Analysis of COL1A1 gene variation and clinical prevention and treatment in patients with Van der Hoeve syndrome / 中华耳鼻咽喉头颈外科杂志

Objective: To investigate the clinical phenotype, treatment and prevention of Van der Hoeve syndrome, and analyze the variation characteristics of its related gene COL1A1. Methods: Hearing and sequencing data of syndromic deafness patients who had undergone genetic testing for deafness at the Chinese People's Liberation Army General Hospital since January 2008 to October 2020 were retrospectively reviewed. The variation of the COL1A1 gene and return visits to traceable patients and families were summarized, the disease progress and clinical treatment effects were analyzed, and the prevention strategies were discussed. Results: A total of 7 patients with COL1A1 gene mutation underwent clinical intervention. The mutation sites were c.1342A>T (p.Lys448*), c.124C>T (p.Gln42*), c.249insG(p.Ala84*), c.668insC(p.Gly224*), c.2829+1G>C, c.1081C>T (p.Arg361*), c.1792C>T (p.Arg598*), of which c.1081C>T and c.1792C>T had been previously reported, and the remaining 5 were novo mutations that have not been reported. All the 7 probands underwent stapes implantation and received genetic counseling and prevention guidance. Conclusions: Van der Hoeve syndrome belongs to osteogenesis imperfecta type Ⅰ. The disease has high penetrance. Timely surgical intervention for hearing loss can improve the life quality in patients. Accurate genetic counseling and preimplantation genetic diagnosis can achieve the primary prevention for the disease.

Prenatal genetic test and clinical guidance for 213 hereditary deaf families / 中华耳鼻咽喉头颈外科杂志

<p><b>OBJECTIVE</b>To summarize the workflow, strategy and experience of prenatal genetic test for deafness based on the 6-year clinical practice.</p><p><b>METHODS</b>There were 213 families who received prenatal test from 2005 to 2011. Among the 213 families, 205 families had had one deaf child, including 204 couples with normal hearing and one couple of the deaf husband and normal wife, 8 families including 6 couples with normal hearing and 2 deaf couples, had no child before test. Genomic and mitochondrial DNA of each subject was extracted from whole blood. The etiology and recurrent risks in 212 families were confirmed by means of the genetic test of GJB2, SLC26A4 and mtDNA 12sRNA, but one family carried POU3F4 c.647G > A heterozygous mutation causing X-linked hereditary hearing impairment confirmed by pedigree study. The prenatal test was carried out during the pregnancy of all mothers from 11 to 30 weeks, and the following genetic information and counseling were supplied based on the results.</p><p><b>RESULTS</b>The recurrent risk was 25% in 209 families, including 204 families with one deaf child and 5 families without child, among which all couples were GJB2 or SLC26A4 mutation carriers and deaf children were caused by homozygous or compound GJB2/SLC26A4 mutations; The recurrent risk was 50% in 3 families, the father and his child in one family had compound SLC26A4 mutations and the mother with heterozygous SLC26A4 mutation, the wife had POU3F4 c.647G > A heterozygous mutation in another one family, and the husband with compound SLC26A4 mutations and the wife with mtDNA A1555G mutation and heterozygous SLC26A4 mutation simultaneously happened in the rest one family; The recurrent risk was 100% in one family of the deaf couple who were both found to carry homozygous or compound GJB2 mutations, and the deaf wife got pregnant by artificial insemination with the sperm from the local Human Sperm Bank. 226 times of prenatal test were applied in all 213 families that 11 families of them received prenatal test twice, and one family received three times. 46 times of prenatal testing showed that the fetuses carried parental mutations simultaneously or the same mutations with probands; while 180 times of prenatal test showed that the fetuses carried only one parental mutation or did not carry any mutation from parents. The following visit showed that all of these 180 families had given birth to babies who were all revealed to have normal hearing by new born hearing screening test.</p><p><b>CONCLUSIONS</b>Prenatal diagnosis for deafness assisted by genetic test can provide efficient information about offspring's hearing condition, and the normative workflow and precise strategy highly guarantee the safe and favorable implementation of prenatal diagnosis.</p>

Prenatal genetic counseling and instruction for deaf families by genetic test / 中华耳鼻咽喉头颈外科杂志

<p><b>OBJECTIVE</b>Analyzed the molecular pathogenesis of probands by means of genetic test and assisted the local Family Planning Institute by providing prenatal genetic counseling and instruction for deaf families who eager to have more baby.</p><p><b>METHODS</b>Total of forty-three deaf families were recruited by two institutes for family planning from Guangzhou and Weifang. Forty-two families had one deaf child with normal hearing parents. One family was that parents and their child were all deaf. Genetic testing of GJB2, SLC26A4 and mitochondrial DNA (mtDNA) 12SrRNA were firstly performed in probands and their parents, following medical history, physical examination, auditory test and CT scan of temporal bone were completed. And then the genetic information and instruction were provided to each deaf family.</p><p><b>RESULTS</b>Fifteen of these 43 families had positive results of genetic test. In fifteen families, one family was confirmed that the parents and their child all carried homozygous GJB2 mutations and the recurrence risk was 100%. Twelve families were confirmed that the probands carried homozygous/compound GJB2 or SLC26A4 mutations while their parents were GJB2 or SLC26A4 carriers, and the recurrence risk was 25%. One family was confirmed that the proband, diagnosed with enlarged vestibular aqueduct syndrome (EVAS) by CT scan, carried heterozygous SLC26A4 mutation from the mother, and the recurrence risk was still 25% based on the hereditary pattern of EVAS although another SLC26A4 mutation from the father was not found. One family was confirmed that the proband carried a heterozygous GJB2 mutation from the mother and the possibility to be GJB2 carrier for offsprings was 50%. The rest 28 families were that all probands and their parents did not carry GJB2, SLC26A4 and mtDNA 12SrRNA pathological mutation.</p><p><b>CONCLUSIONS</b>Genetic testing can provide more accurate and useful prenatal genetic counseling and instruction to deaf families. Meanwhile, it is an ideal way to develop a cooperative relationship with the institute for family planning.</p>

Tonal audiometry of GJB2 235delC single heterozygous mutation carriers / 中华耳鼻咽喉头颈外科杂志

<p><b>OBJECTIVE</b>To analyze GJB2 235delC monoallelic mutation carrier individuals and test the possible presence and incidence of audiometric abnormalities among 30-60 years old carriers of the 235delC mutations.</p><p><b>METHODS</b>A total of 32 unrelated subjects with nonsyndromic hearing loss were screened for the 235delC mutation. Tonal audiometric analysis was performed on the 235delC mutation carrier group and on a non-carrier control group.</p><p><b>RESULTS</b>Audiometric evaluations in the control group showed the presence of thresholds within normal limits at all frequencies, while carriers of the 235delC mutation presented with decreased hearing at 1000 Hz and 2000 Hz (age 40-49 years and 50-59 years), and 4000 and 8000 Hz (age 30-59 years), P < 0.05. The hearing loss of carriers gradually increased with age.</p><p><b>CONCLUSIONS</b>GJB2 235delC heterozygous carriers may be a risk group for high-frequency hearing loss. Hearing thresholds may deteriorate in the intermediate frequencies over the age of 40.</p>

Analysis on the changing trends of non-communicable diseases in Xinjiang Production and Construction Corps,from 1998 to 2008 / 中华流行病学杂志

Objective To understand the changing trends of non-communicable diseases (NCDs) in Xinjiang Production and Construction Corps from 1998 to 2008.Methods A stratified-cluster random sampling based cross-sectional NCDs survey was carried out in 2008,and using the data of NCDs from the health service surveys in 1998 and 2004,in Xinjiang Production and Construction Corps.The prevalence rate of NCDs was standardization according to age proportion of the population being surveyed in 1998.Results In 1998,2004 and 2008,the prevalence rates of NCDs in Xinjiang Production and Construction Corps were 17.26%,25.61%,24.85% while the Standardized rates of NCDs were 17.26%,23.54% and 20.49% respectively.The prevalence rates of NCDs were statistically significant different in 35-,45-,55- and over 65 age groups in 1998,2004 and 2008 which showed an consecutive upward trend.The prevalence rates of hypertension,diabetes,cerebrovascular disease,coronary heart disease and chronic obstructive pulmonary disease increased significantly from 1998 to 2008.The prevalence rate of hypertensive disease among 25- age group,diabetes among 35- age group,cerebrovascular disease and coronary heart disease among 45- age groups showed an increasing trend.Conclusion Cardiovascular and cerebrovaseular diseases,together with diabetes were the fastest increasing ones over the past 10 years and becoming the major diseases,making the Xinjiang Production and Construction Corps an aging population.NCDs should be prioritized in the health development plan.Targeted health education should be carried out in the whole population,together with other interventions as well as management programs on chronic diseases to reduce the prevalence of NCDs.

Sequence analysis of GJB3 in Chinese deafness population who carry one heterozygous GJB2 pathogenic mutation / 中华耳鼻咽喉头颈外科杂志

<p><b>OBJECTIVE</b>To investigate whether GJB3 and GJB2 interaction to produce a deafness phenotype in a digenic mode of inheritance in Chinese deafness population.</p><p><b>METHODS</b>A series of 108 patients with severe or profound hearing loss carrying one heterozygous GJB2 pathogenic mutation were sequenced for GJB3 coding region, which compared with the data of control group.</p><p><b>RESULTS</b>Three GJB3 missense variants including V84I, A194T and N166S, and four GJB3 nonsense mutation were detected. N166S and A194T were considered as pathogenic which cause nonsyndromic autosomal recessive hearing loss and V84I was considered as polymorphisms in Chinese population. The two patients who carried N166S and A194T respectively in one allele also carried GJB2 235delC mutation in other allele, while the other patient who carried A194T in one allele also carried GJB2 299_300delAT mutation in other allele.</p><p><b>CONCLUSIONS</b>GJB3 and GJB2 might interact to produce deafness in a digenic mode of inheritance, but the point need to be proved in further study.</p>

Features of nationwide distribution and frequency of a common gap junction beta-2 gene mutation in China / 中华耳鼻咽喉头颈外科杂志

<p><b>OBJECTIVE</b>To determine the prevalence of a common GJB2 mutation in a big Chinese population of deaf children and the features of its distribution in regions all over the nation and to provide epidemiology data and expertise for genetic testing of deafness in China.</p><p><b>METHODS</b>The DNA samples of NSHI patients and normal controls were collected from different typical areas of China. The method of polymerase chain reaction-restriction fragment length polymorphism (PCR-RFLP) with ApaI was used to determine the genotype of GJB2 235 site.</p><p><b>RESULTS</b>Totally 16.3% of patients carried at least one 235 delC mutant allele. Among them, 7.8% was homozygous and 8.5% was heterozygous. The prevalence of GJB2 235delC mutation in China was evident, and the significant difference of 235delC mutation frequency was found in sub-population from different areas and different ethnic groups.</p><p><b>CONCLUSIONS</b>Based upon the result of this screening as stated, Chinese NSHI patients appear to have 235delC frequency and the number of GJB2 related deafness was estimated to be huge. The testing of GJB2 235delC mutation would play an important role in genetic diagnosis and screening in China. As high as 15% of patients could be diagnosed as GJB2 caused deafness (bi-allelic mutation) only by means of this simple, fast and economic assay. In addition, patients were negative for 235delC mutation would be candidates for further mutational analysis of GJB2 or other deafness related genes.</p>

Genetic counseling and instruction for deaf couples directed by genetic testing / 中华耳鼻咽喉头颈外科杂志

<p><b>OBJECTIVE</b>To analyze the molecular pathogenesis of deaf couples by means of genetic testing. To provide accurate genetic counseling and instruction for deaf couples with different etiology based upon results of genetic testing.</p><p><b>METHODS</b>Four deaf families from July 2005 to May 2006. Each subject was with moderate to profound hearing loss. Genomic and mitochondrial DNA (mtDNA) of each subject were extracted from whole blood. Genetic testing of GJB2, SLC26A4 (PDS) and mtDNA A1555G mutation were offered to each individuals.</p><p><b>RESULTS</b>The husband from family 1 didn't carry GJB2, SLC26A4 and mtDNA A1555G mutation while his wife was confirmed to carry compound SLC26A4 mutations. The possibility of their offspring's to be SLC26A4 single mutation carrier was 100%. The couple from family 2 both didn't carry GJB2, SLC26A4 and mtDNA A1555G mutation. The possibility of their offspring's having hereditary deafness caused by GJB2, SLC26A4 and mtDNA A1555G mutation was excluded. The husband from family 3 was confirmed to carry homozygous GJB2 mutations and a single SLC26A4 mutation while his wife who was diagnosed with enlarged vestibular aqueduct syndrome (EVAS) by CT scan was proven to carry a single SLC26A4 mutation. The risk of their offspring's suffering EVAS was 50%. The husband from family 4 was mtDNA A1555G positive while his wife who was diagnosed with cochlear malformation by CT scan didn't carry GJB2, SLC26A4 and mtDNA A1555G mutation. The risk of their offspring's having hereditary deafness caused by GJB2, SLC26A4 and mtDNA A1555G mutation was excluded.</p><p><b>CONCLUSIONS</b>Genetic testing could be applied to offer the more accurate genetic counseling and instruction to deaf couples.</p>

Prenatal diagnosis for hereditary deaf families assisted by genetic testing / 中华耳鼻咽喉头颈外科杂志

<p><b>OBJECTIVE</b>To provide prenatal diagnosis for deaf families, which the first child was confirmed to be hereditary deafness caused by gap junction beta-2 (GJB2) or SLC26A4 (PDS) mutation, to avoid another deaf birth in these families.</p><p><b>METHODS</b>Eight deaf families joined in this study. Each family had one child with severe to profound hearing loss while parents had normal hearing except a deaf father from family 8; mothers had been pregnant for 6-28 weeks. Genetic testing of GJB2, SLC26A4 and mitochondrial DNA (mtDNA) A1555G mutation were firstly performed in probands and their parents whose DNA was extracted from peripheral blood, and then prenatal testing was carried out in the fetus whose DNA was extracted from different fetus materials depending on the time of gestation.</p><p><b>RESULTS</b>The probands from family 1-4 were found to carry homozygous or compound GJB2 mutations while their parents carried corresponding heterozygous GJB2 mutations. The probands from family 5-8 and the deaf father from family 8 were found to carry compound SLC26A4 mutations while their parents and the mother from family 8 carried a single SLC26A4 mutation. Prenatal testing showed that the fetuses from family 1, 5, 8 only carried the paternal mutation and the fetuses from family 2, 3, 6 didn't carry any GJB2 or SLC26A4 mutations. The new born babies from these six families all had normal hearing revealed by new born hearing screening. However, the fetuses from family 4,7 carried the same mutations with probands in each family. The parents from family 4, 7 decide to terminate pregnancy.</p><p><b>CONCLUSION</b>Prenatal diagnosis assisted by genetic testing can provide efficient information about hearing condition of their offsprings.</p>