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Active clinical trials for "Mycoses"

Results 11-20 of 546

Ultra Low Dose Radiation Therapy in Treating Patients With Mycosis Fungoides

Localized Skin LesionMycosis Fungoides

This phase II trial studies how well ultra low dose radiation therapy works in treating patients with mycosis fungoides. Radiation therapy uses high energy x-rays to kill tumor cells and shrink tumors. Giving ultra low doses of radiation may help control the disease and reduce side effects compared to treatment with higher doses.

Recruiting13 enrollment criteria

Posaconazole Pharmacokinetics in Patients Receiving Chemotherapy or Stem Cell Transplants

PosaconazolePharmacokinetics5 more

The purpose of the study is to investigate the pharmacokinetics of oral dosage of Posaconazole which is routinely administered as a standard care prophylaxis for patients undergoing cancer treatments.

Recruiting3 enrollment criteria

Mogamulizumab and Extracorporeal Photopheresis for the Treatment of Sezary Syndrome or Mycosis Fungoides...

Mycosis FungoidesPrimary Cutaneous T-Cell Non-Hodgkin Lymphoma1 more

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.

Recruiting40 enrollment criteria

Duvelisib and Nivolumab for the Treatment of Stage IIB-IVB Mycosis Fungoides and Sezary Syndrome...

Stage IIB Mycosis Fungoides and Sezary Syndrome AJCC v8Stage III Mycosis Fungoides and Sezary Syndrome AJCC v81 more

This phase I trial identifies the best dose, possible benefits, and/or side effects of duvelisib in combination with nivolumab in treating patients with stage IIB-IVB mycosis fungoides and Sezary syndrome. Duvelisib may stop the growth of tumor cells by blocking some of the enzymes needed for cell growth. Immunotherapy with monoclonal antibodies, such as nivolumab, may help the body's immune system attack the cancer, and may interfere with the ability of tumor cells to grow and spread. Giving duvelisib in combination with nivolumab may work better than giving each of these drugs individually, or treating with the usual approach in patients with mycosis fungoides and Sezary syndrome.

Recruiting54 enrollment criteria

Posaconazole (MK-5592) Intravenous and Oral in Children (<2 Years) With Invasive Fungal Infection...

Invasive Fungal Infection

This study aims to estimate the pharmacokinetics (PK) of posaconazole (POS, MK-5592) intravenous (IV) and powder for oral suspension (PFS) formulations in pediatric participants <2 years of age with invasive fungal infection (IFI).

Recruiting18 enrollment criteria

Pembrolizumab Administered Via the Sofusa® DoseConnect™ in Patients With Relapsed/Refractory Cutaneous...

Mycosis Fungoides

In this pilot study, pembrolizumab will be administered via DoseConnect in patient with relapsed or refractory cutaneous T-cell lymphoma to assess through pharmacodynamic assessment in the tumor tissue to assess if lymphatic delivery of pembrolizumab using Sofusa DoseConnect is feasible.

Recruiting22 enrollment criteria

Study of CAR-T Cells Expressing CD30 and CCR4 for r/r CD30+ HL and CTCL

LymphomaImmune System Diseases11 more

The body has different ways of fighting infection and disease. No single way is perfect for fighting cancer. This research study combines two different ways of fighting disease: antibodies and T cells. Antibodies are proteins that protect the body from disease caused by bacteria or toxic substances. Antibodies work by binding bacteria or substances, which stops them from growing and causing bad effects. T cells, also called T lymphocytes, are special infection-fighting blood cells that can kill other cells, including tumor cells or cells that are infected with bacteria or viruses. Both antibodies and T cells have been used to treat patients with cancers. They both have shown promise, but neither alone has been sufficient to treat cancer. This study will combine both T cells and antibodies in order to create a more effective treatment called Autologous T Lymphocyte Chimeric Antigen Receptor cells targeted against the CD30 antigen (ATLCAR.CD30). Another treatment being tested includes the Autologous T Lymphocyte Chimeric Antigen Receptor cells targeted against the CD30 antigen with CCR4 (ATLCAR.CD30.CCR4) to help the cells move to regions in the patient's body where the cancer is present. Participants in this study will receive either ATLCAR.CD30.CCR4 cells alone or will receive ATLCAR.CD30.CCR4 cells combined with ATLCAR.CD30 cells. Previous studies have shown that a new gene can be put into T cells that will increase their ability to recognize and kill cancer cells. The new gene that is put in the T cells in this study makes an antibody called anti-CD30. This antibody sticks to lymphoma cells because of a substance on the outside of the cells called CD30. Anti-CD30 antibodies have been used to treat people with lymphoma but have not been strong enough to cure most patients. For this study, the anti-CD30 antibody has been changed so instead of floating free in the blood it is now joined to the T cells. When an antibody is joined to a T cell in this way it is called a chimeric receptor. These CD30 chimeric (combination) receptor-activated T cells (ATLCAR.CD30) can kill some of the tumor, but they do not last very long in the body and so their chances of fighting the cancer are unknown. Researchers are working to identify ways to improve the ability of ATLCAR.CD30 to destroy tumor cells. T cells naturally produce a protein called CCR4 which functions as a navigation system directing T cells toward tumor cells specifically. In this study, researchers will also genetically modify ATLCAR.CD30 cells to produce more CCR4 proteins and they will be called ATLCAR.CD30.CCR4. The study team believes that the ATLCAR.CD30.CCR4 cells will be guided directly toward the tumor cells based on their navigation system. In addition, the study team believes the majority of ATLCAR.CD30 cells will also be guided directly toward tumor cells when given together with ATLCAR.CD30.CCR4, increasing their anti-cancer fighting ability. This is the first time ATLCAR>CD30.CCR4 cells or combination of ATLCAR.CD30.CCR4 and ATLCAR.CD30 cells are used to treat lymphoma. The purpose of this study to determine the following: What is the safe dose of ATLCAR.CD30.CCR4 cells to give to patients What is the safe dose of the combination of ATLCAR.CD30 and ATLCAR.CD30.CCR4 cells to give to patients

Recruiting74 enrollment criteria

T Lymphocytes for the Treatment of AdV, CMV, EBV, BKV and Aspergillus Fumigatus Infections After...

Opportunistic Fungal InfectionOpportunistic Viral Infection1 more

The purpose of the study is to determine the feasibility, safety and efficacy of administering rapidly-generated donor-derived pentavalent-specific T cells (Penta-STs) to mediate antiviral and antifungal activity in hematopoietic stem cell transplant (HSCT) recipients with AdV, EBV, CMV, BKV or Aspergillus fumigatus (AF) infection/ reactivation or with active disease.

Recruiting15 enrollment criteria

Romidepsin and Parsaclisib for the Treatment of Relapsed or Refractory T-Cell Lymphomas

Recurrent Anaplastic Large Cell LymphomaRecurrent Mature T-Cell and NK-Cell Non-Hodgkin Lymphoma7 more

This phase I trial finds the appropriate parsaclisib dose level in combination with romidepsin for the treatment of T-cell lymphomas that have come back (relapsed) or that have not responded to standard treatment (refractory). The other goals of this trial are to find the proportion of patients whose cancer is put into complete remission or significantly reduced by romidepsin and parsaclisib, and to measure the effectiveness of romidepsin and parsaclisib in terms of patient survival. Romidepsin blocks certain enzymes (histone deacetylases) and acts by stopping cancer cells from dividing. Parsaclisib is a PI3K inhibitor. The PI3K pathway promotes cancer cell proliferation, growth, and survival. Parsaclisib, thus, may stop the growth of cancer cells by blocking PI3K enzymes needed for cell growth. Giving romidepsin and parsaclisib in combination may work better in treating relapsed or refractory T-cell lymphomas compared to either drug alone.

Recruiting32 enrollment criteria

Effectiveness of Concurrent Ultra-Low-Dose Total-Skin Electron Beam Therapy and Brentuximab Vedotin...

Mycosis Fungoides

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

Recruiting17 enrollment criteria
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