2,231 Clinical Trials for Various Conditions
This Phase I open-label dose escalation study is conducted in two stages with a primary endpoint to identify the maximum tolerated dose (MTD) of FT538 when administered with daratumumab in patients 12 years and older with advanced acute myeloid leukemia (AML) and related myeloid diseases.
A multi-center, open label, Phase II clinical trial to assess the safety and efficacy of APR-246 in combination with azacitidine as maintenance therapy after allogeneic HSCT (hematopoietic stem cell transplant) for patients with TP53 mutant AML or MDS.
A significant number of patients with hematologic malignancies need a hematopoietic stem cell transplant (HSCT) to be cured. Only about 50% of these patients have a fully matched donor, the remaining patients will require an HSCT from a mismatched related or unrelated donor. Almost 60% of these mismatched donor HSCTs will result in graft-versus-host disease (GvHD), which can cause significant morbidity and increased non-relapse mortality. GvHD is caused by the donor effector T cells present in the HSC graft that recognize and react against the mismatched patient's tissues. Researchers and physicians at Lucile Packard Children's Hospital, Stanford are working to prevent GvHD after HSCT with a new clinical trial. The objective of this clinical program is to develop a cell therapy to prevent GvHD and induce graft tolerance in patients receiving mismatched unmanipulated donor HSCT. The cell therapy consists of a cell preparation from the same donor of the HSCT (T-allo10) containing T regulatory type 1 (Tr1) cells able to suppress allogenic (host-specific) responses, thus decreasing the incidence of GvHD. This is the first trial of its kind in pediatric patients and is only available at Lucile Packard Children's Hospital, Stanford. The purpose of this phase 1 study is to determine the safety and tolerability of a cell therapy, T-allo10, to prevent GvHD in patients receiving mismatched related or mismatched unrelated unmanipulated donor HSCT for hematologic malignancies.
This study is a multiple cohort, multicenter, open-label Phase 1 study with dose-escalation substudies investigating intravenous (IV) BAL0891 as monotherapy, and in combination with carboplatin or paclitaxel, to determine the safety and tolerability of increasing doses of BAL0891 in patients with advanced solid tumors or relapsed or refractory acute myeloid leukemia. An adaptive model-based design will be used to guide the dose escalation. Subject assignment to Substudy 1, 2, 3 and 4 will be finalized following approval from the investigator and sponsor. The dose-expansion stage will be conducted with the RP2D to further evaluate the preliminary anti-tumor activity, safety, and tolerability in metastatic TNBC and GC.
Background: - Researchers are working to make stem cell transplant procedures safer and more effective. One complication of transplants is graft-versus-host disease (GVHD). This complication happens when certain white blood cells from the donor attack the recipient's own body. Researchers want to test a blood separator machine that may help remove more of the donor's white blood cells before transplant. They will study donors and recipients during stem cell transplant to see how well this process can prevent GVHD and other complications. Objectives: - To see if a new blood separator machine can improve outcomes of stem cell transplants. Eligibility: * Individuals between 10 and 75 years of age who are having a stem cell transplant for leukemia or other blood-related cancers. * Donors for the stem cell transplant. Design: * Recipients and donors will be screened with a physical exam and medical history. * Donors will have two blood collection procedures. The first will collect only white blood cells, and return the rest of the blood. After the first collection, participants will have filgrastim injections to help their stem cells enter their blood. Then, they will have a second blood collection for the stem cells. * Recipients will have radiation and chemotherapy to prepare for the stem cell transplant. They will then have the stem cell transplant with the donor cells that have been treated with the blood separator machine. * Recipients will be monitored closely after the procedure. They may receive some of their donor's white blood cells if needed to fight serious infections. * Recipients will have the regular standard of care after their transplant. Blood samples will be taken and any side effects will be monitored and treated.
The purpose of the study is to evaluate the overall and disease free survival of recipients who have received G-CSF mobilized stem cells from HLA matched sibling donors.
Background: Acute myeloid leukemia (AML) is a cancer of the white blood cells. It is fatal if not treated. Treatment for AML that has not responded to treatment (refractory) or has returned after treatment (relapsed) often do not work. Researchers want to see if an immunotherapy drug, combined with a less intense chemotherapy, may be able to help. Objective: To test if pembrolizumab, in combination with decitabine, is a possible treatment for people with relapsed or refractory AML. Eligibility: Adults 18 years of age and older with refractory AML or relapsed AML. Design: Participants will be first screened for eligibility. The study is counted in 21-day cycles. The initial phase of the study consists of 8 cycles. Participants may be in the study for up to 2 years if they are responding to the treatment. The first 3 weeks of treatment is usually done in the hospital. The rest may be done as an outpatient. Participants will get pembrolizumab at the beginning of each cycle through an IV. Participants will usually get decitabine by IV on days 8 12 and days 15 19 of every other cycle. Participants will give blood samples. Participants will have bone marrow exams. A needle will be inserted into the hip to extract cells from the bone marrow. Some participants may give a sample of saliva from the inside of their cheek. Some participants may give a small skin sample. The top layer of the skin is removed. Some patients may require leukapheresis before starting treatment. This is a procedure to remove leukemia cells in the blood stream.
Multicenter, randomized, open-label, parallel-group study of guadecitabine vs treatment choice (TC). Participants will be randomly assigned in a 1:1 ratio to either guadecitabine or TC. TC options include the 8 high or low intensity, locally available regimens below; or Best supportive Care (BSC) alone: * High intensity (intermediate or high dose cytarabine \[HiDAC\]; mitoxantrone, etoposide, and cytarabine \[MEC\]; or fludarabine, cytarabine, granulocyte colony stimulating factor \[G-CSF\], +/- idarubicin \[FLAG/FLAG-Ida\]). * Low intensity (low dose cytarabine \[LDAC\], decitabine, or azacitidine). * BSC.
The objective of this study is to determine the safety, tolerability, and anti-leukemic activity of S227928 as single agent and in combination with venetoclax, and to determine the recommended Phase 2 dose (RP2D) of this combination. The study will begin as a Phase 1 Dose Escalation study to determine the RP2D and then will transition to a Phase 2 Dose Expansion study to assess the efficacy of the selected RP2D. During the treatment period participants will have study visits every two weeks, with additional visits occurring during the first and second cycle. Approximately 30 days after treatment has ended, an end-of-treatment visit will occur and then participants will be followed for survival every 12 weeks for the next 6 months. Study visits may include a bone marrow aspirate and/or biopsy, blood and urine tests, ECG, vital signs, physical examination, and administration of study treatment.
The purpose of the first part of this study is to establish the maximum tolerated dose (MTD) of oral ciprofloxacin when given in combination with a fixed dose of oral etoposide in patients with resistant acute myeloid leukemia (AML). The purpose of the second part of this study is to determine if the established dose of oral ciprofloxacin in combination with oral etoposide is effective in the treatment of patients with resistant AML.
Hematopoietic progenitor cell (HPC- primitive cells in the blood, bone marrow and umbilical cord that can restore the bone marrow) transplant can be a curative therapy for the treatment of hematologic malignancies (a disease of the bone marrow and lymph nodes). The source of cells used for the transplant comes from related (sibling) and in cases where there is no sibling match, from unrelated donors through the National Marrow Donor Program. The availability of a suitable donor can be a significant obstacle for patients who need a transplant but do not have a matched donor. Cord blood that has been harvested from an umbilical cord shortly after birth has a rich supply of cells needed for transplant. These stored cord bloods are now being used to transplant adults without a matched donor Advantages to using cord blood includes a readily available source of cells with no risk to the donor during the collection process, immediate source of cells in urgent situations (no lengthy donor work-up)and a reduction in infectious disease transmission to the recipient. One of the main disadvantages is the cord blood has a small number of cells needed for transplant. In an adult, usually two cords are needed and large recipients do not qualify because they need too many cells. This study will use two different preparative regimens (chemotherapy and radiation) followed by one or two umbilical cord units (UBC). The preparative regimen used will be chosen by the physician and is based on patient's age, disease and medical condition at the time of transplant. Multiple objectives for this study include disease-free and overall survival, treatment related mortality, rate of cells taking hold, and the incidence and severity of the transplant complication called graft versus host disease (GVHD).
Patients with hematologic malignancies will receive myeloablative chemotherapy followed by stem cell rescue with bone marrow or hematopoietic peripheral blood stem cells collected by apheresis from a filgrastim- (G-CSF)-mobilized haploidentical related-donor, ie, hematopoietic peripheral blood stem cell transplant (HSCT).
The purpose of this observational study is to provide data on the incidence and severity of infusion-related reactions during and immediately following each infusion of VYXEOS during the first induction.
Bone marrow stem cell transplants (otherwise called bone marrow transplants) from healthy donors are sometimes the only means of curing hematological malignant diseases such as acute and chronic leukemias, myelodysplastic syndrome, myeloproliferative diseases and lymphomas. Before transplant the patient receives chemotherapy and radiation treatment to reduce the malignancy to low levels and to prevent rejection of the transplant. The transplant restores the blood counts to normal and replaces the patients immunity with that of the donor. The donors immune cells increase the effect of the transplant by attacking remaining malignant cells. Donor immune cells (especially those called T lymphocytes) also attack healthy non-cancerous cells and tissues of the recipient causing "graft-versus-host-disease" (GVHD). Strong GVHD reactions occurring within weeks after the transplant can be life-threatening . In this study we remove most of the T lymphocytes from the transplant to minimize the risk of GVHD. However to improve immunity against residual malignant cells and boost immunity to infections, donor T cells (stored frozen at time of transplant) are given back around 90 days after the transplant when they have a reduced risk of causing serious GVHD. Any patient between 10 and 75 years of age with acute or chronic leukemia, myelodysplastic syndrome, myeloproliferative syndromes or lymphoma, who have a family member who is a suitable stem cell donor may be eligible for this study. Candidates are screened with a medical history and various tests and examinations.
The purpose of this research study is to evaluate the effectiveness of transplantation of high doses of peripheral blood stem cells (stem cells are special cells found in the blood and bone marrow that produce new blood cells) after treatment with non-myeloablative chemotherapy (not toxic to the bone marrow). In addition, this study will assess the side effects of the transplant.
This study will evaluate the safety and effectiveness of stem cell transplantation in which the donor's T cells (a type of lymphocyte, or white blood cell) are removed and then added back. Certain patients with bone marrow malignancies undergo transplantation of donated stem cells to generate new and normally functioning bone marrow. However, T-cells from the donor may see the patient's cells as foreign and mount an immune response to reject them, causing what is called "graft-versus-host-disease" (GVHD). Therefore, in this protocol, T-cells are removed from the donor cells to prevent this complication. However, because T-cells are important in fighting viral infections as well as any remaining malignant cells (called graft-versus-leukemia effect), the donor T-cells are given to the patient (added back) at a later time after the transplant when they can provide needed immunity with less risk of causing GVHD. Patients between 10 and 55 years of age with acute or chronic leukemia, myelodysplastic syndrome, or myeloproliferative syndrome may be eligible for this study. Prospective participants and their donors are screened with a medical history and physical examination, blood tests (including a test to match for genetic compatibility), breathing tests, chest and sinus x-rays, and tests of heart function. They also undergo a bone marrow biopsy and aspiration. For this procedure, done under local anesthetic, about a tablespoon of bone marrow is withdrawn through a needle inserted into the hipbone. They undergo apheresis to collect lymphocytes for research studies. This procedure involves collecting blood through a needle in the arm, similar to donating a unit of blood. The lymphocytes are then separated and removed by a cell separator machine, and the rest of the blood is returned through a needle in the other arm. Before treatment begins, patients have a central intravenous line (flexible plastic tube) placed in a vein in the chest. This line remains in place during the stem cell transplant and recovery period for drawing and transfusing blood, giving medications, and infusing the donated cells. Preparation for the transfusion includes high-dose radiation and chemotherapy. Patients undergo total body irradiation in 8 doses given in two 30-minute sessions a day for 4 days. Eight days before the transplant, they begin taking fludarabine, and 3 days before the procedure they start cyclophosphamide.
Diseases such as leukemia, lymphoma, and multiple myeloma fall into the category of blood cancers. Some of these conditions can now be cured by bone marrow transplantation (BMT). The ability of BMT to cure these conditions has been credited to the use of high doses of chemotherapy, radiation therapy, and the antileukemia effect of the transplant. Because the effectiveness of BMT relies on the use of high doses of chemotherapy and total body irradiation (TBI), it is a therapy associated with toxic side effects. These side effects are often deadly and have limited BMT for use in patients under the age of 55. In this study researchers plan to treat older patients between the ages of 55 to 75 years with blood cell transplants taken from donors who are genetically matched relatives of the patient. In order to decrease the toxic side effects associated with the transplant, researchers will not use chemoradiotherapy. Instead they plan to use intensive immunosuppressive therapy and allow the transplanted cells to take effect.
This is a first in human, multi center, open label, phase 1/1b study to evaluate the safety and preliminary efficacy of CER-1236 in patients with relapsed/refractory (R/R), measurable residual disease (MRD) positive acute myeloid leukemia (AML), or TP53mut disease.
The goal of this clinical research study is to learn if metal detoxification (with calcium disodium edetate \[Ca-EDTA\] and dimercaptosuccinic acid \[DMSA\]) during standard therapy can help improve outcomes in patients with intermediate-risk, high-risk, or secondary AML compared to standard therapy alone. Researchers think lowering the level of metals found in the blood/bone marrow may help to control the disease and/or improve the response to chemotherapy.
The study is a Phase II clinical trial. Patients will receive intensity-modulated total marrow irradiation (TMI) at a dose of 9 Gray (Gy) with standard myeloablative fludarabine intravenous (IV) and targeted busulfan (FluBu4) conditioning prior to allogeneic hematopoietic stem cell transplant (HSCT). Graft-versus-host disease (GVHD) prophylaxis will include Cyclophosphamide on Day +3 and +4, tacrolimus, and mycophenolate mofetil.
The purpose of this study is to find out if azacitidine and venetoclax are an effective treatment approach to get rid of or lower measurable residual disease (MRD) in people with acute myeloid leukemia (AML) who have received standard chemotherapy and are planning to have an allogeneic hematopoietic stem cell transplant (HSCT). Allogeneic HSCT, sometimes called a bone marrow transplant, involves receiving healthy blood-forming cells (stem cells) from a donor in order to replace the patient's immune system and lower the chances of the disease returning (relapse).
To evaluate safety and determine the recommended Phase II dose (RP2D). We hypothesize that targeting leukemia stem/progenitor cells (LSCs) with nadunolimab (IL1RAP antibody) alone or in combination with current therapies of azacitidine (HMA) and venetoclax (Bcl-2 inhibitor), is an effective treatment strategy for high-risk MDS and AML, and with a clinical trial we will establish the safety and the early efficacy of this approach.
Test feasibility of an oral maintenance strategy for transplant eligible AML patients in first CR who are medically underserved or have a disadvantage in the CDC SDOH domains
This phase II MyeloMATCH treatment trial compares the usual treatment of azacitidine and venetoclax to the combination treatment of azacitidine, venetoclax and gilteritinib in treating older and unfit patients with acute myeloid leukemia and FLT3 mutations. Azacitidine is a drug that is absorbed into DNA and leads to the activation of cancer suppressor genes, which are genes that help control cell growth. Venetoclax is in a class of medications called B-cell lymphoma-2 (BCL-2) inhibitors. It may stop the growth of cancer cells by blocking Bcl-2, a protein needed for cancer cell survival. Gilteritinib is in a class of medications called kinase inhibitors. It works by blocking the action of a certain naturally occurring substance that may be needed to help cancer cells multiply. This study may help doctors find out if these different approaches are better than the usual approaches. To decide if they are better, the study doctors are looking to see if the study drugs lead to a higher percentage of patients achieving a deeper remission compared to the usual approach.
This study is designed as a single arm open label traditional Phase I, 3+3, study of CD4-redirected chimeric antigen receptor engineered T-cells (CD4CAR) in patients with relapsed or refractory AML. The study will evaluate safety in this patient population and also the presence of efficacy signal described by elimination of residual disease to qualify patients for stem cell transplant.
To find a recommended dose of ASTX727 (cedazuridine/decitabine) in combination with venetoclax for pediatric patients with relapsed AML.
To investigate the feasibility of delivering oral azacitidine (CC-486) as a consolidation regimen from the time of first complete remission (CR1), in patients with acute myelogenous leukemia (AML) eligible for curative intent Allogeneic Stem Cell Transplant (ASCT).
The purpose of this study is to see the effects of an investigational combination treatment of venetoclax, azacitidine, and donor lymphocyte infusion (DLI) in patients with high-risk AML receiving allogeneic hematopoietic cell transplantation, and to assess if the combination treatment is well tolerated and prevents disease relapse after transplant.
Acute myeloid leukemia (AML) is the second most common type of leukemia diagnosed in adults and children, but most cases occur in adults. This study is to evaluate how safe ABBV-787 is and how it moves within the body in adult participants with relapsed/refractory (R/R) acute myeloid leukemia (AML). Adverse events and maximum tolerated dose (MTD) of ABBV-787 will be assessed. ABBV-787 is an investigational drug being developed for the treatment of AML. Participants will receive ABBV-787 in escalating doses until the maximum tolerated dose (MTD) is determined. Approximately 60 adult participants with a diagnosis of AML will be enrolled worldwide. Participants will receive intravenous (IV) infusions of ABBV-787 during the approximately 3 year duration a participant is followed. There may be higher treatment burden for participants in this trial compared to their standard of care. Participants will attend regular visits during the study at a hospital or clinic. The effect of the treatment will be checked by medical assessments, blood tests and checking for side effects.
A Phase 1 Open-label, Multi-center Study of the Safety, Pharmacokinetics (PK), and Anti-tumor Activity of LYT- 200 in Patients with Relapsed/Refractory Acute Myeloid Leukemia (AML), or with Relapsed/refractory, High-risk Myelodysplastic Syndrome (MDS)