View clinical trials related to Fungemia.
Filter by:The objective of this study is to compare the efficacy and safety between Mycamine and Itraconazole oral solution in preventing invasive fungal infections on autologous(malignant blood diseases) or allogeneic hematopoietic stem cell transplant patients
The purpose of this study was to determine if the use of daily chlorhexidine bathing would decrease the incidence of MRSA and VRE colonization and healthcare associated Bloodstream Infections (BSI) among Intensive Care Unit (ICU) patients.
The study aims to determine if voriconazole prevents invasive fungal infections in liver transplant recipients. Endpoints would be: occurrence of invasive fungal infection and fungal colonization. Two groups will be compared: patients who received voriconazole as prophylaxis and historical controls who did not receive this prophylaxis.
Central venous catheters (CVCs) are used in patient care for such purposes as the administration of medication, fluids, blood products and for functions such as hemodialysis and plasmapheresis. However, the use of CVCs can cause complications such as life-threatening bloodstream infections (BSI). BSIs are caused by organisms from the skin's surface tracking down the catheter's outer surface. The organisms grow on the catheter surface (catheter colonization) which is followed by seeding into the bloodstream. BSIs can be difficult to treat and the mortality rate is as high as 35% in Intensive Care patients with a catheter-related BSI. It is estimated that up to 70,000 patients in the US die each year from catheter-related BSI. MBI 226 is a new drug that, when applied to the skin surrounding the catheter insertion site, may prevent organisms on the skin from migrating down the catheter and entering the bloodstream and therefore decrease the incidence of catheter-related BSI in patients with CVCs.
Fever and infection are serious complications of cancer treatment such as bone marrow transplant, especially when white blood cell counts are low. When the number of white blood cells is below 500, the person has a condition called neutropenia and has a high risk of developing an infection. At the first sign of fever, antibiotics are started. However, antibiotics do not kill fungus germs, and fungal infections may be difficult to treat. Thus, the prevention of fungal infections in this population is important. The only medicine approved for prevention of fungal infections is fluconazole, which prevents some but not all types of such infections. A new antifungal medication called FK463 works against more types of fungal infections than fluconazole does. This study will compare the effectiveness, safety, and tolerance of FK463 as compared with fluconazole. Eight hundred patients will be enrolled in this study. They will be randomly assigned to receive either fluconazole or FK463. Before the medicine is begun, a physical exam as well as a blood sample, mouth swab, urine sample, and chest x-ray will be done. The fluconazole or FK463 will be administered once a day for one hour into the bloodstream through a catheter in the vein. Blood tests will be taken twice a week. Cultures from the blood, mouth, and urine will be taken throughout the study. X-rays and CT scans will only be taken if a fungal infection is suspected. If fever develops, blood will be drawn to check for fungi. If fever and neutropenia continue for more than 4 days, FK463 or fluconazole will be stopped and a standard medication called amphotericin B will be started. Both FK463 and fluconazole will be administered until white blood cell count returns to greater than 500 (signifying recovery from neutropenia), or up to 42 days after transplantation. Patients will be evaluated 4 weeks after the medicine is stopped.
The objective of this study is to evaluate the efficacy, safety and toleration of voriconazole in the primary treatment of systemic or invasive fungal infections due to fungal pathogens for which there is no licensed therapy; and in the secondary treatment of systemic or invasive fungal infections in patients failing or intolerant to treatment with approved systemic antifungal agents. This trial is a Phase II multicenter, open label study investigating the utilization of voriconazole for the treatment of systemic or invasive fungal infections. Enrollment is targeted for 150 patients to be recruited from multiple centers. The patient population will consist of patients with proven, deeply invasive fungal infection for which there is no licensed therapy or if the patient is failing or intolerant to treatment with approved systemic antifungal agents. Voriconazole will be administered initially by a loading dose of 6 mg/kg q12 hours for the first two doses followed by 4 mg/kg q12 hours. Efficacy will be evaluated by clinical, radiological and microbiological response.