38 Clinical Trials for Cutaneous T-Cell Lymphoma
To study the safety and effectiveness of tofacitinib 2% cream in treating early-stage CTCL.
This is an open-label, single-arm, multicenter, phase II study combining pembrolizumab and mogamulizumab in patients with advanced-stage, relapsed or refractory CTCL Each cycle will equal 6 weeks. Pembrolizumab will be administered on Day 1 of each cycle. Mogamulizumab will be administered on Day 1, 8, 15, and 22 of Cycle 1. For Cycle 2 and subsequent cycles, mogamulizumab will be administered on Day 1, 15 and 29 of each cycle. Subjects will undergo a response assessment prior to Cycle 3 and every 2 cycles thereafter. Subjects will continue study treatment until documented progression, unacceptable toxicity, or any other condition for discontinuation is met in protocol. A maximum of 2 years of study treatment may be administered. If a subject achieves a complete response (CR) per mSWAT criteria after 3 months of study treatment (2 cycles), they will continue study therapy for an additional 6 months (4 cycles). If a confirmed and persistent CR is met, they may discontinue study treatment and enter an observation period in protocol. Repeat disease evaluation is required prior to study therapy discontinuation. Subjects who progress during the observation period may be eligible for up to an additional 9 cycles (1 year) of pembrolizumab and mogamulizumab.
This is a first in human, open-label, dose escalation and expansion Phase 1 study of SIM1811-03 in adult patients with advanced solid tumors and cutaneous T-cell lymphoma. SIM1811-03 is a first-in-class IgG1-based humanized anti-tumor necrosis factor type 2 receptor (TNFR2) monoclonal antibody for the treatment of malignant tumors.
This phase II trial studies the effect of extracorporeal photopheresis (ECP) and mogamulizumab in treating patients with erythrodermic cutaneous T cell lymphoma (CTCL), a type of skin lymphoma. CTCL is a rare type of cancer that begins in the white blood cells called T cells. Erythrodermic is a widespread red rash that may cover most of the body. ECP is a medical treatment that removes blood with a machine, isolates white blood cells and exposes them to ultra violet light, then returns the cells to the body. Mogamulizumab is a monoclonal antibody that may interfere with the ability of cancer cells to grow and spread. Giving mogamulizumab with ECP may work together to kill the tumor cells directly (with mogamulizumab) and boost immune response to cancer (with ECP).
This phase I trial is to find out the best dose, possible benefits and/or side effects of third-party natural killer cells in combination with mogamulizumab in treating patients with cutaneous T-cell lymphoma or adult T-cell leukemia/lymphoma that has come back (relapsed) or does not respond to treatment (refractory). Immunotherapy with third-party natural killer cells, may induce changes in body's immune system and may interfere with the ability of tumor cells to grow and spread. Mogamulizumab is a monoclonal antibody that may interfere with the ability of cancer cells to grow and spread. Giving third-party natural killer cells in combination with mogamulizumab may kill more cancer cells.
Investigators plan to perform a pilot study that aims to characterize the microbiome of human cutaneous T cell lymphoma patients and compare this to the microbiome of age and sex matched controls.
This is a tissue, urine, and blood banking protocol for cutaneous t-cell lymphoma (CTCL), eczema, and atopic dermatitis patients for current and future research.
This study assesses the quality of life in patients with cutaneous lymphoma diagnosis as it relates to their personal, clinical, and therapeutic information using the Skindex29 questionnaire and also assesses patients' understanding of their diagnosis and need for resources related to their care. Cutaneous lymphomas are a rare type of blood cancers (non-Hodgkin lymphoma) that present in the skin. The information gained from this study, may help researchers improve quality of life in cutaneous lymphoma patients.
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.
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.
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).
This research is being done to study the safety of implanting and retrieving a microdevice that releases up to 19 drugs directly within a cancerous lesion as a possible tool to evaluate the effectiveness of several approved cancer drugs against cutaneous T cell lymphoma and peripheral T cell lymphoma
This health services study will assess a multidisciplinary intervention program directed at fatigue mitigation among patients diagnosed with indolent lymphomas. Specifically, 30 subjects with chronic lymphocytic leukemia/small lymphocytic lymphoma (CLL/SLL) and 10 subjects with Follicular Lymphoma (FL), marginal zone lymphoma (MZL), lymphoplasmacytic lymphoma (LPL), Waldenström's Macroglobulinemia, or Cutaneous T Cell Lymphoma (CTCL) will be included.
To evaluate the use of HyBryte, a topical photosensitizing agent, to treat patients with patch/plaque phase cutaneous T-cell lymphoma (mycosis fungoides).
The purpose of this registry study is to create a database-a collection of information-for better understanding T-cell lymphoma. Researchers will use the information from this database to learn more about how to improve outcomes for people with T-cell lymphoma.
This phase I trial tests the safety, side effects, and best dose of combination therapy with tazemetostat and belinostat in treating patients with lymphoma that has come back after a period of improvement (relapsed) or that does not respond to treatment (refractory). Tazemetostat is in a class of medications called EZH2 inhibitors. The EZH2 gene provides instructions for making a type of enzyme called histone methyltransferase which is involved in gene expression and cell division. Blocking EZH2 may help keep cancer cells from growing. Belinostat is in a class of medications called histone deacetylase inhibitors. Histone deacetylases are enzymes needed for cell division. Belinostat may kill cancer cells by blocking histone deacetylase. It may also prevent the growth of new blood vessels that tumors need to grow and may help make cancer cells easier to kill with other anticancer drugs. There is some evidence in animals and in living human cells that combination therapy with tazemetostat and belinostat can shrink or stabilize cancer, but it is not known whether this will happen in people. This trial may help doctors learn more about treatment of patients with relapsed or refractory lymphoma.
The goal of this clinical trial is to determine the safety and feasibility of allogeneic transplantation with bone marrow from a deceased donor in patients with acute and chronic leukemias, myelodysplastic syndrome, and certain lymphomas. Patients will either receive myeloablative conditioning or reduced intensity conditioning regimen prior to the transplant. Patients will be followed for 56 days for safety endpoints and remain in follow-up for one year.
This is a multicenter, first-in-human, Phase 1/2 study to evaluate the safety, tolerability, pharmacokinetics, pharmacodynamics, and anti-tumor activity of DR-01 in adult patients with large granular lymphocytic leukemia or cytotoxic lymphomas
This study evaluates a fenretinide phospholipid suspension for the treatment of T-cell non-Hodgkin's lymphoma (NHL).
This is a non-interventional cohort study evaluating non-relapse mortality and toxicities in patients with CTCL or ATLL treated with mogamulizumab pre- or post- alloHCT for patients transplanted beginning January 1, 2012 until accrual is complete.
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
This phase I trial studies the best dose and side effects of the VSV-hIFNβ-NIS vaccine with or without cyclophosphamide and combinations of ipilimumab, nivolumab, and cemiplimab in treating patients with multiple myeloma, acute myeloid leukemia or lymphoma that has come back after a period of improvement (relapsed) or that does not respond to treatment (refractory). VSV-IFNβ-NIS is a modified version of the vesicular stomatitis virus (also called VSV). This virus can cause infection and when it does it typically infects pigs, cattle, or horses but not humans. The VSV used in this study has been altered by having two extra genes (pieces of DNA) added. The first gene makes a protein called NIS that is inserted into the VSV. NIS is normally found in the thyroid gland (a small gland in the neck) and helps the body concentrate iodine. Having this additional gene will make it possible to track where the virus goes in the body (which organs). The second addition is a gene for human interferon beta (β) or hIFNβ. Interferon is a natural anti-viral protein, intended to protect normal healthy cells from becoming infected with the virus. VSV is very sensitive to the effect of interferon. Many tumor cells have lost the capacity to either produce or respond to interferon. Thus, interferon production by tumor cells infected with VSV-IFNβ-NIS will protect normal cells but not the tumor cells. The VSV with these two extra pieces is referred to as VSV-IFNβ-NIS. Cyclophosphamide is in a class of medications called alkylating agents. It works by damaging the cell's DNA and may kill cancer cells. It may also lower the body's immune response. Immunotherapy with monoclonal antibodies, such as ipilimumab, nivolumab, and cemiplimab, may help the body's immune system attack the cancer, and may interfere with the ability of tumor cells to grow and spread. Giving VSV-IFNβ-NIS with or without cyclophosphamide and combinations of ipilimumab, nivolumab, and cemiplimab may be safe and effective in treating patients with recurrent peripheral T-cell lymphoma.
Background: - Researchers who are studying hairy cell leukemia, and how the disease compares with other disorders, are interested in obtaining additional samples from leukemia patients and healthy volunteers. The investigators are particularly interested in samples from individuals who have diseases that can be treated with a new type of drug called immunotoxin, in which an antibody carrying a toxin binds to a cancer cell and allows the toxin to kill the cell. Objectives: - To collect a variety of clinical samples, including blood, urine, lymph samples, and other tissues, in order to study the samples and develop new treatments for leukemia. Eligibility: - Individuals 18 years of age and older who have been diagnosed with leukemia or other kinds of blood and lymphatic system cancers, or who are healthy volunteers. Design: * Individuals who have leukemia will be asked to provide blood, bone marrow, urine, and tumor tissue samples as requested by the researchers. Healthy volunteers will provide only blood and urine samples. * No treatment will be given as part of this protocol.
This is an open-label, phase 2 randomized study to evaluate the efficacy, safety, pharmacokinetics (PK) and pharmadynamics (PD), of PTX-100 monotherapy at 500 or 1000 mg/m2 in patients with relapsed/refractory Cutaneous T-Cell Lymphoma (CTCL). PTX-100 will be administered by IV infusion over 60 minutes on days 1 to 5 of a 14-day cycle for 4 cycles, then 21 day cycle thereafter. Subjects will be treated or followed up, if subjects discontinue treatment, for up to 18 months.
The primary purpose of this study is to evaluate the anti-tumor activity of TLN-254 monotherapy in participants with relapsed or refractory T-cell lymphoma.
Single- arm Phase II study evaluating the combination of mogamulizumab (MOGA) added on top of standard of care dose adjusted EPOCH (DA-EPOCH) in patients with newly diagnosed or relapsed/refractory (for CTCL only) aggressive T cell lymphoma including patients with Adult T-cell leukemia/lymphoma (ATLL).
This is a single arm, open label, multicenter study phase 2 study of pembrolizumab and brentuximab in subjects with relapsed/refractory CD30 positive T-cell lymphoma (including peripheral T-cell lymphoma and cutaneous T-cell lymphoma) who have received at least one prior therapy. We hypothesize that this combination is effective and will produce an overall response rate of \~55%. Pembrolizumab and brentuximab will be administered for 16 cycles in subjects with responsive disease. Pembrolizumab will be continued for an additional 19 cycles (total 35 cycles). Response assessments will occur at pre-specified intervals. For the primary endpoint the response assessment after 3 cycles will be taken into consideration. Dose adjustments for specific toxicities with either drug are detailed in the protocol. Based on statistical analysis 32 subjects will need to be accrued to evaluate for disease response based on historical control.
RATIONALE: Gathering information about older patients with cancer may help the study of cancer in the future. PURPOSE: This research study is gathering information from older patients with cancer into a registry.
RATIONALE: Collecting and storing samples of tissue, blood, and body fluid from patients with cancer to study in the laboratory may help the study of cancer in the future. PURPOSE: This research study is collecting and storing blood and tissue samples from patients being evaluated for hematologic cancer.