelingual bilateral deafness in 52% of the cases. The number of carriers of the 35delG mutation among healthy populations in the majority of regions of the Russian Federation is estimated at 2-4%. At present, identification of a child with bilateral loss of hearing in the course of detailed audiological screening dictates the necessity of genetic testing. It is believed that combined audiological and molecular genetic screening may be helpful for the early detection of children with a pathological genotype including those with only slightly manifest hearing loss at birth. Families having such a child should be in due time counseled about the risk of giving life to another child with the above disorder by the same couple or other relatives of the childbearing age.