View clinical trials related to Fungal Infection.
Filter by:This is a Phase 1, double-blind, placebo-controlled trial in three parts. A single ascending dose (SAD) study in six cohorts receiving a single subcutaneous (SC) dose of 1, 10, 30, 60, 100, or 200 mg of rezafungin; a multiple ascending dose (MAD) study in four cohorts receiving 30 mg x 3 doses, 60 mg x 3 doses, 100 mg x 3 doses, or 200 mg x 3 doses of rezafungin SC with dosing frequency of once every 7 days; and a two-period cross-over bioavailability (BA) study receiving 100 mg of rezafungin. The two period cross-over BA study will be assessed unblinded in two sequences (10 subjects, 100 mg or maximum tolerated dose (MTD) of rezafungin in Part 1); 5 subjects will receive an SC injection of rezafungin in Period 1 followed by an intravenous (IV) infusion of rezafungin in Period 2, and 5 subjects will receive an IV infusion of rezafungin in Period 1 followed by an SC injection of rezafungin in Period 2. Each SAD (except cohort 1) and MAD cohort will contain 8 subjects (6 subjects will receive a SC injection of rezafungin and 2 subjects will receive placebo). Each SAD (except cohort 1) and MAD cohort will be conducted with sentinel dosing. SAD cohort 1 will be comprised of 4 subjects (3:1 rezafungin to placebo) with no sentinel dosing. Parts 2 and 3 of the study will only be conducted after FDA review for safety data and PK data from all subjects participating in Part 1; Part 3 may be run in parallel with the first cohort (Cohort 7) of Part 2. Individuals in the SAD cohorts will participate for approximately 58 days, including up to 28 days for screening and 30 days for dosing and follow-up (FU). Individuals in the MAD cohorts will participate for approximately 73 days, including up to 28 days for screening and 45 days for dosing and FU. Individuals in the BA cohorts will participate for approximately 80 days, including up to 28 days for screening and 52 days for dosing and FU. The study will have a duration of approximately 30 months. The primary objectives are to determine the: 1) safety and tolerability of single ascending SC doses (SAD) of rezafungin; 2) safety and tolerability of multiple ascending SC doses (MAD) of rezafungin; and 3) pharmacokinetic (PK) profile in plasma of rezafungin in healthy adult subjects.
This observational study is designed to evaluate the reported outcomes for patients receiving topical therapy for the treatment of pain, fungal infections or skin scars. The patients will complete the Patient Reported Outcome (PRO) survey monthly and provide valuable data on the patients perception of their health status and well being while receiving therapy.
This single site study will examine plasma and alveolar compartment (AC) levels of posaconazole in cystic fibrosis (CF) and non-cystic fibrosis (non-CF) lung transplant recipients receiving routine post-operative anti-fungal prophylaxis. Invasive fungal infection rates will be assessed following transplantation.
Due to the poor outcome of patients with invasive fungal infections (IFI), a more effective prevention of these infections in such patients is wanted. These experiences in intensively treated elderly patients with acute leukemia are especially worrying. This pilot study is designed to collect information on the safety (and efficacy) of an antifungal preventative therapy with an AmBisome® loading dose regimen of 7 mg/kg/week, in four weekly administrations, during the aplastic phase following the start of chemotherapy for acute lymphoblastic leukemia in elderly patients, which is a high risk period for severe fungal infections.
A fixed-dosing regimen of voriconazole is routinely used as prophylaxis against aspergillosis in liver transplant patients admitted to the transplant intensive care unit at UPMC. We hypothesize that use of a fixed-dosing regimen of voriconazole will lead to a large degree of variability in drug exposure among liver transplant patients due to: 1) variability in absorption and elimination caused by physiological characteristics unique to this patient population 2) its non-linear pharmacokinetics and 3) the potential for polymorphism in the genes that encode for cytochrome P-450 enzymes that metabolize voriconazole. This is a pilot clinical pharmacokinetic evaluation that will: 1) characterize the plasma concentration versus time profile of voriconazole in liver transplant patients receiving a fixed-dosing regimen to assess for extremes in systemic exposure 2) determine the oral bioavailability of voriconazole in liver transplant patients 3) assess for functionally significant allelic variation of the cytochrome P-450 enzymes that metabolize voriconazole (CYP2C9, CYP2C19 and CYP3A4/5) in both recipient blood and allograft tissue that may contribute extremes in systemic exposure among liver transplant patients. This evaluation will allow for an assessment of the adequacy of the prophylactic regimen in achieving therapeutic drug concentrations in all subjects. Additionally, the utility of genotyping as a clinical tool to identify patients at risk for extremes in voriconazole exposure will be evaluated. The characterization of the pharmacokinetics in liver transplant patients may be utilized to define an optimal therapeutic regimen that will be individualized to target specific concentrations to maximize efficacy and minimize side-effects.
Therapeutic options for serious fungal infections are limited by intrinsic and acquired resistance to existing antifungal agents. For example, zygomycetes (such as Mucor spp.) are intrinsically resistant to voriconazole and caspofungin. Yet, the only available therapeutic option, amphotericin, is associated with significant renal toxicity, even in lipid formulations. Posaconazole is a new antifungal drug, not yet Food and Drug Administration (FDA) approved, but which has excellent in vitro activity against some intrinsically resistant fungi such as the zygomycetes. The intent of this trial is to provide access to posaconazole to patients with serious fungal infections which are refractory to standard antifungal therapies or invasive fungal infections for which there are currently no effective therapies. Secondly, the drug will also be made available to patients with invasive fungal infections who: - have experienced serious or severe toxicities while receiving standard antifungal therapies; - have pre-existing renal dysfunction which precludes use of standard antifungal therapies; or - are chronically immunosuppressed with a history of invasive fungal infections previously treated with posaconazole in other clinical trials, and who require oral antifungal suppressive therapy as maintenance treatment to prevent recurrence. This is a multicenter, open-label, non-comparative experimental treatment use protocol. The experimental treatment use protocol will provide the investigational medication posaconazole where no other drug is commercially available. Posaconazole is given as an orally or enterally administered suspension. The duration of therapy is at the discretion of the investigator. Safety assessments will include an electrocardiogram [ECG] (to ensure no QTc interval prolongation) performed at baseline and serum/urine pregnancy testing performed at baseline and every three months after initiation of therapy. Plasma concentrations will be obtained if there is evidence of clinical failure. No other tests will be performed specifically for the experimental treatment use protocol.