Shkol'nikova Ma scite author profile

Background-Catecholaminergic polymorphic ventricular tachycardia (CPVT) is a genetic disorder causing life-threatening arrhythmias whenever sympathetic activity increases. β-Βlockers are the mainstay of therapy; when they fail, implantable cardioverter-defibrillators (ICDs) are used but often cause multiple shocks. Preliminary results with flecainide appear encouraging.We proposed left cardiac sympathetic denervation (LCSD) as useful additional therapy, but evidence remains anecdotal. Methods and Results-We report 63 patients with CPVT who underwent LCSD as secondary (n=54) or primary (n=9) prevention. The median post-LCSD follow-up was 37 months. The 9 asymptomatic patients remained free of major cardiac events. Of the 54 patients with prior major cardiac events either on (n=38) or off (n=16) optimal medical therapy, 13 (24%) had at least 1 recurrence: 0 patients had an aborted cardiac arrest, 2 patients had syncope only, 10 patients had ≥1 appropriate ICD discharges, and 1 patient died suddenly. The 1-and 2-year cumulative event-free survival rates were 87% and 81%. The percentage of patients with major cardiac events despite optimal medical therapy (n=38) was reduced from 100% to 32% (P<0.001) after LCSD, and among 29 patients with a presurgical ICD, the rate of shocks dropped by 93% from 3.6 to 0.6 shocks per person per year (P<0.001). Patients with an incomplete LCSD (n=7) were more likely to experience major cardiac events after LCSD (71% versus 17%; P<0.01) than those with a complete LCSD. Conclusions-LCSD is an effective antifibrillatory intervention for patients with CPVT. Whenever syncope occurs despite optimal medical therapy, LCSD could be considered the next step rather than an ICD and could complement ICDs in patients with recurrent shocks.

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The Jervell and Lange-Nielsen Syndrome

Schwartz

et al. 2006

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Background-Data on the Jervell and Lange-Nielsen syndrome (J-LN), the long-QT syndrome (LQTS) variant associated with deafness and caused by homozygous or compound heterozygous mutations on the KCNQ1 or on the KCNE1 genes encoding the I Ks current, are still based largely on case reports. Methods and Results-We analyzed data from 186 J-LN patients obtained from the literature (31%) and from individual physicians (69%). Most patients (86%) had cardiac events, and 50% were already symptomatic by age 3. Their QTc was markedly prolonged (557Ϯ65 ms

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Genomic Organization of the KCNQ1 K ⁺ Channel Gene and Identification of C-Terminal Mutations in the Long-QT Syndrome

Neyroud

Richard

Vignier

et al. 1999

Circulation Research

102

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Abstract-The voltage-gated Kϩ channel KVLQT1 is essential for the repolarization phase of the cardiac action potential and for K ϩ homeostasis in the inner ear. Mutations in the human KCNQ1 gene encoding the ␣ subunit of the KVLQT1 channel cause the long-QT syndrome (LQTS). The autosomal dominant form of this cardiac disease, the Romano-Ward syndrome, is characterized by a prolongation of the QT interval, ventricular arrhythmias, and sudden death. The autosomal recessive form, the Jervell and Lange-Nielsen syndrome, also includes bilateral deafness. In the present study, we report the entire genomic structure of KCNQ1, which consists of 19 exons spanning 400 kb on chromosome 11p15.5. We describe the sequences of exon-intron boundaries and oligonucleotide primers that allow polymerase chain reaction (PCR) amplification of exons from genomic DNA. Two new (CA) n repeat microsatellites were found in introns 10 and 14. The present study provides helpful tools for the linkage analysis and mutation screening of the complete KCNQ1 gene. By use of these tools, five novel mutations were identified in LQTS patients by PCR-single-strand conformational polymorphism (SSCP) analysis in the C-terminal part of KCNQ1: two missense mutations, a 20-bp and 1-bp deletions, and a 1-bp insertion. Such mutations in the C-terminal domain of the gene may be more frequent than previously expected, because this region has not been analyzed so far. This could explain the low percentage of mutations found in large LQTS cohorts. (Circ Res. 1999;84:290-297.)

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Shkol'nikova Ma

Clinical Management of Catecholaminergic Polymorphic Ventricular Tachycardia

The Jervell and Lange-Nielsen Syndrome

Genomic Organization of the KCNQ1 K ⁺ Channel Gene and Identification of C-Terminal Mutations in the Long-QT Syndrome

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Shkol'nikova Ma

Clinical Management of Catecholaminergic Polymorphic Ventricular Tachycardia

The Jervell and Lange-Nielsen Syndrome

Genomic Organization of the KCNQ1 K + Channel Gene and Identification of C-Terminal Mutations in the Long-QT Syndrome

Contact Info

Product

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Genomic Organization of the KCNQ1 K ⁺ Channel Gene and Identification of C-Terminal Mutations in the Long-QT Syndrome