Zhao Liu1, Julie A Hutt2, Barur Rajeshkumar3, Yoshihiro Azuma3, Kailai L Duan3, J Kevin Donahue4. 1. Department of Biomedical Engineering, Case Western Reserve University, Cleveland, Ohio. 2. The Lovelace Respiratory Research Institute, Albuquerque, NM. 3. Department of Cardiovascular Medicine, University of Massachusetts Medical School, Worcester, Mass. 4. Department of Biomedical Engineering, Case Western Reserve University, Cleveland, Ohio; Department of Cardiovascular Medicine, University of Massachusetts Medical School, Worcester, Mass. Electronic address: donahuelab@gmail.com.
Abstract
BACKGROUND: Postoperative atrial fibrillation (POAF) is the most common complication occurring after cardiac surgery. Multiple studies have shown significantly increased risks of stroke, myocardial infarction, and death associated with POAF. Current prophylaxis strategies are inadequate to eliminate this problem. We examined the preclinical efficacy and safety of KCNH2-G628S gene transfer to prevent POAF. METHODS: Domestic pigs received AdKCNH2-G628S by epicardial atrial gene painting and atrial pacemaker implantation for continuous-burst pacing to induce atrial fibrillation. In an initial dose-ranging evaluation, 3 pigs received 5 × 1010 to 5 × 1011 virus particles. In the formal study, 16 pigs were randomized to 3 groups: 5 × 1011 virus particles of AdKCNH2-G628S with 20% Pluronic P407 in saline, 20% Pluronic P407 in saline with no virus, and saline alone. Animals were followed with daily efficacy and safety evaluations through the period of peak adenovirus-mediated transgene expression. After 14 days, pacing was discontinued, and the animals were followed in sinus rhythm for an additional 14 days to assess any longer-term toxicity. RESULTS: In the primary efficacy analysis, the G628S animals exhibited a significant increase in the average time in sinus rhythm compared with the Pluronic control group (59 ± 7% vs 14 ± 6%; P = .009). There was no significant difference between the Pluronic and saline controls (14 ± 6% vs 32 ± 12%; P = .16). Safety assessment showed improved left ventricular function in the G628S animals; otherwise there were no significant differences among the groups in any safety measure. CONCLUSIONS: These data indicate that KCNH2-G628S gene therapy can successfully and safely reduce the risk of AF. Published by Elsevier Inc.
BACKGROUND:Postoperative atrial fibrillation (POAF) is the most common complication occurring after cardiac surgery. Multiple studies have shown significantly increased risks of stroke, myocardial infarction, and death associated with POAF. Current prophylaxis strategies are inadequate to eliminate this problem. We examined the preclinical efficacy and safety of KCNH2-G628S gene transfer to prevent POAF. METHODS:Domestic pigs received AdKCNH2-G628S by epicardial atrial gene painting and atrial pacemaker implantation for continuous-burst pacing to induce atrial fibrillation. In an initial dose-ranging evaluation, 3 pigs received 5 × 1010 to 5 × 1011 virus particles. In the formal study, 16 pigs were randomized to 3 groups: 5 × 1011 virus particles of AdKCNH2-G628S with 20% Pluronic P407 in saline, 20% Pluronic P407 in saline with no virus, and saline alone. Animals were followed with daily efficacy and safety evaluations through the period of peak adenovirus-mediated transgene expression. After 14 days, pacing was discontinued, and the animals were followed in sinus rhythm for an additional 14 days to assess any longer-term toxicity. RESULTS: In the primary efficacy analysis, the G628S animals exhibited a significant increase in the average time in sinus rhythm compared with the Pluronic control group (59 ± 7% vs 14 ± 6%; P = .009). There was no significant difference between the Pluronic and saline controls (14 ± 6% vs 32 ± 12%; P = .16). Safety assessment showed improved left ventricular function in the G628S animals; otherwise there were no significant differences among the groups in any safety measure. CONCLUSIONS: These data indicate that KCNH2-G628S gene therapy can successfully and safely reduce the risk of AF. Published by Elsevier Inc.
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