View clinical trials related to Invasive Fungal Infections.
Filter by:The primary objective of this trial is as follows: To determine the pharmacokinetics of micafungin given twice weekly in patients at risk for developing an invasive fungal disease (patients who are being treated for acute or chronic graft versus host disease; patients receiving reduced intensity conditioning for Stem Cell Transplant (SCT); receiving first remission induction chemotherapy for Acute Myeloid Leucaemia (AML)/MyeloDysplasticSyndrome (MDS)) compared to the pharmacokinetics of micafungin given daily. The secondary objective of this trial is as follows: To determine whether adequate exposure of micafungin is attained. To determine the safety of micafungin in this patient population
The purpose of this study is to determine whether F18 fluorodeoxyglucose (18F-FDG) positron-emission tomography scan (PET scan) is useful for the therapy strategy of hepatosplenic candidiasis.
In this trial, our goal is to determine the pharmacokinetics of micafungin in a non-selected cohort of patients with suspected or proven invasive fungal infections. Patients will receive micafungin for the period necessary to achieve clinical and / or mycological cure. An attempt will be made to have 2 PK curves, one full and one limited sampling on days 3 (n=9) and 7 (n=5). Furthermore, we will be able to determine intra-individual variability. On non-PK days, trough samples will be taken to determine the time to steady state. All samples will be taken just prior to the morning dose of micafungin. All infusion rates will be according to the SPC label information. Patients are considered to be evaluable if at least the first PK curve has been completed. Two moments of PK analysis will enable us to determine whether there is an increase over time in exposure if steady state has not been reached.
In patients with invasive fungal infection (IFI) rapid diagnosis is essential for early initiation of appropriate antifungal therapy and thereby survival. Conventional culture is still the Gold-Standard for diagnosis of IFI. Sensitivity of conventional culture, however, is low (50%) and time to results minimum 24 hours. Therefore usage of serological tests detecting fungal antigens has increased dramatically over recent years. Main advantages of this new methods are rapid results and higher sensitivity when compared to conventional culture. One of the most promising serological marker currently used is beta-D-Glucan, which is a component of the fungal cell wall. ß-D-Glucan has been detected in IFI caused by Aspergillus, Candida and Fusarium spp. The Fungitell Assay (Associates of Cape Code, Inc.) was developed and validated for detection of ß-D-Glucan in peripheral blood. Up to date information about clinical performance of the Fungitell Assays in bronchoalveolar lavage fluid (BAL) is limited. This study will therefore evaluate clinical and diagnostic performance of the Fungitell Assay in BAL from patients with solid organ transplant or hematologic malignancy. In addition Mn/A-Mn, the lateral flow device test for aspergillosis, and Galactomannan, as well as PCR will be determined and used as comparators for BDG performance.
The pharmacokinetics of caspofungin are expected to be different in ICU patients compared to non-ICU patients. The investigators will determine caspofungin concentrations in 20 ICU patients, who will get caspofungin as standard care. Full PK curves will be taken on day 3 and a limited PK curve on day 7, trough levels will be taken daily.
Estimate the rate of occurrence of Invasive Fungal Infections (IFIs) in patients with acute leukemia for the first 6 months of chemotherapy (that usually correspond to four courses of chemotherapy), and hematopoietic stem cells transplantation.
This randomized phase III trial compares the effectiveness of caspofungin to fluconazole in preventing invasive fungal infections in patients receiving chemotherapy for acute myeloid leukemia (AML). Antifungal prophylaxis is considered standard of care in children and adults with prolonged neutropenia after chemotherapy for AML however the ideal antifungal agent for prophylaxis in children is not known. Caspofungin has activity against yeast and some molds while fluconazole coverage is limited to just yeasts. Adult randomized trials suggest that agents with activity against yeasts and molds are more effective than those with just activity against yeasts. There are limited data to answer this comparative question in children. This study will establish much needed pediatric data to guide clinical decision making on optimal antifungal prophylaxis.
The purpose of this study is to compare the effects, good and/or bad, of posaconazole and micafungin in preventing fungal infections after chemotherapy for acute leukemia or myelodysplastic syndrome. When people take chemotherapy, they are more likely to get infections. Posaconazole has been approved for the prevention of fungal infections in patients who receive induction chemotherapy for acute leukemia and myelodysplastic syndrome. Posaconazole is available only as an oral suspension and has to be given with food. After chemotherapy, many patients are not able to tolerate food or oral medication because of severe mucositis. Patients unable to tolerate food and oral medications cannot take posaconazole. Micafungin is an antifungal medication that is given only intravenously. Micafungin is approved for the treatment of certain fungal infections and for preventing fungal infections in patients who receive bone marrow transplant. The investigators know that micafungin is safe. Micafungin has not been tested for the prevention of fungal infections in patients receiving chemotherapy for acute leukemia and myelodysplastic syndrome. Because micafungin is given by vein, it can be given even in patients who cannot take food or medications by mouth after chemotherapy. In this study the investigators want to compare micafungin to posaconazole when given for the prevention of fungal infections in leukemia and myelodysplastic syndrome patients.
Assessment of safety and efficacy of voriconazole in real-life setting in the treatment of high risk patients with invasive fungal infections. The study is conducted in Slovakia only.
The purpose of this study is to collect pharmacokinetic (PK) information related to how well intravenous Posaconazole (POS IV), is distributed in the body and to determine the safety and tolerability of this new formulation. In addition, the PK, safety, and tolerability of switching from taking POS IV to taking Posaconazole Oral Suspension (POS Oral) will be evaluated. The data collected in this study will be compared to data collected in previous studies. Individuals who have been diagnosed by their physicians with a blood disease or cancer that can affect their infection-fighting white blood cells will be asked to participate in the trial. Since these blood diseases and their treatments can weaken the immune system, they may put these individuals at a high risk for getting a serious fungal infection of their internal organs or blood (invasive fungal infection). As these fungal infections can be hard to detect early and can be life-threatening, many physicians believe that individuals diagnosed with these diseases should receive antifungal therapy to try to lower their risk of getting this type of infection. Enrollment into this study will take place in several stages (cohorts). The determination of which cohort an individual will be asked to participate in is based on which cohort is open at the site at the time the individual is approached to consider study participation.