In the last few years,the advent of next generation sequencing(NGS) has revolutionized the approach to genetic studies,making whole-genome sequencing a possible way of obtaining global genomic information.NGS has very...In the last few years,the advent of next generation sequencing(NGS) has revolutionized the approach to genetic studies,making whole-genome sequencing a possible way of obtaining global genomic information.NGS has very recently been shown to be successful in identifying novel causative mutations of rare or common Mendelian disorders.At the present time,it is expected that NGS will be increasingly important in the study of inherited and complex cardiovascular diseases(CVDs).However,the NGS approach to the genetics of CVDs represents a territory which has not been widely investigated.The identification of rare and frequent genetic variants can be very important in clinical practice to detect pathogenic mutations or to establish a profile of risk for the development of pathology.The purpose of this paper is to discuss the recent application of NGS in the study of several CVDs such as inherited cardiomyopathies,channelopathies,coronary artery disease and aortic aneurysm.We also discuss the future utility and challenges related to NGS in studying the genetic basis of CVDs in order to improve diagnosis,prevention,and treatment.展开更多
文摘In the last few years,the advent of next generation sequencing(NGS) has revolutionized the approach to genetic studies,making whole-genome sequencing a possible way of obtaining global genomic information.NGS has very recently been shown to be successful in identifying novel causative mutations of rare or common Mendelian disorders.At the present time,it is expected that NGS will be increasingly important in the study of inherited and complex cardiovascular diseases(CVDs).However,the NGS approach to the genetics of CVDs represents a territory which has not been widely investigated.The identification of rare and frequent genetic variants can be very important in clinical practice to detect pathogenic mutations or to establish a profile of risk for the development of pathology.The purpose of this paper is to discuss the recent application of NGS in the study of several CVDs such as inherited cardiomyopathies,channelopathies,coronary artery disease and aortic aneurysm.We also discuss the future utility and challenges related to NGS in studying the genetic basis of CVDs in order to improve diagnosis,prevention,and treatment.