504 Clinical Trials for Various Conditions
The purpose of this pivotal study is to determine if intravenous Rezafungin is efficacious and safe in the prevention of invasive fungal diseases when compared to the standard antimicrobial regimen.
The purpose of this study is to compare the efficacy of anidulafungin versus fluconazole for the prevention of fungal diseases in liver transplant recipients
This protocol provides for emergency treatment with the experimental anti-fungal drug voriconazole for patients with life-threatening invasive fungal infections. The increase in the number of patients whose immune function is suppressed because of chemotherapy, tissue or organ transplantation, or HIV infection has led to an increase in fungal infections. New drugs are needed to combat these infections in patients who do not respond to or cannot tolerate standard treatments. Patients on other primary NIH protocols who have an invasive life-threatening fungal infection that does not respond to currently available treatments or who cannot tolerate these treatments may be eligible for this study. Participants will have a blood test and a physical examination before receiving voriconazole. They will receive voriconazole twice a day either as an infusion into a vein or as tablets taken by mouth. Adult patients will be asked to provide a blood sample any time after the first dose of voriconazole to be used for developing a test to measure voriconazole concentration in the blood. Patients will be evaluated about 10 days after starting treatment and then at least once every 4 weeks with a symptom check and blood test.
This study will examine how children's bodies metabolize and eliminate the anti-fungal drug voriconazole. The results will yield information needed to make recommendations for safe and effective dosing of the drug in children. Children with reduced immune function-such as those receiving drugs for cancer treatment-are at high risk for serious fungal infections. Children between 2 and 12 years old who need treatment to prevent fungal infections may be eligible for this study. Candidates will be screened with a physical examination, eye examination, and blood and urine tests. Children in the study will be hospitalized for 21 days. They will receive voriconazole twice a day (every 12 hours) for 8 days, infused through a vein over a period of 1 to 2 hours. The dose will be determined based on the individual child's weight. Blood samples will be collected at various intervals before and after the infusions on days 1, 2, 4 and 8 to determine the amount of drug in the blood. On day 8, the child will have another physical and eye examination, as well as additional blood and urine tests. If additional treatment is required, voriconazole may be continued for up to day 21. (Children who require the drug for more than 21 days may receive it under another research protocol.) On the last day of treatment, the child will have another physical examination, and blood and urine tests. These procedures will be repeated again at 30 to 35 days following the last dose of drug. A small sample of blood will also be analyzed for genetic information related to the rate of metabolism of voriconazole-that is, how fast or slow it is cleared (eliminated) by the liver. Voriconazole is effective against several different fungi. It may protect children against serious fungal infections with fewer side effects than standard available therapy.
To compare the efficacy of fluconazole versus placebo in preventing the development of active coccidioidomycosis and other systemic fungal infections among HIV-infected patients with CD4 lymphocyte counts \< 250 cells/mm3 who are living in the coccidioidal endemic area.
To compare the safety, tolerance and efficacy of fluconazole and amphotericin B as treatment for biopsy proven fungal infections in major organs, disseminated infection, suspected fungal infection and fungemia in adult neutropenic and non-neutropenic patients without AIDS, AIDS related complex (ARC), or extensive burns. HIV seropositive patients are allowed only if they also have a malignancy.
PRIMARY: To determine the efficacy of azithromycin and rifabutin alone and in combination for the prevention of disseminated Mycobacterium avium Complex (MAC) infection in HIV-infected patients. To determine the efficacy of daily versus weekly fluconazole for the prevention of deep fungal infections in this patient population. SECONDARY: To determine the incidence of bacterial (including mycobacterial) infections, cryptosporidiosis, and toxoplasmosis in azithromycin versus non-azithromycin containing regimens. To determine the incidence of oropharyngeal and vaginal candidiasis in patients treated with daily versus weekly fluconazole. To compare survival and outcomes of primary endpoints in the treatment arms.
The primary purpose of this protocol is to provide fluconazole for the treatment of individual patients who require therapy for serious or life-threatening systemic fungal infection, who have failed on conventional antifungal therapy or have had unacceptable reactions to conventional antifungal therapy, and who are ineligible for other established fluconazole clinical trial protocols.
Voriconazole is a new drug developed to treat fungal infections. As of March 1999, the drug had been studied in more than 1,900 healthy volunteers or patients with fungal infections. This study will test extended use of voriconazole in patients with serious fungal infections for which there are no approved therapies, and in patients who did not improve with or could not tolerate standard therapy. It will evaluate the drug's safety, effectiveness, and toleration in these patients. Patients previous enrolled in protocol 99-C-0094 who improved with voriconazole treatment are eligible for this study. Before beginning treatment, patients will have a physical examination, including blood and urine tests, and an eye examination. They may also have X-ray or CT imaging. Voriconazole will then be given twice a day either by infusion into a vein or by tablets taken by mouth for up to 12 weeks. Patients will be examined at weeks 4, 8 and 12 of the study and one week after treatment stops. Blood and urine samples will be collected at each visit. An eye examination will be done at the end of the treatment period and at other visits if vision problems develop. Voriconazole is active against fungal infections and may produce fewer side effects than standard therapy.
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.
Invasive fungal infections are often life-threatening in persons with immunocompromise. Persons with prolonged neutropenia secondary to cytotoxic chemotherapies are at high risk for these infections. Patients undergoing bone marrow transplantation, receiving prolonged corticosteroid or other immunosuppressive therapies, and persons with HIV infection and AIDS are also at risk. With the use of currently approved antifungal therapy, many of these infections may still be associated with a high mortality. Amphotericin B in its conventional form, is the current standard treatment for most life-threatening fungal infections. Because of its nephrotoxicity and other adverse effects, alternatives to conventional amphotericin B have been sought. Alternated agents include three lipid formulations of amphotericin B, fluconazole, itraconazole. Although all of these agents are associated with a decrease in adverse effects, their efficacy in most life-threatening fungal infections has not been shown to be equivalent to conventional amphotericin B. Voriconazole is an investigational antifungal drug currently being brought to phase III trials in the US. This azole has been shown active against many fungal pathogens in vitro. In animal models and early human trials this new agent has been shown to be effective against aspergillosis. It has been shown to be well-tolerated and is available in an intravenous and oral formulation. This is a non-comparative, open label study to evaluate the efficacy, safety and toleration of voriconazole in the treatment of invasive fungal infections. This agent will be used as primary therapy in those fungal infections in which no antifungal agent is currently approved or in patients unable to tolerate the approved agent. Voriconazole will also be used as a secondary treatment in those patients who have failed therapy with the primary approved agent or are unable to tolerate that agent or have unacceptable toxicity.
This protocol describes a prospective, randomized study examining the safety and efficacy of Itraconazole for preventing fungal infections in patients with Chronic Granulomatous Disease (CGD). CGD is a genetic disorder in which phagocytes are unable to produce oxygen radicals. As a result, affected patients are prone to recurrent, severe infections with bacterial and fungal organisms. Patients with CGD of 5 or more years of age without evidence of infection at the time of study entry will be eligible for enrollment. Patients will be randomized to receive itraconazole or placebo tablets daily, in a double blinded fashion. In addition to itraconazole, all patients will receive antimicrobial prophylaxis against bacterial infection, and may in addition receive gamma-interferon as prophylaxis against infection. Randomization of patients will be stratified among patients receiving or not receiving gamma interferon. The primary endpoint of the study will be the development of culture or histologically proved invasive fungal disease. Patients will be monitored every three months for evidence of drug toxicity. The anticipated accrual period will be approximately 36-48 months.
To study the effectiveness, safety, and tolerance of fluconazole versus clotrimazole troches (lozenges) as prophylaxis (preventive treatment) against fungal infections in patients enrolled in ACTG 081 (a study of prophylaxis against pneumocystosis, toxoplasmosis, and serious bacterial infection). Primarily, to compare the rates of invasive infections by C. neoformans, endemic mycoses, and Candida. To compare the mortality rates due to fungal infections between two antifungal prophylactic treatments. Secondarily, to assess the effect of prophylaxis on the incidence of severe fungal infections, defined as invasive infections and esophageal candidiasis and less severe mucocutaneous infection. Serious fungal infections are significant complicating and life-threatening occurrences in patients with advanced HIV infection. Oropharyngeal candidiasis is found in almost all such patients, and causes pain, difficulty in swallowing, and loss of appetite. Similarly, esophageal candidiasis causes illness in the population. Cryptococcosis, endemic mycoses, and coccidioidomycosis also cause significant illness and death in AIDS patients. Once established, fungal infections in AIDS patients generally require continuous suppressive therapy because attempts at curing these infections are usually unsuccessful. Fluconazole has a number of characteristics that would make it a logical candidate to examine as a prophylactic agent in patients with advanced HIV infection. Animal studies have shown it to be prophylactic in models of candidiasis, cryptococcosis, histoplasmosis, and coccidioidomycosis. Initial experience in patients with active cryptococcal meningitis appears favorable, and studies of oropharyngeal candidiasis show it to be effective.
This study is being done to assess mogamulizumab-associated rash in patients diagnosed with mycosis fungoides or sezary syndrome and treated with standard of care mogamulizumab. One of the most common side effects of mogamulizumab is a rash, currently named mogamulizumab-associated rash (MAR) which can look like MF or SS. However, mogamulizumab-associated rash (MAR) does not indicate failure of mogamulizumab, and may be a sign that the drug is working. If not properly evaluated, mogamulizumab-associated rash (MAR) could be misinterpreted as worsening of mycosis fungoides/sezary syndrome, which could lead doctors to recommend stopping mogamulizumab treatment early. The information learned by doing this research study may help tell the difference between mogamulizumab-associated rash (MAR) (sometimes also called "drug eruption") and worsening of the disease. It may also help to uncover information about the cause of mogamulizumab-associated rash (MAR).
The major morbidities of allogeneic hematopoietic stem cell transplant (HSCT) using donors that are not human leukocyte antigen (HLA) matched siblings are graft vs host disease (GVHD) and life- threatening infections. T cell receptor alpha beta (TCRαβ) T lymphocyte depletion and CD19+ B lymphocyte depletion of alternative donor hematopoietic stem cell (HSC) grafts is effective in preventing GVHD, but immune reconstitution may be delayed, increasing the risk of infections. The central hypothesis of this study is that an addback of CD45RO memory T lymphocytes, derived from a fraction of the original donor peripheral stem cell product depleted of CD45RA naïve T lymphocytes, will accelerate immune reconstitution and help decrease the risk of infections in TCRab/CD19 depleted PSCT.
This project aims to address invasive fungal infections in patients with blood cancer, by precision dosing of voriconazole based on CYP2C19 genotype testing with Bayesian dose-forecasting dosing software to develop patient-centric and maximally effective dosing regimens. This study investigates if voriconazole increases the proportion of patients achieving therapeutic exposure at day 8 of dosing compared with standard care; and will assess factors that influence the implementation of genotype testing and dosing software in the healthcare system, including fidelity, feasibility, acceptability and cost-effectiveness. It will recruit at least 104 kids and adults in a parallel-group randomised clinical trial. A hybrid feasibility sub-study will assess the scalability of genotype-directed dosing to ensure sustainable integration of the interventions into the clinical workflow. A health economic sub-study will evaluate the costs, health outcomes and cost-effectiveness of genotype-directed testing compared to standard care.
To follow up with all our participants with juvenile-onset mycosis fungoides, check on their status, and ask them or their parents about long term outcomes associated with their condition.
The hypotheses of this study are that single agent CPI-0209 will be safe and well tolerated in patients with advanced (stage IB-IVB) mycosis fungoides (MF)/Sézary syndrome (SS) who have had at least one prior systemic therapy, and that in these patients, CPI-0209 will demonstrate efficacy and be worth of further study.
The goal of this clinical trial is to assess the benefit of continuous treatment with synthetic hypericin ointment (HyBryte) and visible light in patients with mycosis fungoides for up to 12 months (54 weeks). Funding Source: FDA OOPD.
Mycosis fungoides (MF) is the most common subtype of cutaneous T cell lymphoma (MF) and presents as cutaneous patches, plaques, and tumors. Radiation therapy (RT) is a frequently pursued management option for CTCL, especially in patients with more advanced skin disease. Imiquimod stimulates a Th1 lymphocyte response with increased IL-2 and IFN-α, but also induces IFN-α, TNF-α, IL-1α, IL-6, and IL-8, thereby bridging both innate and adaptive immunity. Dosing of both radiotherapy (RT) and imiquimod are based on standard-of-care doses/frequencies for CTCL. The reason imiquimod topical is given for a week before giving RT is to prime innate immune activity for when RT is delivered. It is believed that this serves as an adjuvant for the CD8+ antitumor response generated by RT. The primary aim of this study is to assess the safety and efficacy of a combination local radiotherapy and topical imiquimod approach for the treatment of conventional (CD4+) MF.
Corticosteroids exposure is a common risk factor for invasive fungal infections. Systemic corticosteroid therapy treats several medical conditions, including rejection in solid organ transplant recipients, malignancy, and autoimmune or inflammatory diseases. Corticosteroid exposure is a well-known risk factor for developing PJP. Still, it remains unclear how prior corticosteroid exposure influences the presentation, severity, and mortality of opportunistic fungal infections. The investigators aim to prospectively characterize the corticosteroid use as a dose response to inform risk of invasive fungal infections.
The purpose of this study is to determine whether photopheresis therapy can be used to improve the clinical course of early stage cutaneous T-cell lymphoma (CTCL). Currently, photopheresis is performed as a palliative treatment for late stage CTCL. However, recent studies have demonstrated that patients with early stage CTCL may have markers in their blood which were previously observed primarily in late stage disease, such as clonal T cell populations. Considering these findings, the study aims to investigate whether photopheresis therapy may be used earlier in the disease course to produce a clinical response.
This is an open label, single center, non-randomized dose de-escalation phase I study of combination of BV and Mogamulizumab. The primary objective of the study is to assess the safety and tolerability of the combination. The primary objective is also to explore safe dose of combination for future expansion.
To learn if a form of radiation therapy (called ultra-low-dose - total skin electron beam therapy \[ULD-TSEBT\]) in combination with brentuximab vedotin can help to control mycosis fungoides
The researchers are doing this study to test the safety of combining bexarotene with TSEB radiotherapy in people who have a common form of CTCL called mycosis fungoides (MF). Bexarotene is a form of vitamin A that activates proteins called retinoid X receptors, which may stop the growth of cancer cells and kill them. TSEB radiotherapy is a type of radiation therapy that treats the entire surface of the skin with very low doses of radiation to kill cancer cells and shrink tumors. This type of radiation does not pass through the outer layers of the skin into the tissues and organs below the skin. The study researchers think that giving bexarotene treatment at the same time as treatment with TSEB radiotherapy may be more effective against MF than either treatment given alone or in sequence (one after the other).
The goal of the current study is to evaluate the ability of CGB-400, a proprietary eutectic mixture of GRAS compounds, to clear the toenail fungal growth and improve the appearance of the fungus affected area(s). This is an open-label, single group POC study evaluating the effectiveness of CGB-400 Topical Gel for toenail fungal growth clearing. The study consists of a 12-week period with 5 clinic visits at the following timepoints: Baseline (Day 0), and Weeks 2, 6, and 12 and post-application follow-up at Week 24. The applications could be extended for an additional 12 weeks based on PI's observations. Approximately 15 subjects will be enrolled and subjected to application of CGB-400 Topical Gel. Subjects must be at least 18 years of age and will be selected by the concerned PI.
The purpose of this study is to find out whether the combination of pembrolizumab and gemcitabine is an effective treatment for mycosis fungoides and Sézary syndrome.
The purpose of this study is to identify the number of individuals with severe CoVID who require ventilator support and who develop serious fungal infections. The study is an observational study, meaning that we are not providing any intervention that does not involve usual standard of care. Our chief goal is to find evidence of fungal infection by using traditional, approved methods of diagnosis, but by applying these methods in the same way and frequency among all study participants. We will be looking especially for evidence of a fungal infection known as Aspergillus, which can causes a serious lung infection called invasive aspergillosis (IA).
This phase Ib/II trial investigates the side effects of mogamulizumab and extracorporeal photopheresis and to see how well they work in treating patients with Sezary syndrome or mycosis fungoides. Mogamulizumab (a humanized antibody) binds to CCR4, a protein often found in high amounts on T-cell lymphoma cells. Binding to these cells may slow their growth, as well as mark them for attack by the immune system. Extracorporeal photopheresis (ECP) is a standard treatment for cancers that affects the skin, and may work by killing some lymphoma cells directly and by boosting the body's immune response against other lymphoma cells. Giving mogamulizumab together with ECP may work better in treating patients with Sezary syndrome or mycosis fungoides compared to either therapy alone.