H Kirk Hammond1, William F Penny1, Jay H Traverse2, Timothy D Henry3, Matthew W Watkins4, Clyde W Yancy5, Ranya N Sweis5, Eric D Adler6, Amit N Patel7, David R Murray8, Robert S Ross1, Valmik Bhargava1, Alan Maisel1, Denise D Barnard1, N Chin Lai1, Nancy D Dalton6, Martin L Lee9, Sanjiv M Narayan10, Daniel G Blanchard6, Mei Hua Gao1. 1. Veterans Affairs San Diego Healthcare System, San Diego California2Department of Medicine, University of California, San Diego. 2. Minneapolis Heart Institute, Minneapolis, Minnesota. 3. Minneapolis Heart Institute, Minneapolis, Minnesota4now with Cedars Sinai Heart Institute, Los Angeles, California. 4. Department of Medicine, University of Vermont, Burlington. 5. Department of Medicine, Northwestern University, Chicago, Illinois. 6. Department of Medicine, University of California, San Diego. 7. Department of Medicine, University of Utah, Salt Lake City. 8. Department of Medicine, University of Wisconsin, Madison. 9. Department of Biostatistics, UCLA (University of California at Los Angeles). 10. Veterans Affairs San Diego Healthcare System, San Diego California2Department of Medicine, University of California, San Diego10now with School of Medicine, Stanford University, Palo Alto, California.
Abstract
IMPORTANCE: Gene transfer has rarely been tested in randomized clinical trials. OBJECTIVE: To evaluate the safety and efficacy of intracoronary delivery of adenovirus 5 encoding adenylyl cyclase 6 (Ad5.hAC6) in heart failure. DESIGN, SETTING, AND PARTICIPANTS: A randomized, double-blind, placebo-controlled, phase 2 clinical trial was conducted in US medical centers (randomization occurred from July 19, 2010, to October 30, 2014). Participants 18 to 80 years with symptomatic heart failure (ischemic and nonischemic) and an ejection fraction (EF) of 40% or less were screened; 86 individuals were enrolled, and 56 were randomized. Data analysis was of the intention-to-treat population. Participants underwent exercise testing and measurement of left ventricular EF (echocardiography) and then cardiac catheterization, where left ventricular pressure development (+dP/dt) and decline (-dP/dt) were recorded. Participants were randomized (3:1 ratio) to receive 1 of 5 doses of intracoronary Ad5.hAC6 or placebo. Participants underwent a second catheterization 4 weeks later for measurement of dP/dt. Exercise testing and EF were assessed 4 and 12 weeks after randomization. INTERVENTIONS: Intracoronary administration of Ad5.hAC6 (3.2 × 109 to 1012 virus particles) or placebo. MAIN OUTCOMES AND MEASURES: Primary end points included exercise duration and EF before and 4 and 12 weeks after randomization and peak rates of +dP/dt and -dP/dt before and 4 weeks after randomization. Fourteen placebo participants were compared (intention to treat) with 24 Ad5.hAC6 participants receiving the highest 2 doses (D4 + 5). RESULTS:Fifty-six individuals were randomized and monitored for up to 1 year. Forty-two participants (75%) received Ad5.hAC6 (mean [SE] age, 63 [1] years; EF, 30% [1%]), and 14 individuals (25%) received placebo (age, 62 [1] years; EF, 30% [2%]). Exercise duration showed no significant group differences (4 weeks, P = .27; 12 weeks, P = .47, respectively). The D4 + 5 participants had increased EF at 4 weeks (+6.0 [1.7] EF units; n = 21; P < .004), but not 12 weeks (+3.0 [2.4] EF units; n = 21; P = .16). Placebo participants showed no increase in EF at 4 weeks or 12 weeks. Exercise duration showed no between-group differences (4-week change from baseline: placebo, 27 [36] seconds; D4 + 5, 44 [25] seconds; P = .27; 12-week change from baseline: placebo, 44 [28] seconds; D4 + 5, 58 [29 seconds, P = .47). AC6 gene transfer increased basal left ventricular peak -dP/dt (4-week change from baseline: placebo, +93 [51] mm Hg/s; D4 + 5, -39 [33] mm Hg/s; placebo [n = 21]; P < .03); AC6 did not increase arrhythmias. The admission rate for patients with heart failure was 9.5% (4 of 42) in the AC6 group and 28.6% (4 of 14) in the placebo group (relative risk, 0.33 [95% CI, 0.08-1.36]; P = .10). CONCLUSIONS AND RELEVANCE: AC6 gene transfer safely increased LV function beyond standard heart failure therapy, attainable with one-time administration. Larger trials are warranted. TRIAL REGISTRATION: clinicaltrials.gov Identifier: NCT00787059.
RCT Entities:
IMPORTANCE: Gene transfer has rarely been tested in randomized clinical trials. OBJECTIVE: To evaluate the safety and efficacy of intracoronary delivery of adenovirus 5 encoding adenylyl cyclase 6 (Ad5.hAC6) in heart failure. DESIGN, SETTING, AND PARTICIPANTS: A randomized, double-blind, placebo-controlled, phase 2 clinical trial was conducted in US medical centers (randomization occurred from July 19, 2010, to October 30, 2014). Participants 18 to 80 years with symptomatic heart failure (ischemic and nonischemic) and an ejection fraction (EF) of 40% or less were screened; 86 individuals were enrolled, and 56 were randomized. Data analysis was of the intention-to-treat population. Participants underwent exercise testing and measurement of left ventricular EF (echocardiography) and then cardiac catheterization, where left ventricular pressure development (+dP/dt) and decline (-dP/dt) were recorded. Participants were randomized (3:1 ratio) to receive 1 of 5 doses of intracoronary Ad5.hAC6 or placebo. Participants underwent a second catheterization 4 weeks later for measurement of dP/dt. Exercise testing and EF were assessed 4 and 12 weeks after randomization. INTERVENTIONS: Intracoronary administration of Ad5.hAC6 (3.2 × 109 to 1012 virus particles) or placebo. MAIN OUTCOMES AND MEASURES: Primary end points included exercise duration and EF before and 4 and 12 weeks after randomization and peak rates of +dP/dt and -dP/dt before and 4 weeks after randomization. Fourteen placebo participants were compared (intention to treat) with 24 Ad5.hAC6participants receiving the highest 2 doses (D4 + 5). RESULTS: Fifty-six individuals were randomized and monitored for up to 1 year. Forty-two participants (75%) received Ad5.hAC6 (mean [SE] age, 63 [1] years; EF, 30% [1%]), and 14 individuals (25%) received placebo (age, 62 [1] years; EF, 30% [2%]). Exercise duration showed no significant group differences (4 weeks, P = .27; 12 weeks, P = .47, respectively). The D4 + 5 participants had increased EF at 4 weeks (+6.0 [1.7] EF units; n = 21; P < .004), but not 12 weeks (+3.0 [2.4] EF units; n = 21; P = .16). Placebo participants showed no increase in EF at 4 weeks or 12 weeks. Exercise duration showed no between-group differences (4-week change from baseline: placebo, 27 [36] seconds; D4 + 5, 44 [25] seconds; P = .27; 12-week change from baseline: placebo, 44 [28] seconds; D4 + 5, 58 [29 seconds, P = .47). AC6 gene transfer increased basal left ventricular peak -dP/dt (4-week change from baseline: placebo, +93 [51] mm Hg/s; D4 + 5, -39 [33] mm Hg/s; placebo [n = 21]; P < .03); AC6 did not increase arrhythmias. The admission rate for patients with heart failure was 9.5% (4 of 42) in the AC6 group and 28.6% (4 of 14) in the placebo group (relative risk, 0.33 [95% CI, 0.08-1.36]; P = .10). CONCLUSIONS AND RELEVANCE: AC6 gene transfer safely increased LV function beyond standard heart failure therapy, attainable with one-time administration. Larger trials are warranted. TRIAL REGISTRATION: clinicaltrials.gov Identifier: NCT00787059.
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