- ICH GCP
- US Clinical Trials Registry
- Clinical Trial NCT01715207
Comparison of Aliskiren vs Negative Controls on Aortic Stiffness in Patients With MFS
Comparison Study of the Effect of Aliskiren Versus Negative Controls on Aortic Stiffness in Patients With Marfan Syndrome Under Treatment With Atenolol
Marfan syndrome (MFS) is an inherited disorder of connective tissue with morbidity and mortality from aortic dilatation and dissection. The current standard of care is beta-blocker (BB) treatment and therapeutic target is heart rate. The degree of aortic dilatation and response to BB vary in adults with MFS. However, aortic stiffness is often present, and can be a predictor of aortic dilatation and cardiovascular complications. Aortic stiffness is a logical therapeutic target in adults with MFS.
Transforming growth factor beta(TGF-beta) mediates disease pathogenesis in MFS and contributes to aortic stiffness. Cross-talk between TGF-beta system and renin-angiotensin system (RAS) has been demonstrated. The angiotensin receptor blocker (ARB), losartan, inhibits TGF-beta activity and reverses aortic wall pathology in a Marfan mouse model. In a small cohort study, the use of ARB therapy (losartan or irbesartan) significantly slowed the rate of progressive aortic dilatation in patients with MFS, after BB therapy had failed to prevent aortic root dilatation. In another study, angiotensin converting enzyme inhibitor, perindopril, reduced both aortic stiffness and aortic root diameter in patients with MFS taking standard BB therapy. Renin inhibitor, aliskiren, has not been studied to reduce aortic stiffness and attenuate aortic dilatation in patients with MFS.
This trial is a randomized, open-label trial of 32 patients with Marfan syndrome, treated with 6 months of aliskiren vs. negative controls in patients with MFS under atenolol treatment. MRI for aortic pulsed wave velocity (PWV) and distensibility, measurements of central BP (CBP) and augmentation index (AIx) will be performed at the beginning and end of treatment. A blood drawn for serum markers of TGF-beta, extracellular matrix turnover and inflammation will also be performed at 0 and 6 months. We plan to determine whether aliskiren decreases aortic stiffness significantly more than negative controls in patients with MFS under atenolol treatment.
Study Overview
Detailed Description
Study design and study population The study design was a prospective randomized intervention study in a single center. A randomization process was performed to assign participants to either the aliskiren-treatment group or the negative control group in an open-label design. The duration of the study period was 24 weeks as the time frame for treatment. Duration of treatment was decided based on previous studies using RAS inhibitor 13,25. Aliskiren was administered to patients in the treatment group at an oral dose of 150-300 mg per day. Medication administration started after a baseline study with a dose of 150 mg of aliskiren, which was escalated to 300 mg of aliskiren at 4 weeks after evaluation of tolerability and the presence of adverse effects as angioedema, gastrointestinal symptoms, rash, gout, hypotension, and renal stones. The patients stopped taking aliskiren if serious adverse events such as angioedema or allergic reactions definitely related to the medication developed. Dose reduction was considered in cases with development of hyperkalemia, elevation of serum creatinine to twice baseline, symptomatic hypotension, gout, or renal stones. Dose reduction to 150 mg after escalation was performed on the decision of the investigators if the patient complained of discomfort and side effects that were probably related to the medication.
MFS patients were recruited at Samsung Medical Center from November 2009 to October 2014. All patients were receiving atenolol as standard β-blocker therapy. All patients gave written informed consent to participate in the study, which was approved by the Samsung Medical Center Ethics Committee. This trial is registered at ClinicalTrial.gov. (Identifier: NCT01715207) Inclusion criteria were age 14 to 55 years, a diagnosis of MFS by Ghent criteria, β-blocker treatment for at least 3 months, and no chronic RAS inhibitor therapy (i.e., angiotensin II receptor blockers or ACE inhibitors) for 90 days prior to screening. Exclusion criteria were previous medical history of aortic surgery and/or dissection, significant valve disease requiring surgery, aortic root dimension > 5.0 cm, renal dysfunction (creatinine > upper normal limit), pregnancy or planned pregnancy within 12 months of study entry or current breast feeding, known renal artery stenosis, hypersensitivity to aliskiren or any of the excipients, elevation of serum creatinine during follow-up (> 30% of baseline), diarrhea resulting in severe dehydration, development of gout or ureter stone, symptomatic hypotension (systolic blood pressure <90 mmHg with symptoms), hyperkalemia, and concomitant treatment with cyclosporin A.
Follow-up and outcomes All included patients were clinically followed to monitor adverse effects of angioedema, gastrointestinal symptoms, rash, gout, hypotension, and renal stone at initial examination, 1 week, 4 weeks, 8 weeks, 16 weeks, and 24 weeks. The following laboratory data were collected during the same period: potassium, electrocardiogram, creatinine, uric acid, and urine analysis. Echocardiographic evaluation, peripheral tonometric measurements of peripheral PWV, central aortic blood pressure and augmentation index, cardiac magnetic resonance imaging (cardiac MRI), and biomarkers were analyzed at baseline and after 24 weeks of treatment.
Safety information was collected, including all adverse events and all serious adverse events. Completion of a serious adverse event form was required for all serious adverse events that occurred during the study period. All serious adverse events were assessed by investigators and reported to the Novartis safety desk within 24 hours.
The primary end point was central aortic distensibility by cardiac MRI at 24 weeks, reported as the change over the 24-week period after randomization. The secondary end points were central aortic PWV by cardiac MRI, change in central aortic blood pressure (hereafter, aortic BP), augmentation index, peripheral PWV by tonometry, aortic root diameter by echocardiography, severity of aortic regurgitation by echocardiography, and dissection/rupture/operation of aneurysm.
Cardiovascular imaging - echocardiography and cardiac MRI Cardiac MRI Cardiac MRI was performed using a 1.5-Tesla scanner (Magnetom Avanto, Syngo MR; Siemens Medical Solutions, Erlangen, Germany). Aortic diameters were measured at four landmark levels: level 1, the ascending aorta at the level of bifurcation of the pulmonary artery; level 2, the upper descending thoracic aorta at the level of bifurcation of the pulmonary artery; level 3, the lower descending thoracic aorta at the level of the diaphragm; level 4, the abdominal aorta just above the iliac bifurcation. Cine imaging was also performed at the same levels to measure aortic stiffness.
Cardiac MRI analysis - central aortic distensibility and central aortic PWV Analyses of the MRIs were performed using commercial software (Argus version 4.02, Siemens Medical Systems, Germany) by experienced observers who were blinded to patient information. To measure central aortic distensibility, the systolic and diastolic cross-sectional areas were measured by manual contouring of the aorta through the cardiac cycle on the cine image. Distensibility at the four regions was calculated as the mean of values obtained from the following equation: Distensibility = (Amax - Amin)/[Amin × (Pmax - Pmin)](10-3mm/Hg), where Amax is the maximal (systolic) aortic area, Amin is the minimal (diastolic) aortic area, Pmax is the systolic blood pressure (SBP), and Pmin is the diastolic blood pressure (DBP). Central aortic blood pressure measured non-invasively by SphygmoCor was used for systolic and diastolic blood pressure.
Aortic PWV was measured according to the well-validated method using MRI 19. From the velocity-encoded MRIs, aortic contours were automatically detected and manually adjusted in each slice area throughout the cardiac cycle. The transit time between the flow curves of each region of the aorta was determined from the midpoint of the systolic up-slope on the flow versus time curve 26-28. The up-slopes were identified by drawing a line between the points of 40% and 60% maximum velocity on the waveform. The distance between each aortic level was measured on black blood images using a curved line along the center of the aorta. Based on these data, the regional PWV was calculated as the ratio of the distance between levels and the time differences between the arrival of the pulse wave at each level. The PWV was measured at two regions: the proximal aorta (proximal PWV between level 1 and level 2) and the entire aorta (PWV-total between level 1 and level 4).
Study Type
Enrollment (Actual)
Phase
- Phase 3
Contacts and Locations
Study Locations
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-
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Seoul, Korea, Republic of, 135-710
- Samsung Medical Center
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Participation Criteria
Eligibility Criteria
Ages Eligible for Study
Accepts Healthy Volunteers
Genders Eligible for Study
Description
Inclusion Criteria:
- Diagnosis of MFS by Ghent criteria and/or genetically proven Fibrillin-1 (FBN1) mutation
- Age between 14 and 55 years
- Beta-blocker treatment at least 3 months
- subjects must not have been receiving chronic RAS inhibitor therapy (i.e. ARBs, or ACE inhibitors)>= 90days prior to screening
- Written informed consent from the patients or authorized representatives must be obtained
Exclusion Criteria:
- previous medical history of aortic surgery and/or dissection
- significant valve disease requiring surgery
- aortic root dimension > 5.5 cm
- renal dysfunction (creatinine > upper normal limit)
- pregnancy or planned pregnancy within 12 months of study entry or breast feeding women
- Known renal artery stenosis
- Hypersensitivity to the aliskiren or to any of the excipients
- Elevation of serum creatinine during follow-up (> 30% than baseline)
- Diarrhea, resulting severe dehydration
- Development of gout or ureter stone
- Symptomatic hypotension (SBP<90 with symptom)
- Hyperkalemia
- Concomitant use with ciclosporin A
Study Plan
How is the study designed?
Design Details
- Primary Purpose: TREATMENT
- Allocation: RANDOMIZED
- Interventional Model: PARALLEL
- Masking: NONE
Arms and Interventions
Participant Group / Arm |
Intervention / Treatment |
---|---|
EXPERIMENTAL: Atenolol & Aliskiren
Atenolol tablet and Aliskiren 150mg or 300mg tablet by mouth per day for 6month
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Other Names:
Other Names:
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OTHER: Atenolol
Atenolol tablet(Negative controls, Open-label)
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Other Names:
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What is the study measuring?
Primary Outcome Measures
Outcome Measure |
Measure Description |
Time Frame |
---|---|---|
Central Aortic Distensibility by MRI
Time Frame: 6 months
|
Analyses of the MRIs were performed using commercial software (Argus version 4.02, Siemens Medical Systems, Germany) by experienced observers who were blinded to patient information.
To measure central aortic distensibility, the systolic and diastolic cross-sectional areas were measured by manual contouring of the aorta through the cardiac cycle on the cine image.
Distensibility at the four regions was calculated as the mean of values obtained from the following equation: Distensibility = (Amax - Amin)/[Amin × (Pmax - Pmin)](10-3mm/Hg), where Amax is the maximal (systolic) aortic area, Amin is the minimal (diastolic) aortic area, Pmax is the systolic blood pressure (SBP), and Pmin is the diastolic blood pressure (DBP).
Central aortic blood pressure measured non-invasively by SphygmoCor was used for systolic and diastolic blood pressure.
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6 months
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Secondary Outcome Measures
Outcome Measure |
Measure Description |
Time Frame |
---|---|---|
Central Aortic PWV(Pulsed Wave Velocity)
Time Frame: 6 months
|
Aortic PWV was measured according to the well-validated method using MRI 19.
From the velocity-encoded MRIs, aortic contours were automatically detected and manually adjusted in each slice area throughout the cardiac cycle.
The transit time between the flow curves of each region of the aorta was determined from the midpoint of the systolic up-slope on the flow versus time curve 26-28.
The up-slopes were identified by drawing a line between the points of 40% and 60% maximum velocity on the waveform.
The distance between each aortic level was measured on black blood images using a curved line along the center of the aorta.
Based on these data, the regional PWV was calculated as the ratio of the distance between levels and the time differences between the arrival of the pulse wave at each level.
The PWV was measured at two regions: the proximal aorta (proximal PWV between level 1 and level 2) and the entire aorta (PWV-total between level 1 and level 4).
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6 months
|
Collaborators and Investigators
Sponsor
Investigators
- Principal Investigator: Duk-Kyung Kim, PhD MD, Samsung Medical Center
Study record dates
Study Major Dates
Study Start
Primary Completion (ACTUAL)
Study Completion (ACTUAL)
Study Registration Dates
First Submitted
First Submitted That Met QC Criteria
First Posted (ESTIMATE)
Study Record Updates
Last Update Posted (ACTUAL)
Last Update Submitted That Met QC Criteria
Last Verified
More Information
Terms related to this study
Additional Relevant MeSH Terms
- Pathologic Processes
- Heart Diseases
- Cardiovascular Diseases
- Disease
- Congenital Abnormalities
- Genetic Diseases, Inborn
- Musculoskeletal Diseases
- Connective Tissue Diseases
- Bone Diseases
- Heart Defects, Congenital
- Cardiovascular Abnormalities
- Musculoskeletal Abnormalities
- Abnormalities, Multiple
- Bone Diseases, Developmental
- Limb Deformities, Congenital
- Syndrome
- Marfan Syndrome
- Arachnodactyly
- Physiological Effects of Drugs
- Adrenergic beta-Antagonists
- Adrenergic Antagonists
- Adrenergic Agents
- Neurotransmitter Agents
- Molecular Mechanisms of Pharmacological Action
- Anti-Arrhythmia Agents
- Antihypertensive Agents
- Autonomic Agents
- Peripheral Nervous System Agents
- Sympatholytics
- Adrenergic beta-1 Receptor Antagonists
- Atenolol
Other Study ID Numbers
- 2009-10-025
Plan for Individual participant data (IPD)
Plan to Share Individual Participant Data (IPD)?
IPD Plan Description
This information was retrieved directly from the website clinicaltrials.gov without any changes. If you have any requests to change, remove or update your study details, please contact register@clinicaltrials.gov. As soon as a change is implemented on clinicaltrials.gov, this will be updated automatically on our website as well.
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