6 Clinical Trials for Various Conditions
The goal of this open-label study is to study molgramostim as a treatment for autoimmune pulmonary alveolar proteinosis (aPAP) in pediatric patients between age 6 and 18. The main questions it aims to answer are: The effect of molgramostim on breathing tests and activity in pediatric patients with aPAP and the safety of molgramostim in pediatric patients with aPAP. This is an open-label study: all participants will receive treatment with molgramostim. Patients will: * Take molgramostim once daily via nebulizer every day for 12 months. * Visit the clinic approximately every 12 weeks for checkups and tests. * Keep a diary of any oxygen use.
160 subjects with autoimmune pulmonary alveolar proteinosis (aPAP) will be randomized to receive once daily treatment with inhaled molgramostim or placebo for 48 weeks. Subjects completing the 48 week placebo-controlled period will receive open-label treatment with once daily inhaled molgramostim for 96 weeks.
The major goal of this study is to conduct a prospective, longitudinal study of autoimmune PAP to examine outcome measures for disease severity of potential use in clinical practice and/or clinical research studies. These results will impact the field by: 1) improving an understanding of the clinical course of autoimmune PAP, 2) providing information on various clinical outcome and quality of life outcome measures to guide patients and physicians in making treatment choices, and 3) facilitate the development of pharmaco-therapeutics for autoimmune PAP and 4) better informing PAP researchers.
Pulmonary alveolar proteinosis (PAP) is a syndrome of surfactant accumulation, respiratory failure, and innate immune deficiency for which therapy remains limited to whole lung lavage (WLL), an invasive physical procedure to remove surfactant unavailable at most medical centers. While PAP occurs in multiple diseases affecting men, women, and children of all ages and ethnic origins, in 85% of patients, it occurs as an idiopathic disease associated with neutralizing GM-CSF autoantibodies. Basic science and translational research has shown that idiopathic PAP is an autoimmune disease in which disruption of GM-CSF signaling impairs the ability of alveolar macrophages to clear surfactant and perform host defense functions. Recently, it has been shown that cholesterol toxicity drives pathogenesis in alveolar macrophages from GM-CSF deficient (Csf2-/-) mice and patients with autoimmune PAP. Loss of GM-CSF signaling reduces PU.1/CEBP-mediated expression of PPARγ and its downstream target ABCG1 (a cholesterol exporter important in macrophages). The cell responds by esterifying and storing cholesterol in vesicles to reduce toxicity. Eventually, vesicles fill the cell, impair intracellular transport and reduce uptake and clearance of surfactant from the lung surface resulting in disease manifestations. Recent data indicates that pioglitazone, a PPARγ agonist currently approved by the FDA for human use, increases cholesterol/surfactant clearance by alveolar macrophages from autoimmune PAP patients and Csf2-/- mice. Importantly, pioglitazone significantly reduced the severity of PAP lung disease in Csf2-/- mice after several months of therapy. Together, these observations suggest pioglitazone could be 'repurposed' as pharmacologic therapy for PAP.
Autoimmune PAP is a rare lung disease affecting less than 5,000 individuals in US with no FDA-approved pharmacologic therapy. Results from "off-label" use in case reports and clinical studies completed outside of the US indicate that inhaled rhGM-CSF may be a safe and effective thera-py for autoimmune PAP. Preliminary clinical trials of inhaled rhGM-CSF in autoimmune PAP patients show promising results, 62%-96% therapeutic response rate without any identifiable drug-related adverse effects in at least 73 autoimmune PAP patients. However, the pharmacokinetics (PK), pharmacodynamics (PD), optimal dose, and treatment duration to maximize efficacy are unknown. The goal is to begin to address these knowledge gaps for inhaled sargramostim for autoimmune PAP patients with a pilot safety and PK/PD study (TPSC-110). TPSC-110, PharmPAP, which is a self-controlled open-label, phase I study to evaluate the safety, PK, and PD of inhaled sargra-mostim in autoimmune PAP patients. These results will impact the field by 1) confirming existing published data, 2) monitoring the local effects of inhaled sargramostim in autoimmune PAP patients, 3) potentially demonstrating a safe starting dose for a later trial to evaluate the therapeutic efficacy of inhaled sargramostim for autoimmune PAP.
This study evaluates inhaled molgramostim (recombinant human granulocyte macrophage-colony stimulating factor \[rhGM-CSF\]) in the treatment of autoimmune pulmonary alveolar proteinosis (aPAP) patients. A third of the patients will receive inhaled molgramostim once daily for 24 weeks, a third will receive inhaled molgramostim intermittently (7 days on, 7 days off) for 24 weeks and a third will receive inhaled matching placebo for 24 weeks.