View clinical trials related to Lymphoma, Hodgkin.
Filter by:Lymphoma is the 6th cancer in terms of incidence in France where approximately 11,000 new cases are diagnosed each year. Most types of lymphomas occur at all ages with a predominance in elderly subjects. With the continuous improvement of the diagnostic techniques and the treatments, the prognosis of lymphomas is constantly improving. However, 20-40% of patients relapse most often within 2 or 3 years after the end of treatment. The current standard follow up includes a clinical examination and a biological check-up every 3 months for 2 years, then every 6 months up to 5 years and an imaging every 6 months. However, the interest of this systematic surveillance by imaging is controversial. The use of new information and communication technologies, can improve the clinical follow-up of patients. To date, access to the Internet and portable technologies is sufficiently broad and democratized to envisage the use of this type of remote surveillance in the field of health. In particular to facilitate the dissemination of information between the patient and the physician. It is thus possible to imagine using this flow of information to generate alerts. Strengthening the clinical follow-up in this indication, in which routine imaging has not demonstrated their interest, in particular by the implementation of remote monitoring completed by the patient, may present an advantage in terms of effectiveness and precocity of care. In this pathology, up to 40% of patients relapse early (within 2 to 3 years), in the vast majority of cases symptomatically (less than 2% asymptomatic relapse discovered by imaging). Finally the CT scan every 6-month , which generates radiation costs and exposures for a relatively low benefit, is performed in symptomatic patients since several weeks. The aim of this study is to evaluate the interest of a web-mediated follow up using a score based on the dynamics and the association of clinical and biological signs to alert the physician of a possible recurrence of the patients treated for a lymphoma in complete or partial response.
This prospective study enrolls patients who are diagnosed with aggressive lymphoma including Hodgkin and non-Hodgkin lymphomas. Enrolled patients will be treated according to our institution' treatment policy in clinical practice. The disease status including response to therapy and survival status will be regularly updated during the study period. Patients' serum and cell-free DNA will be collected and analyzed.
The purpose of this study is to evaluate the safety of progressively substituting day +3 and +4 post-transplant cyclophosphamide (PT-CY) with post-transplant bendamustine (PT-BEN) in myeloablative (MAC) haploidentical hematopoietic cell transplantation (HHCT) for patients with hematological malignancies. The goal of the Phase 1 component of the study is to evaluate the safety of progressively substituting post-transplant cyclophosphamide (PT-CY) given on Days +3 and +4 with bendamustine (PT-BEN). The Phase I component of the study has been completed. The Phase Ib component of the study will continue to evaluate the safety and efficacy of subjects who receive PT-BEN on Days +3 and +4 at the maximum tolerated dose determined by Phase I. The Phase Ib component of the study has been completed. Approximately, 18-36 subjects will be treated as part of Phase I and 15 as part of Phase Ib. Approximately 18 subjects will be used as controls, subjects that receive no PET-BEN, for direct comparison. Total, approximately 38-56 treatment and control patients and 38-56 donor subjects will be enrolled.
Patients who are newly diagnosed with Hodgkin's lymphoma will undergo disease staging at diagnosis and initial treatment response assessment. At each time point (initial staging and treatment response assessment) in addition to standard imaging investigations (PET CT, Chest CT, anatomical MRI of the abdomen and pelvis and abdominal USS), patients will undergo an extended MRI scan.
Patients are being asked to participate in this study because they have a cancer in their blood (such as leukemia or lymphoma) or myelodysplastic/myeloproliferative (pre-leukemia). We suggest a treatment that might help them live longer without disease than other treatment plans would. This treatment is known as a stem cell transplant. We believe this may help the patient as it allows us to give much stronger doses of drugs and radiation to kill the diseased cells than we could give without the transplant. We also think that the healthy cells may help fight any diseased cells left after the transplant. Stem Cells are special "mother" cells that are found in the bone marrow (the spongy tissue inside bones), although some are also found in the bloodstream (peripheral blood). As they grow, they become either white blood cells which fight infection, red blood cells which carry oxygen and remove waste products from the organs and tissues or platelets, which enable the blood to clot. For the transplant to take place, we will collect these stem cells from a "donor" (a person who agrees to donate these cells) and give them to the patient. The patient has a type of blood cell cancer or other blood problem that is very hard to cure with standard treatments and they will receive a stem cell transplant (SCT). If they have a brother or sister that is a perfect match and agrees to donate, the stem cells will come from him/her. Before the transplant, two very strong drugs plus total body irradiation will be given to the patient (pre-conditioning). This treatment will kill most of the blood-forming cells in the bone marrow. We will then give the patient the healthy stem cells. Once these healthy stem cells are in the bloodstream they will move to the bone marrow (graft) and begin producing blood cells that will eventually mature into healthy red blood cells, white blood cells and platelets. Also, we will ask permission to draw blood from the patient so that we can measure the number of certain blood cells called T regulatory cells. T regulatory cells are special immune cells that can control or regulate the body's immune response. We want to determine whether T regulatory cells are important participants in graft versus host disease (GVHD), infection and relapse. In GVHD, certain cells from the donated marrow or blood (the graft) attack the body of the transplant patient (the host). GVHD can affect many different parts of the body. The skin, eyes, stomach and intestines are affected most often. GVHD can range from mild to life-threatening. We do not know whether T regulatory cells can modify these conditions. We want to measure these T regulatory cells and learn if these cells do influence these conditions. If we learn that T regulatory cells do affect these conditions, then it may be possible to modify these cells for the benefit of transplant patients.
Phase II Gemcitabine + HD Chemotherapy Followed by PBSC Rescue for HD
RATIONALE: Drugs used in chemotherapy use different ways to stop cancer cells from dividing so they stop growing or die. Radiation therapy uses high-energy x-rays to damage tumor cells. Combining chemotherapy with radiation therapy may kill more tumor cells. PURPOSE: This phase 2 trial is studying how well giving combination chemotherapy together with low-dose radiation therapy works in treating patients with stage I or stage IIA Hodgkin's lymphoma.