Institute of Forensic Medicine, University of Leipzig, Leipzig, Germany.
Int J Legal Med. 2012 Nov;126(6):969-73. doi: 10.1007/s00414-011-0598-x. Epub 2011 Jul 18.
Long QT syndrome (LQTS) is a cardiac disorder with an abnormality of cardiac rhythm associated with sudden death especially in younger, apparently healthy individuals. If there is no clear cause of death detectable during comprehensive coroner's inquest (autopsy-negative cases), you have to consider LQTS and other heritable arrhythmia syndromes. A molecular genetic screening regarding mutations in associated genes can help to ensure the cause of death and to protect affected family members. Genetic testing of LQTS, currently performed mainly by sequencing, is still very expensive and time consuming. With this study we present a rapid and reasonable method for the simultaneously screening of some of the most common mutations associated with LQTS, focused on the KCNQ1 and KCNH2 genes. With the method of SNaPshot minisequencing, a total of 58 mutations were analyzed in four multiplex assays which were successfully established and optimized. The comparison with samples previously analyzed by direct sequencing showed concordance. Furthermore, autopsy-negative cases were tested but no mutations could be observed in any of the specimen. The presented method is well suitable for LQTS mutation screening. An enhancement to further mutations and population-based investigations regarding mutation frequencies should be the aim of prospective studies.
长 QT 综合征(LQTS)是一种心脏节律异常的心脏疾病,与年轻、明显健康个体的猝死有关。如果在全面的验尸调查(尸检阴性病例)中无法检测到明确的死因,则必须考虑 LQTS 和其他遗传性心律失常综合征。与相关基因的突变相关的分子遗传筛选有助于确定死因并保护受影响的家庭成员。目前主要通过测序进行的 LQTS 基因检测仍然非常昂贵且耗时。通过这项研究,我们提出了一种快速且合理的方法,用于同时筛查与 LQTS 相关的一些最常见的突变,重点是 KCNQ1 和 KCNH2 基因。使用 SNaPshot 微测序方法,在四个成功建立和优化的多重分析中分析了总共 58 个突变。与先前通过直接测序分析的样本进行比较显示出一致性。此外,还对尸检阴性病例进行了测试,但在任何标本中均未观察到突变。所提出的方法非常适合 LQTS 突变筛查。未来的研究应旨在进一步增加突变并进行基于人群的突变频率调查。
