110 research outputs found

    A review of pulmonary arterial hypertension: role of ambrisentan

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    Pulmonary arterial hypertension (PAH) is a rare fatal disease. Current disease-specific therapeutic interventions in PAH target 1 of 3 established pathways in disease pathobiology: prostacyclin, nitric oxide, and endothelin-1. Endothelin receptor antagonists (ERAs) act on the endothelin pathway by blocking binding of endothelin-1 to its receptors (endothelin type-A [ETA] and/or type-B [ETB]) on the surface of endothelial and smooth muscle cells. Ambrisentan is an oral, once-daily, ETA-selective ERA in development for the treatment of PAH. In Phase 3 clinical trials in patients with PAH, ambrisentan (2.5–10 mg orally once-daily) improved exercise capacity, Borg dyspnea index, time to clinical worsening, WHO functional class, and quality of life compared with placebo. Ambrisentan provided durable (at least 2 years) improvement in exercise capacity in a Phase 2 long-term extension study. Ambrisentan was well tolerated with a lower incidence and severity of liver function test abnormalities compared with the ETA/ETB ERA, bosentan, and the ETA-selective ERA, sitaxsentan. Ambrisentan does not induce or inhibit P450 enzymes; therefore, ambrisentan is unlikely to affect the pharmacokinetics of P450-metabolized drugs. The demonstration of clinical efficacy, low incidence of acute hepatic toxicity, and low risk of drug–drug interactions support the role of ambrisentan for the treatment of PAH

    Tadalafil for the Treatment of Pulmonary Arterial Hypertension A Double-Blind 52-Week Uncontrolled Extension Study

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    ObjectivesThe aim of this study was to evaluate the long-term safety and durability of efficacy of tadalafil for pulmonary arterial hypertension.BackgroundTadalafil is an oral phosphodiesterase-5 inhibitor approved for PAH treatment. In the multicenter, placebo-controlled, randomized, 16-week PHIRST (Pulmonary Arterial Hypertension and Response to Tadalafil) study, tadalafil 40 mg improved exercise capacity and delayed clinical worsening.MethodsEligible patients from PHIRST received once-daily tadalafil 20 mg (T20 mg) or 40 mg (T40 mg) (n = 357) in the double-blind, 52-week, uncontrolled extension study (PHIRST-2); 293 patients completed PHIRST-2. Durability of efficacy was explored using the 6-min walk distance (6MWD) test. Clinical worsening and changes in World Health Organization functional class were evaluated.ResultsThe safety profile of tadalafil in PHIRST-2 was similar to that in PHIRST, with typical phosphodiesterase-5 inhibitor adverse events. The 6MWDs achieved in PHIRST for the subset of patients receiving T20 mg and T40 mg in both PHIRST and PHIRST-2 (406 ± 67 m [n = 52] and 413 ± 81 m [n = 59] at PHIRST-2 enrollment, respectively) were maintained at PHIRST-2 completion (415 ± 80 m [n = 51] and 410 ± 78 m [n = 59], respectively). Numerically fewer patients who were on T40 mg in PHIRST and PHIRST-2 experienced World Health Organization functional class deterioration (6% [n = 5]) compared with those randomized to T20 mg (9% [n = 7]) across both studies. Post hoc analyses showed that background bosentan use and higher 6MWD at PHIRST baseline were associated with fewer clinical worsening events.ConclusionsLong-term treatment with tadalafil was well tolerated in patients with pulmonary arterial hypertension. In patients receiving either T20 mg or T40 mg, the improvements in 6MWD demonstrated in the 16-week PHIRST study appeared sustained for up to 52 additional weeks of treatment in PHIRST-2. (Pulmonary Arterial Hypertension and Response to Tadalafil Study; NCT00549302

    Pharmacokinetic and clinical profile of a novel formulation of bosentan in children with pulmonary arterial hypertension: the FUTURE-1 study

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    center dot Exposure to bosentan was lower in paediatric pulmonary arterial hypertension (PAH) patients treated with the marketed adult formulation at a dose of about 2 mg kg-1 when compared with adult PAH patients. center dot In healthy adult subjects, bosentan pharmacokinetics are less than dose-proportional at doses of >= 500 mg. WHAT THIS STUDY ADDS center dot The pharmacokinetics of a new paediatric bosentan formulation were characterized in paediatric PAH patients. center dot The level of exposure to bosentan as observed in adult PAH patients cannot be reached in paediatric patients with b.i.d. dosing. center dot In paediatric PAH patients, nondose-proportional pharmacokinetics of bosentan occur at lower doses when compared with healthy adult subjects. AIM To show equivalent bosentan exposure in paediatric patients with pulmonary arterial hypertension (PAH) when compared with a cohort of historical controls of adult PAH patients using a newly developed paediatric formulation. METHODS Thirty-six paediatric PAH patients were enrolled in this multicentre, prospective, open-label, noncontrolled study and treated for 4 weeks with bosentan 2 mg kg-1 b.i.d. and then for 8 weeks with 4 mg kg-1 b.i.d. Blood samples were taken for pharmacokinetic purposes. Exploratory efficacy measurements included World Health Organization (WHO) functional class and parent's and clinician's Global Clinical Impression scales. RESULTS Comparing children with a historical group of adults, the geometric mean ratio (90% confidence interval) of the area under the plasma concentration-time curve was 0.54 (0.37, 0.78), i.e. children had lower exposure to bosentan than adults. Bosentan concentrations following doses of 2 and 4 mg kg-1 were similar. Improvements in WHO functional class and the Global Clinical Impression scales occurred mainly in bosentan-naive patients, whereas the rare worsenings occurred in patients already on bosentan prior to study initiation. The paediatric formulation was well accepted and bosentan well tolerated in this study. No cases of elevated liver enzymes or anaemia were reported. CONCLUSIONS Exposure to bosentan, as shown comparing the results from this study with those from a study in adults, was different in paediatric and adult PAH patients. Since FUTURE-1 and past studies suggest a favourable benefit-risk profile for bosentan at 2 mg kg-1 b.i.d., this dose is recommended for children with PAH. The new paediatric formulation was well tolerate

    Long-term safety and efficacy of imatinib in pulmonary arterial hypertension

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    Abstract BACKGROUND: Imatinib is an oral inhibitor of several protein kinases implicated in the pathophysiology of pulmonary hypertension. Treatment with imatinib resulted in improved hemodynamics and exercise capacity in a controlled trial (Imatinib [QTI571] in Pulmonary Arterial Hypertension, a Randomized Efficacy Study [IMPRES]), among pulmonary arterial hypertension (PAH) patients inadequately responsive to 2 to 3 PAH-specific therapies. METHODS: The long-term (up to 204 weeks) safety and efficacy of imatinib in this open-label extension study were reviewed until early study termination on April 16, 2014. Of 202 IMPRES-enrolled patients, 66 imatinib and 78 placebo recipients entered the extension. RESULTS: Overall, 93.8% (135 of 144) of patients discontinued the extension study; administrative issues (i.e., sponsor termination; 32.6%) and adverse events (31.3%) were the primary reasons for discontinuation. Nine patients completed the extension study before it was terminated. Serious and unexpected adverse events were frequent. These included 6 subdural hematomas in the extension study and 17 deaths during or within 30 days of study end. Although the patients who tolerated imatinib and remained in the extension for a longer duration did experience an improvement in functional class and walk distance, most discontinued the drug and the study. CONCLUSIONS: Severe adverse events, significant side effects, and a high discontinuation rate limit the utility of imatinib in the treatment of PAH. These risks outweigh any possible improvements in hemodynamics and walk distance seen in those patients able to remain on drug. The off-label use of this compound in PAH is discouraged

    Risk factors for death in 632 patients with sickle cell disease in the United States and United Kingdom

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    Background: The role of pulmonary hypertension as a cause of mortality in sickle cell disease (SCD) is controversial. Methods and Results: We evaluated the relationship between an elevated estimated pulmonary artery systolic pressure and mortality in patients with SCD. We followed patients from the walk-PHaSST screening cohort for a median of 29 months. A tricuspid regurgitation velocity (TRV)≥3.0 m/s cuttof, which has a 67-75% positive predictive value for mean pulmonary artery pressure ≥25 mm Hg was used. Among 572 subjects, 11.2% had TRV≥3.0 m/sec. Among 582 with a measured NT-proBNP, 24.1% had values ≥160 pg/mL. Of 22 deaths during follow-up, 50% had a TRV≥3.0 m/sec. At 24 months the cumulative survival was 83% with TRV≥3.0 m/sec and 98% with TRV47 years, male gender, chronic transfusions, WHO class III-IV, increased hemolytic markers, ferritin and creatinine were also associated with increased risk of death. Conclusions: A TRV≥ 3.0 m/sec occurs in approximately 10% of individuals and has the highest risk for death of any measured variable. The study is registered in ClinicalTrials.gov with identifier: NCT00492531

    New Trial Designs and Potential Therapies for Pulmonary Artery Hypertension

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    A greater understanding of the epidemiology, pathogenesis, and pathophysiology of pulmonary artery hypertension (PAH) has led to significant advances, but the disease remains fatal. Treatment options are neither universally available nor always effective, underscoring the need for development of novel therapies and therapeutic strategies. Clinical trials to date have provided evidence of efficacy, but were limited in evaluating the scope and duration of treatment effects. Numerous potential targets in varied stages of drug development exist, in addition to novel uses of familiar therapies. The pursuit of gene and cell-based therapy continues, and device use to help acute deterioration and chronic management is emerging. This rapid surge of drug development has led to multicenter pivotal clinical trials and has resulted in novel ethical and global clinical trial concerns. This paper will provide an overview of the opportunities and challenges that await the development of novel treatments for PAH. A greater understanding of the epidemiology, pathogenesis, and pathophysiology of pulmonary artery hypertension (PAH) has led to significant advances over the past 2 decades in treatment of this disorder. However, these treatment options are neither universally available nor always effective, underscoring the need for development of novel therapies and therapeutic strategies. Because PAH is considered an orphan disease that is uniformly progressive and fatal, prior clinical trials evaluating novel therapies were relatively short in duration and were comprised of small populations of affected patients. These studies provided evidence of efficacy, but were limited in evaluating the scope and duration of treatment effects. Accordingly, clinical development of novel therapies for PAH in the future will require trials of larger and perhaps more diverse patient cohorts who are studied for longer periods and with more robust and meaningful efficacy endpoints. The challenges posed by these requirements are substantial, and include From th

    PDGF signaling in pulmonary arterial hypertension

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    The pathobiology of pulmonary arterial hypertension (PAH) includes endothelial cell dysfunction and proliferation and migration of VSMCs. As PDGF has been implicated in these processes, Schermuly et al. hypothesized that altered PDGF signaling may be involved in the vascular remodeling observed in PAH. To explore this notion further, the authors evaluated the effects of the PDGF receptor inhibitor STI571 in 2 different animal models of pulmonary hypertension. In both models, after development of pulmonary vascular disease, administration of STI571 reversed pulmonary vascular changes. These studies provide preclinical proof of concept for the clinical development of a PDGF inhibitor as a targeted therapy for PAH patients
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