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Active clinical trials for "Precursor Cell Lymphoblastic Leukemia-Lymphoma"

Results 1481-1490 of 1817

Vincristine Sulfate Liposome Injection (Marqibo®) in Combination With UK ALL R3 Induction Chemotherapy...

ALLChildhood5 more

This is a pilot study utilizing Marqibo® (vincristine sulfate liposome injection) combined with dexamethasone, mitoxantrone and asparaginase (UK ALL R3) for relapsed acute lymphoblastic leukemia (ALL).

Unknown status42 enrollment criteria

Safety and PK of Oral Encochleated Amphotericin B (CAMB/MAT2203) for Antifungal Prophylaxis in Patients...

Acute Myeloid LeukemiaAcute Lymphoblastic Leukemia

A Non-randomized, prospective , multicenter, open uncontrolled study in patients with acute myelogenous (AML) or lymphoblastic leukaemia (ALL)

Withdrawn19 enrollment criteria

MB-CART19.1 in Patients With R/R ALL

Precursor B-Lymphoblastic Lymphoma/Leukaemia Refractory

Precursor-B acute lymphoblastic leukemia (ALL) is the most common cancer in childhood. Despite major advances in ALL therapy, 20% of children and 40-50% of adults fail state-of-the art first-line treatment. But there is a strong need for alternative treatments to cure chemotherapy-refractory and relapsed B cell malignancies in pediatric patients. Relapsed and refractory B cell malignancies remain a therapeutic challenge, as these diseases are characterized by adverse survival. These cancers share a cell origin from the B-cell lineage and consequent surface expression of B-lineage markers such as CD19 and CD22. Chimeric antigen receptor (CAR) engineered T cell therapy has recently emerged as a new modality to target B cell malignancies. CARs couple a single-chain Fv (scFv) domain directed against a B-lineage-specific antigen to T-cell activating intracellular signaling domains. CAR gene-modified T cell interaction with target cells occurs in a HLA-independent fashion, so that a single vector can be used to treat all patients with cancers that express the target antigen. Miltenyi Biotec has established a semi-automated manufacturing process that can be made available to academic settings for systematic exploration of CAR strategies in advanced clinical studies. Closed-system operation, improved robustness, simplified work flows, and reduced labor intensity, while maintaining strict adherence to regulatory guidelines, allows for decentralized manufacturing. In the proposed phase II study, the investigator will explore autologous 2nd generation CD19 CAR T cell products in patients with relapsed and refractory disease incurable with standard therapies.

Unknown status14 enrollment criteria

Treatment of Newly Diagnosed High Risk Acute Lymphoblastic Leukemia in Children

Acute Lymphoblastic LeukemiaChild

Treatment of pediatric acute lymphoblastic leukemia (ALL) has advanced and the overall survival exceeds 80% nowadays. However the overall survival of high risk ALL remains 75-90%, thus recent studies focus on treatment intensification according to the risk group. According to the previous reports, we designed a multicenter prospective trial for pediatric ALL.

Unknown status14 enrollment criteria

Anti-CD19 CAR-T Therapy Bridging to HSCT for CD19+ B-Cell Malignancies

Acute Lymphoblastic LeukemiaB Cell Lymphoma

This is the second stage of the previous anti-CD19 CAR-T therapy (NCT02965092). The study aims to evaluate the safety and efficacy of consolidative allo-HSCT following CAR-T therapy in patients with relapsed or refractory B cell Malignancies.

Unknown status20 enrollment criteria

The Clinical Application of Chimeric Antigen Receptor T Cells in the Treatment of CD19 Positive...

B Acute Lymphoblastic LeukemiaMantle Cell Lymphoma1 more

CD19 is expressed in most B malignant tumors, especially in the former B cells ALL. This makes CD19 a natural target of immunotherapy. In terms of safety, the lack of B cells caused by CD19 targeted therapy will not cause life-threatening side effects (of course, Ig supplementation is necessary in the long-term B cell inhibition therapy). Moreover, the number of B cells can be restored after removing anti-CD19 treatment measures (such as anti-CD19 CART cells). In addition, CD19 has been chosen as the target of B-ALL therapy for the following reasons: ① as the BCR signal "amplifier", CD19 plays a role in PAX-5-mediated tumor formation; ② by activating MYC (as the oncogene controlled by PAX-5, C-MYC plays a key role in promoting the malignant proliferation of B cells), CD19 can cause B-ALL formation. Based on the above reasons, CD19 has become an ideal target in the treatment of B-cell cancer.

Unknown status24 enrollment criteria

Dual Target CAR-T Cells in B-cell Acute Lymphoblastic Leukemia

Dual-target CAR-T CellsB ALL2 more

Prospectively evaluate the safety and effectiveness of CD19/CD22 dual-target CAR-T cells in the treatment of relapsed/refractory B-cell acute lymphoblastic leukemia.

Unknown status23 enrollment criteria

Senl-h19 CAR-T Cell Injection in the Treatment of Patients With Relapsed or Refractory Acute Lymphoblastic...

B-ALL

This study is an open, dose-escalating clinical study, taking patients with relapsed or refractory acute lymphoblastic leukemia as the test subjects, including mouse-derived CAR-T treatment failure or relapse, or for any reason cannot bridge the transplant r/r B-ALL.

Unknown status2 enrollment criteria

Phase I Study of pCAR-19B in the Treatment of Adult CD19-positive Relapsed/Refractory B-ALL

Acute Lymphoblastic Leukemiain Relapse1 more

This is a phase I clinical study to evaluate the safety and tolerability of pCAR-19B in adults with relapsed or refractory B-ALL, and to obtain the maximum tolerated dose of pCAR-19B and phase II Recommended dose.

Unknown status38 enrollment criteria

NK Cells in Cord Blood Transplantation

Accelerated Phase Chronic Myelogenous LeukemiaBCR-ABL1 Positive25 more

This phase I trial studies the side effects and best way to give natural killer cells and donor umbilical cord blood transplant in treating patients with hematological malignancies. Giving chemotherapy with or without total body irradiation before a donor umbilical cord blood transplant helps stop the growth of cancer cells. It may also stop the patient's immune system from rejecting the donor's stem cells. When the healthy stem cells and natural killer cells from a donor are infused into the patient they may help the patient's bone marrow make stem cells, red blood cells, white blood cells, and platelets.

Unknown status27 enrollment criteria
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