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Vol. 294 No. 23, December 21, 2005 TABLE OF CONTENTS
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Efficient Genotyping for Congenital Long QT Syndrome

Elizabeth S. Kaufman, MD

JAMA. 2005;294:3027-3028.

Since this article does not have an abstract, we have provided the first 150 words of the full text and any section headings.

Within the past decade, investigators have uncovered the genetic basis for multiple long QT syndromes (LQTSs). These include LQT1, in which mutations in the gene KCNQ1 lead to abnormal IKs, a slow delayed-rectifier potassium current; LQT2, in which mutations in the gene KCNH2 lead to abnormal IKr, a rapid delayed-rectifier potassium current; and LQT3, in which mutations in the gene SCN5A lead to abnormal INa, a sodium channel current.1-2 After genetic testing was made available, it became clear that clinical evaluation based on the resting electrocardiogram was inadequate to detect many cases of LQTS.3 In fact, there is a considerable overlap between QT intervals of unaffected individuals and those with LQTS.4 Thus, in many instances, genetic testing adds important information beyond clinical evaluation in determining which patients are at risk both of personal cardiac events and of transmitting LQTS to their offspring.

Furthermore, . . . [Full Text of this Article]

Author Affiliations: MetroHealth Campus of Case Western Reserve University, Cleveland, Ohio.



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RELATED ARTICLE

Genetic Testing in the Long QT Syndrome: Development and Validation of an Efficient Approach to Genotyping in Clinical Practice
Carlo Napolitano, Silvia G. Priori, Peter J. Schwartz, Raffaella Bloise, Elena Ronchetti, Janni Nastoli, Georgia Bottelli, Marina Cerrone, and Sergio Leonardi
JAMA. 2005;294(23):2975-2980.
ABSTRACT | FULL TEXT  


THIS ARTICLE HAS BEEN CITED BY OTHER ARTICLES

Genotyping Has a Minor Role in Selecting Therapy for Congenital Long-QT Syndromes at Present
Vincent
Circ Arrhythm Electrophysiol 2008;1:227-233.
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A Streamlined Approach to Genetic Screening for Long-QT Syndrome?
Journal Watch Cardiology 2006;2006:4-4.
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