A Clinical Trial of Ambrisentan and Tadalafil in Pulmonary Arterial Hypertension Associated With Systemic Sclerosis
This trial is active, not recruiting.
|Conditions||pulmonary arterial hypertension, systemic sclerosis, scleroderma spectrum of diseases, connective tissue disease, pulmonary hypertension|
|Treatments||tadalafil monotherapy, ambrisentan monotherapy, tadalafil and ambrisentan|
|Collaborator||National Institutes of Health (NIH)|
|Start date||January 2010|
|End date||November 2014|
|Trial size||63 participants|
|Trial identifier||NCT01042158, P50HL084946, TAD-PH-001|
This will be a 36-week, randomized, double-blind, parallel group study comparing the effects of tadalafil monotherapy, ambrisentan monotherapy and combination therapy with tadalafil and ambrisentan in patients with PAH-SSc. Standard outcome measures such as six-minute walk distance (6MWD), NYHA classification, and hemodynamic measurements will be assessed, as well as novel functional measures of RV-PV function including the transthoracic echocardiogram parameter tricuspid annular plane systolic ejection (TAPSE), contrast-enhanced cardiac MRI and heart rate variability assessed by Holter monitoring. This design (excluding a placebo-placebo arm) was selected for ethical concerns and to provide optimal efficiency and active therapy to all study subjects. It also allows for comparisons between the two monotherapies and with combination therapy.
|Endpoint classification||safety/efficacy study|
|Intervention model||parallel assignment|
|Masking||double blind (subject, caregiver, investigator, outcomes assessor)|
To compare the effects of ambrisentan monotherapy, tadalafil monotherapy and the combination in patients with PAH-SSc on right ventricular mass as assessed by cardiac MRI and pulmonary vascular resistance (PVR) by right heart catheterization.
time frame: 36 weeks
To evaluate the safety of combination therapy with ambrisentan and tadalafil in PAH-SSc.
time frame: 36 weeks
To compare the change in: i. 6 MWD ii. Resting hemodynamics iii. Pressure/flow slopes with submaximal exercise iv. TAPSE by echocardiography v. Heart rate variability vi. Quality of life vii. Borg score viii. NYHA class
time frame: 36 weeks
Male or female participants at least 18 years old.
Inclusion Criteria: 1. A right heart catheterization done at baseline with a mean pulmonary artery pressure (mPAP) ≥ 25mmHg, pulmonary artery wedge pressure (PAWP) ≤ 15mmHg, and pulmonary vascular resistance (PVR) ≥3 Woods units. 2. Scleroderma defined as systemic sclerosis with diffuse or limited scleroderma meeting the American College of Rheumatology (ACR) criteria (33). Cases will be included if they meet clinical features that satisfy ACR criteria for a diagnosis of scleroderma or the presence of three of five features of the CREST syndrome are identified; or there is the presence of definite Raynaud's phenomenon, abnormal nail fold capillaries typical of scleroderma and the presence of a specific scleroderma related auto-antibody. Limited skin involvement is defined as skin tightening distal to elbows and knees with or without facial involvement; and diffuse skin involvement, tightening proximal to these joints or truncal involvement. 3. Subjects will be older than 18 years of age with a diagnosis of PAH-SSc. 4. Subjects will be NYHA functional class II or III. 5. 6 minute walk distance ≥ 100 meters and ≤ 500 meters at screening and baseline. 6. Negative urine pregnancy test for women of childbearing age at screening and baseline visits. 7. Ability and willingness to provide written informed consent Exclusion Criteria: 1. Right heart catheterization reveals evidence of pulmonary venous hypertension (pulmonary capillary wedge pressure > 15 mm Hg). 2. Significant chronic obstructive: Forced expiratory volume in 1 second to forced expiratory volume ratio < 70% and a forced expiratory volume in 1 second less than 60% of predicted. 3. Interstitial lung disease 1. Based on a combination of pulmonary function tests and chest radiography. 2. Patients will be excluded if they have a total lung capacity less than 60% of predicted and included if the total lung capacity was ≥ 70%. Patients with a total lung capacity between 60 and 70% of predicted are included if their computed tomography scan demonstrates only minimal interstitial fibrosis 4. Portal hypertension. 5. Severe obstructive sleep apnea. 6. Chronic thromboembolic disease. 7. Positive antibodies to the human immunodeficiency virus. 8. History of anorexigen use including phen-fen. 9. Any other disease known to be associated with pulmonary hypertension. 10. Subjects with other etiology for pulmonary hypertension besides PAH-SSc. 11. Subjects with liver function abnormalities (ALT or AST > 3 times the upper limit of normal at screening or at baseline) or chronic liver disease. 12. Advanced kidney failure (GFR < 30 ml/min at screening or at baseline). 13. Acute decompensation of underlying illness or hospitalization for pulmonary hypertension within 4 weeks prior to enrollment. 14. Prior chronic therapy with an endothelin-receptor antagonist, PDE V inhibitor, or a prostacyclin analogue. 15. History of hypersensitivity reaction or adverse effect related to ambrisentan or tadalafil. 16. History of implantable permanent pacemaker or any metallic objects in the body. 17. Participation in a clinical study involving an investigational drug or device within four weeks before the screening visit. 18. Pregnant or lactating women. 19. Concomitant use of nitrates (any form) either regularly or intermittently 20. Concomitant use of potent CYP3A inhibitors (eg, ritonavir, ketoconazole, itraconazole) 21. Any additional contraindications and precautions specified in the package inserts for Tadalafil (Adcirca) and Ambrisentan (Letairis) not listed above.
|Official title||A Clinical Trial of Ambrisentan and Tadalafil in Pulmonary Arterial Hypertension Associated With Systemic Sclerosis|
|Principal investigator||Paul Hassoun, MD|
|Description||Pulmonary Arterial Hypertension (PAH) includes a heterogeneous group of clinical entities sharing similar clinical and pathological features that have been subcategorized as idiopathic PAH (IPAH, formerly known as "primary pulmonary hypertension" or PPH), familial PAH, pulmonary hypertension related to connective tissue diseases (such as systemic sclerosis), portopulmonary hypertension and pulmonary hypertension related to HIV infection, drugs and toxins (10). PAH is clinically defined by a resting mean pulmonary artery pressure ≥ 25 mmHg and pulmonary artery wedge pressure ≤ 15 mmHg in the absence of left heart disease, underlying parenchymal lung disease, thromboembolic disease or other causes of pulmonary hypertension. PAH is characterized by increased pulmonary vascular resistance due to remodeling and occlusion of the pulmonary arterioles. Left untreated, PAH leads irremediably to right ventricular (RV) hypertrophy, pressure overload and dilation resulting in death within 2-3 years (11). For the past two decades, it has been appreciated that the integrity of the RV function, rather than the degree of pulmonary vascular injury, is the major determinant of symptoms and mortality in patients with PAH. RV dysfunction at time of presentation, as reflected by an elevation in right atrial pressure (RAP), the presence of pericardial effusion or depressed cardiac output (CO), is a powerful prognosticator of death (12). Current PAH therapies consist of prostacyclin analogues, endothelin receptor antagonists (ETRA) and phosphodiesterase type V (PDE V) inhibitors (13). All have been shown to be effective in improving exercise capacity as measured by the 6 MWD in short term (12 - 16 week) randomized, placebo-controlled clinical trials. However, the clinical response is highly variable and mortality remains high (14). Moreover, the majority of subjects enrolled in these trials have had IPAH. Over the past 10 years, the Johns Hopkins Pulmonary Hypertension Program and Scleroderma Center have worked closely to address the daunting clinical challenge of PAH associated with scleroderma or systemic sclerosis (PAH-SSc). Previous work from our group (15;16) and others (17-19) has clearly demonstrated a markedly worse prognosis in PAH-SSc compared with IPAH despite similar treatments. An intriguing and consistent finding when comparing these two groups is that whereas mPAP is, on average, lower in PAH-SSc, markers of RV dysfunction (e.g. CO and RAP) are similar, raising the possibility of maladaptive RV response to pressure overload and/or intrinsic myocardial disease. Current PAH therapies target pathways that have been implicated in the remodeling of the pulmonary vasculature (PV). However, there is no clear evidence that these therapies have altered PV and/or RV remodeling or offered significant beneficial effects in patients with PAH-SSc in whom mortality remains exceedingly high. In addition, their effects on RV dysfunction and RV-PV interaction remain poorly characterized. We hypothesize that improvement in PAH-SSc will only be achieved with therapy directly targeted at RV-PV dysfunction. Sildenafil and tadalafil inhibit phosphodiesterase type 5 (PDE5) which is abundant in the lung and is the main enzyme responsible for cGMP hydrolysis. The resulting increase in cGMP probably mediates the relaxant and anti-hypertrophic actions of nitric oxide and natriuretic peptides in vascular tissues, and exerts a direct anti-hypertrophic action on cardiac muscle as demonstrated in compelling preliminary experiments by investigators of the NHLBI-funded Hopkins Scientific Center of Clinically Oriented Research (SCCOR) in Pulmonary Vascular Disease. In these experiments, sildenafil was capable of preventing and reversing RV hypertrophy and dysfunction in a model of pulmonary artery banding, similar to its effects on the left ventricle with aortic banding (20), indicating a direct beneficial action on RV remodeling. Both sildenafil (21) and tadalafil (22) have been demonstrated to be effective in PAH and are FDA approved for this indication. The endothelin-receptor antagonists, bosentan (23) and ambrisentan (24), are also FDA-labeled for this indication and represent alternative options for oral therapy of PAH (25). A small randomized study comparing sildenafil with bosentan suggested that sildenafil was superior in reducing RV mass and improving exercise capacity in patients with PAH (26). Recently, the results of a large multi-center randomized, controlled trial of tadalafil therapy for PAH have been presented. The data indicate, that similar to sildenafil, tadalafil at doses of 20 and 40 mg per day, improved exercise capacity. In addition, tadalafil 40 mg per day improved pulmonary hemodynamics, quality of life and reduced the incidence of clinical worsening. This study aims to compare the effects of tadalafil therapy, ambrisentan therapy and the combination of both agents in PAH-SSc on PVR and RV mass. It will also assess novel markers of RV function by cardiac MRI and echocardiography, as well as the conventional endpoints, including 6 MWD and functional class. The trial is unique in that it will enroll only PAH-SSc patients, the PAH subgroup with the poorest outcomes and will be considerably longer in duration (36 weeks) than previous studies. In addition, the effects of first line combination therapy with an ETRA/PDE V inhibitor will be compared with single agent regimens.|
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