Thirlwall Andrea S, Brown David J, McMillan Pamella M, Barker Susan E, Lesperance Marci M
Oxford Regional Training Programme, Oxford, England.
Arch Otolaryngol Head Neck Surg. 2003 Aug;129(8):830-5. doi: 10.1001/archotol.129.8.830.
To clinically characterize a family with nonsyndromic sensorineural hearing loss linked to the DFNA25 gene and to assess whether mitochondrial mutations influence the penetrance of the phenotype.
Longitudinal clinical and basic science molecular genetic study.
Academic medical center and molecular genetic research laboratory.
Members of a family with dominant high-frequency sensorineural hearing loss.
Questionnaires, serial audiograms, and interviews correlated with molecular genetic data.
Symptoms, age at onset, serial audiometric data, and the presence or absence of 4 deafness-associated mitochondrial mutations.
Affected individuals typically manifest a high-frequency, slowly progressive sensorineural hearing loss in the postlingual period. The mode of inheritance is autosomal dominant with age-dependent penetrance. Male affected members tended to report an earlier onset of hearing loss than female members. In those inheriting the DFNA25-associated haplotype from an affected mother, hearing loss invariably developed by the second decade of life, whereas those inheriting the DFNA25 haplotype from an affected father often maintained hearing levels comparable to those of age-matched control subjects, even into the seventh decade of life. None of 4 deafness-associated mitochondrial mutations screened (1555A>G, 7445A>G, Cins7472, and 7511T>C) were found to segregate in the family.
It is difficult to differentiate delayed-onset high-frequency sensorineural hearing loss inherited as a simple mendelian trait like DFNA25-associated hearing loss from that due to noise exposure or presbycusis, disorders that may also have a genetic component. An awareness of the clinical presentation of such hearing loss may help clinicians identify hearing loss attributable to genetic causes and improve care for these patients.
对一个与DFNA25基因相关的非综合征性感音神经性听力损失家族进行临床特征分析,并评估线粒体突变是否影响该表型的外显率。
纵向临床及基础科学分子遗传学研究。
学术医学中心及分子遗传学研究实验室。
一个患有显性高频感音神经性听力损失的家族成员。
问卷调查、系列听力图检查以及与分子遗传学数据相关的访谈。
症状、发病年龄、系列听力测定数据以及4种与耳聋相关的线粒体突变的有无。
受影响个体通常在语言发育后期表现为高频、缓慢进展的感音神经性听力损失。遗传方式为常染色体显性遗传,具有年龄依赖性外显率。男性受影响成员往往比女性成员报告的听力损失发病更早。在那些从患病母亲那里遗传了与DFNA25相关单倍型的个体中,听力损失在生命的第二个十年必然会出现,而那些从患病父亲那里遗传了DFNA25单倍型的个体,即使到了生命的第七个十年,其听力水平通常仍与年龄匹配的对照受试者相当。在所筛查的4种与耳聋相关的线粒体突变(1555A>G、7445A>G、Cins7472和7511T>C)中,没有一种在该家族中分离。
很难将像与DFNA25相关的听力损失那样作为简单孟德尔性状遗传的迟发性高频感音神经性听力损失,与因噪声暴露或老年性耳聋导致的听力损失区分开来,而后两种疾病也可能有遗传成分。了解这种听力损失的临床表现可能有助于临床医生识别由遗传原因导致的听力损失,并改善对这些患者的治疗。
