View clinical trials related to Aspergillosis.
Filter by:Double blind, placebo controlled, ascending single oral dose, sequential group study. Forty subjects will complete the study in 5 cohorts (Groups A to E), each group consisting of 8 subjects. Each subject will be on study for approximately 6 weeks. Each subject will participate in one treatment cohort only, residing at the Clinical Research Unit (CRU) from Day -1 (the day before dosing) to Day 6 (120 hours post-dose). Each cohort will be dosed in a leading edge design in which two subjects will receive study drug (1 active and 1 placebo) on the first dosing day, and the last 6 will receive study drug (5 active and 1 placebo) on the second dosing day. All subjects will return for a post-study visit 8 to 10 days after the dose of study medication. Cohorts will be dosed at 2 weekly intervals. There will be a review of safety data, after the first two subjects have been dosed and before dosing of the subsequent six subjects. There will be a complete review of safety and pharmacokinetic data of each cohort prior to each dose escalation.
Double blind, placebo controlled, parallel group ascending dose study evaluating single and multiple (x8 days) dose levels of F901318 in groups of male healthy subjects with the objective of defining a dosing schedule for phase ll clinical trials. F901318, a novel and potent antifungal agent for the treatment of invasive aspergillosis, will be delivered intravenously in a range of dosing schedules driven by pharmacokinetic evaluation in real time. Safety and tolerability of those schedules will also be assessed.
Compare the incidence of severe clinical exacerbations in the treatment of ABPA, between a strategy with a maintenance treatment and a conventional strategy without antifungal maintenance therapy.
The primary objective of this study is to assess and compare the safety of posaconazole with voriconazole in Japanese participants with aspergillosis.
F901318 is a potent new antifungal agent for the treatment of systemic fungal infections. This study will test it for the first time in man with the objective of assessing its safety, tolerability and pharmacokinetic profile.
Although the clinical outcome in patients with Invasive Aspergillosis (IA) is largely dependent on early initiation of effective treatment with antifungal drugs, diagnosing IA is still a critical problem. Symptoms are non-specific and available diagnostic tools are either invasive or have low sensitivity and specificity. This often results in a diagnostic delay, with patients developing more extensive disease. Furthermore, as long as IA is present, oncological follow-up treatment is not feasible. Inaccuracy in diagnosing IA can cause serious treatment delay and increased mortality. However, an empirical strategy with prophylactic anti-mould therapy is not feasible considering both possible side effects and costs. In order to safely continue the use of a pre-empirical strategy, improved (non-invasive) diagnostic tools are desirable. In a pilot study de Heer et al. showed that it is possible to discriminate between patients with IA and their neutropenic controls by exhaled breath analysis using an electronic nose (eNose). In this study the investigators aim to test whether an eNose could be useful as a diagnostic tool in a prospective setting. The gold standard in exhaled breath analysis is Gas Chromatography - Mass Spectrometry (GC-MS). This technique enables identification of volatile organic compounds (VOCs) in breath of patients. It is possible that there are Aspergillus specific VOCs in the breath of patients with IA. The composition of the lung microbiome seems to be an important factor in both health and disease. It is likely that the microbiome of the lung changes in prolonged neutropenia, therefore possibly creating a niche for molds and yeasts. Comparing the microbiome of patients with prolonged neutropenia who develop IA with those who do not, can learn us more about the pathogenesis of this disease. This knowledge could be used to investigate new treatment options for Invasive Aspergillosis. Hypothesis The investigators hypothesize that airway microbial (viral, bacterial) presence and exhaled molecular profiles as obtained from patients with prolonged neutropenia due to treatment of hematological malignancies, are different between patients who develop IA and patients who do not.
Background Invasive pulmonary aspergillosis (IPA) remains an important cause of morbidity and mortality among patients with hemato-oncological malignancies. Due to the crude mortality of >90% in absence of adequate treatment, timely diagnosis and early start of antifungal therapy are key factors in the successful treatment of IPA. Various studies have shown that early initiation of antifungal therapy may improve IPA survival to above 70%. Diagnosis of IPA, however, remains difficult as clinical signs and symptoms as well as radiological findings are often unspecific and conventional culture methods lack sensitivity. In recent years antigen testing has therefore become one of the cornerstones of IPA diagnostics. Brochoalveolar lavage (BAL) Galactomannan (GM) testing is currently the most promising approach for early detection of pulmonary infections by this fungus. However, limitations of GM detection are assay turn-around time, which varies widely between centers (less than a day to several days), and the need for appropriately equipped laboratories that routinely test for this antigen. These limitations are overcome by the Aspergillus Lateral-Flow Device (LFD), a novel point-of-care (POC) test for IPA diagnosis developed by Dr Thornton at the University of Exeter, UK. This simple, rapid (15 min), single-use test can be performed in rudimentary facilities using BAL specimens. In a retrospective single centre study we have recently evaluated the LFD test in 39 BAL samples from hematologic malignancy patients and solid organ transplant recipients. Sensitivities and specificities of BAL LFD tests for probable IPA were 100% and 81%, respectively. Galactomannan levels in cases with negative LFD were significantly lower than in patients with positive LFD (P <0.0001). We concluded that the LFD test of BAL specimens is performed easily and provides accurate and rapidly available results. Therefore, this new point-of-care test may be a very promising diagnostic approach for detecting IPA in BAL specimens from haematological malignancy and SOT patients. For routine clinical use, however, multicenter studies with larger sample sizes also from other patient collectives are necessary. In this multicenter study we will evaluate the LFD test in BAL samples. Study Objectives Primary Objectives To evaluate the Lateral Flow Device test, a rapid (15 min), point-of-care test for IPA diagnosis using bronchoalveolar lavage (BAL) fluids from patients at risk for IPA. Secondary Objective To evaluate the potential of BAL Lateral Flow Device test for prognosis in patients with IPA. Study Design This is a prospective multi-center study conducted in three centers in Austria (Graz, Vienna and Innsbruck) and one centre in Germany (Mannheim). In order to meet the objectives an estimated number of 300 BAL samples from patients at risk for IPA (50 to 100 per centre) will be included in the study cohort. The Lateral Flow Device test will be performed prospectively in BAL samples from the patients and results will be compared to GM results, PCR findings, clinical/radiological findings as well as conventional culture results. In addition, retrospective testing of BAL samples that were previously routinely tested for GM will be performed in up to three participating centers (Graz, Innsbruck and Mannheim) to ensure to reach the proposed number of 300 BAL samples. The treating clinicians will not be informed about BAL Lateral Flow Device test results and the test will therefore have no impact on patient management / treatment decisions.
Invasive pulmonary aspergillosis (IPA) is difficult to diagnose and remains a cause of high morbidity and mortality in critically ill patients in the ICU. Accepted diagnostic protocols for haemato-oncological patients are not applicable for critically ill patients in ICUs. Definitive discrimination between aspergillic colonisation and IPA often depends on the clinical experience of the treating physician, evaluating clinical signs, co-morbidities, and course of the disease. Life saving treatment with the first line antimycotic Voriconazol (Vfend®) can only be initiated after diagnosis of IPA. In this prospective clinical trial the investigators aim to structure, optimize and fast track the diagnostic pathway of IPA in critically ill patients treated in our ICU-department.
Inhaled amphotericin, a antifungal drug would decrease Aspergillus colonization and decrease the occurrence of exacerbations of Allergic Bronchopulmonary Aspergillosis (ABPA).
The purpose of this study is to evaluate the safety and efficacy of posaconazole (POS) versus voriconazole (VOR) in the treatment of adults and adolescents with invasive aspergillosis (IA). The primary hypothesis is that the all-cause mortality through Day 42 in the POS treatment group is non-inferior to that in the VOR treatment group.