View clinical trials related to Lymphoma, Non-Hodgkin.
Filter by:This project proposes to establish a prospective, multicenter, randomized, controlled clinical study to compare the safety and efficacy of Intralesional Rituximab Injection versus Involved Site Radiation Therapy for the treatment of primary ocular adnexal MALT lymphoma. The aim is to provide high-level clinical evidence for the treatment of ocular adnexal MALT lymphoma and to offer patients treatment options that have fewer complications and comparable therapeutic effects.
The T cell characteristics of 12 patients treated with CD20 CAR-T (LY007 cell injection) were analyzed to study their relationship with CAR-T anti-tumor activity, tumor killing, and in vivo proliferation, and to explore the mechanisms: before single harvesting, before bridging, before pretreatment, D0, D7, D14, D21, D28, and at the time of follow-up evaluation (plus time points if taking BTKi inhibitors: Peripheral blood specimens were collected before BTKi and 48h after BTKi discontinuation, and peripheral blood cells from patients before and after treatment were analyzed by mass spectrometry flow and single-cell sequencing. Tumor tissue specimens were collected from patients at different time points (before pretreatment, during CAR-T expansion, and at PD) and subjected to single-cell sequencing.
This is a prospective, observational cohort study to evaluate the clinical impact of novel Monoclonal AntiBodies (MAB) in B-cell Non-Hodgkin Lymphoma (NHL) in Italian clinical practice.
This is a multi-center, open-label, single-arm, phase I/II trial to evaluate the safety and efficacy of HY004 treatment in Adult patients with relapsed or refractory B-cell Non-Hodgkin's Lymphoma (r/r B-NHL).
Patients with non-Hodgkin Lymphoma will be treated with CD38-SADA:177Lu-DOTA complex (The IMP is a two-step radioimmunotherapy, delivered as two separate products CD38-SADA and 177Lu-DOTA) to establish optimal and safe therapeutic doses and dosing schedule of CD38-SADA, and 177Lu-DOTA.
The Glo-BNHL trial is trying to find better medicines for children and young people with B-cell non-Hodgkin Lymphoma (B-NHL) that does not go away (refractory B-NHL) or does but comes back again (relapsed B-NHL). B-NHL is a type of cancer that develops inside or outside of lymph nodes (glands) and organs such as the liver or spleen. Examples of B-NHL are Burkitt Lymphoma and Diffuse Large B Cell Lymphoma, which may be other names used to describe this type of cancer. It is very difficult to cure relapsed or refractory B-NHL. The medicines used now are very powerful with many side effects and only cure around 30 in every 100 children treated. It is very important that investigators quickly find better medicines for these children and young people. The Glo-BNHL trial will include three groups of children and young people, each given a new medicine (either alone or with chemotherapy). The investigators are looking to make sure the new medicines are safe and that they work to treat the cancer. If the medicine in one group does not work for a child in the trial, then they may be able to join a different group to have another new medicine. Experts from around the world will carefully pick the medicines most likely to be helpful to be part of the trial. If one of the new medicines seems not to be working as well as hoped then the investigators will take it out of the trial as soon as possible. This will let other new medicines be added to the trial and tested. If a medicine does seem to be working well, then it will continue in the trial to make sure it really is the most useful medicine available. Children from around the world will be invited to take part in the trial. The investigators will then check on them for at least two years after they finish the trial treatment to look for possible side effects of the new medicine.
The purpose of this research is to help researchers find out if SP-3164 is safe and if it may be of benefit in the treatment of patients with Non-Hodgkin's lymphoma that has progressed after prior treatment, or that never responded to previous treatment.
This phase I/II trial tests the safety and how well intravenous interferon-beta-1a (FP-1201) works in preventing toxicities after CD19-directed chimeric antigen receptor (CAR) T-cell therapy in patients with B-cell cancers that has come back after a period of improvement (recurrent) or that has not responded to previous treatment (refractory). Interferon beta-1a is in a class of medications called immunomodulators. It works by protecting the lining of blood vessels, and preventing brain inflammation. Giving FP-1201 may prevent cytokine release syndrome (CRS) and immune effector cell associated-neurotoxicity syndrome (ICANS) toxicities in patients receiving CD19 CAR T-cell therapy with recurrent or refractory B-cell malignancies.
This is a multicenter, non-interventional and prospective real-world study to evaluate the efficacy and safety of Duvelisib capsules in patients with non-Hodgkin's lymphoma.
Lymphomas are a fairly common malignancy accounting for approximately half of all newly diagnosed hematological neoplasms, and they comprise the sixth most common group of malignancies worldwide in both men and women, With marked geographic variations and affecting more males than females within the age range of 1 to 85 years but peaking within the second decades of life (Oluwasola AO et al., 2011, Roman E et al., 2011 and Jemal A et al., 2010) . Lymphomas have traditionally been classified as either Hodgkin's lymphoma (HL) or non-Hodgkin's lymphoma (NHL) based on the presence or absence of the Reed-Sternberg (RS) cell on histology. (Fitzmaurice C et al., 2017). Non-Hodgkin's lymphoma (NHLs) comprise a wide class of lymphoid neoplasms that evolve from the clonal expansion of mature B, T and natural killer (NK) cells in different stages of development (Morton, L.M. et al., 2014 and Schmitz R et al., 2009). NHLs are the most prevalent hematopoietic neoplasms, accounting for approximately 4.3% of all cancer diagnoses (Sant, M. et al., 2010) , Of them, B cell NHL accounts for approximately 30% of all lymphoid neoplasms, followed by HL (8%) and T/NK neoplasms (5%) (Morton, L.M. et al., 2006). MicroRNAs (miRNAs) are a class of small, naturally occurring, noncoding and single-stranded RNA molecules (18, 22 nucleotides) that function as post-transcriptional regulators by directly cleaving target messenger RNA (mRNA) or translational repression (Bartel DP. Et al., 2004). The discovery of miRNA has exposed a new layer of gene expression regulation that affects many physiological and pathological processes of life (Lawrie CH. Et al., 2013). Many abnormal miRNA expression patterns are found in various human malignancies, and certain miRNAs play roles as oncogenes or tumor suppressors (Ling N et al., 2013). Certain miRNAs have been found to characterize various subtypes of NHL and have important roles in B-cell differentiation and lymphomagenesis (Zhang J et al., 2009, Malumbres R et al., 2009, Basso K et al., 2009 and Auer RL et al., 2011). Recently, many studies had shown that tumor cell-specific miRNAs were detectable in the plasma and serum of patients with cancer. Therefore, miRNAs may be served as good biomarkers for early detection, diagnosis, and follow up of patients with cancer (Cortez MA et al., 2012).