Trials / Completed

CompletedNCT01537926

Hypertrophic Regression With N-Acetylcysteine in HCM

Pilot Feasibility Study With N-acetylcystein (NAC) in Patients With HCM Caused by Sarcomere Proteins Mutations

Summary

The purpose of the sudy is to conduct a small study to gather the preliminary data for future lage scale clinical studies that will be designed test the potential beneficial effect of over-the counter study anti-oxidant drug called N-acetylcysteine (NAC) in patients with a heart muscle condition called Hypertrophic Cardiomyopathy (HCM). The present study is a pilot feasibility study, the investigators want to find out whether the investigators can recruit and retain patients with HCM in the study and whether these patients can tolerate this drug and can stay on one year. Likewise, the investigators want to find out any potential side effects that this drug might have and estimate whether it has any beneficial effects.

Detailed description

The primary objective is to perform a pilot study in patients with hypertrophic cardiomyopathy (HCM) and mutations in genes encoding sarcomere proteins to assess safety and gather the pre-requisite data for subsequent robust randomized placebo-controlled efficacy studies with N-acetylcysteine (NAC). Data will be gathered on the recruitment, accrual, retention, and compliance rates of HCM patients randomized to treatment with a placebo or two escalating doses of NAC. Likewise, any potential side effects will be determined and the effect size of NAC on indices of cardiac hypertrophy will be estimated. HCM, the main focus of the study team's research during the past two decades, is the most common cause of sudden cardiac death (SCD) in the young and an important cause of morbidity in the elderly. Despite its clinical impact, there is no effective pharmacological therapy for HCM. None of the current pharmacological therapies reverses or attenuates cardiac hypertrophy or reduces the risk of SCD in adults. Cardiac hypertrophy, the quintessential clinical feature of human HCM, is a major determinant of morbidity and the risk of SCD. Regression of cardiac hypertrophy is expected to improve morbidity and decrease the risk of SCD in HCM, as observed upon regression of load-dependent cardiac hypertrophy. The study team has generated transgenic rabbit and mouse models of HCM and shown that cardiac hypertrophy and fibrosis could be reversed through genetic or pharmacological interventions. Results with NAC, a precursor to glutathione, the largest intracellular thiol pool against oxidative stress, were most promising. In three independent studies in two different transgenic models of HCM (rabbits and mouse), treatment with NAC completely reversed cardiac hypertrophy and fibrosis and improved indices of diastolic function. The ultimate goal of every physician-scientist is to apply the bench discoveries at the bedside. The study team proposes to test their findings in the animal models in humans with HCM caused by sarcomere protein mutations. The use of NAC is also supported by data showing increased oxidative stress in human HCM. Moreover, NAC has been used extensively in humans and has a well-established safety profile. Resources including patients with sarcomere protein mutations are available to successfully complete a randomized placebo-controlled (N=25) pilot study to test two escalating doses of NAC (N=50), administered for one year. The study aims to determine recruitment, accrual, retention and compliance rates; tolerability, safety and side effects; and estimate the effect size of NAC on the indices of cardiac hypertrophy at the baseline and after one year of treatment. Only HCM patients with sarcomere proteins mutations will be included to exclude phenocopy. The Core centers will interpret the phenotypic data to assure homogeneity. Data Coordinating Center will assist in the research design, planning and conduct of the study and analysis of the data. The findings will set the stage for large-scale robust randomized placebo-control efficacy studies.

Conditions

• Hypertrophic Cardiomyopathy

Interventions

Timeline

Start date

2012-01-01

Primary completion

2016-12-31

Completion

2016-12-31

First posted

2012-02-23

Last updated

2021-11-02

Results posted

2021-11-02

Locations

1 site across 1 country: United States

Source: ClinicalTrials.gov record NCT01537926. Inclusion in this directory is not an endorsement.