Douglas E. Kopp scite author profile

Background-J Wave Syndromes have emerged conceptually to encompass the pleiotropic expression of J point abnormalities including Brugada syndrome (BrS) and early repolarization syndrome (ERS). Recently, KCNJ8, which encodes the cardiac K ATP Kir6.1 channel, has been implicated in ERS following the identification of a functionally uncharacterized missense mutation, S422L. Here, we sought to further explore KCNJ8 as a novel susceptibility gene for J wave syndromes.

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Atrial Fibrillation After Radiofrequency Ablation of Type I Atrial Flutter

Paydak

et al. 1998

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Background-The occurrence of atrial fibrillation after ablation of type I atrial flutter remains an important clinical problem. To gain further insight into the pathogenesis and significance of postablation atrial fibrillation, we examined the time to onset, determinants, and clinical course of atrial fibrillation after ablation of type I flutter in a large patient cohort. Methods and Results-Of 110 consecutive patients with ablation of type I atrial flutter, atrial fibrillation was documented in 28 (25%) during a mean follow-up of 20.1Ϯ9.2 months (cumulative probability of 12% at 1 month, 23% at 1 year, and 30% at 2 years). Among 17 clinical and procedural variables, only a history of spontaneous atrial fibrillation (relative risk 3.9, 95% confidence intervals 1.8 to 8.8, Pϭ0.001) and left ventricular ejection fraction Ͻ50% (relative risk 3.8, 95% confidence intervals 1.7 to 8.5, Pϭ0.001) were significant and independent predictors of subsequent atrial fibrillation. The presence of both these characteristics identified a high-risk group with a 74% occurrence of atrial fibrillation. Patients with only 1 of these characteristics were at intermediate risk (20%), and those with neither characteristic were at lowest risk (10%). The determinants and clinical course of atrial fibrillation did not differ between an early (Յ1 month) compared with a later onset. Atrial fibrillation was persistent and recurrent, requiring long-term therapy in 18 patients, including 12 of 19 (63%) with prior atrial fibrillation and left ventricular dysfunction. Conclusions-Atrial fibrillation after type I flutter ablation is primarily determined by the presence of a preexisting structural and electrophysiological substrate. These data should be considered in planning postablation management. The persistent risk of atrial fibrillation in this population also suggests a potentially important role for atrial fibrillation as a trigger rather than a consequence of type I atrial flutter. (Circulation. 1998;98:315-322.)

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Adenosine-sensitive ventricular tachycardia. Clinical characteristics and response to catheter ablation.

et al. 1993

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Catheter Ablation of the Mitral Isthmus for Ventricular Tachycardia Associated With Inferior Infarction

et al. 1995

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Flavonoid modulation of human neutrophil function

Busse¹,

Kopp²,

Elliott³

1984

Journal of Allergy and Clinical Immunology

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Douglas E. Kopp

Gain-of-function mutation S422L in the KCNJ8-encoded cardiac KATP channel Kir6.1 as a pathogenic substrate for J-wave syndromes

Atrial Fibrillation After Radiofrequency Ablation of Type I Atrial Flutter

Adenosine-sensitive ventricular tachycardia. Clinical characteristics and response to catheter ablation.

Catheter Ablation of the Mitral Isthmus for Ventricular Tachycardia Associated With Inferior Infarction

Flavonoid modulation of human neutrophil function

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