Active clinical trials for "Myelodysplastic Syndromes"

The outcome of HMA-refractory patients with MDS or AML is dismal with a median survival of 5 months after failure, representing a significant unmet medical need due to the very limited treatment options. In this context, a specific targeting of the leukemic stem cell (LSC) seems a promising option to selectively combat the leukemic progenitor cells. In fact, CD123 is overexpressed in AML and MDS progenitors making it an attractive target for immunotherapy-based approaches. JNJ-56022473 is a promising compound that has been engineered with regard to this strategy and the current phase II trial has the aim to evaluate the overall hematological response rate at 3 months in HMA refractory/relapsed AML and MDS patients.

This phase II trial studies how well deferasirox works in treating patients with very low, low, or intermediate-risk anemia or myelodysplastic syndrome that depends on red blood cell transfusions. Deferasirox may treat too much iron in the blood caused by blood transfusions.

The purpose of this study is to determine whether FG-4592 is safe and effective in the treatment of anemia in participants with lower risk MDS and low red blood cell transfusion burden.

This pilot clinical trial studies the side effects of irradiated donor cells following stem cell transplant in controlling cancer in patients with hematologic malignancies. Transfusion of irradiated donor cells (immune cells) from relatives may cause the patient's cancer to decrease in size and may help control cancer in patients receiving a stem cell transplant.

Allogeneic transplant can sometimes be an effective treatment for leukemia. In a traditional allogeneic transplant, patients receive very high doses of chemotherapy and/or radiation therapy, followed by an infusion of their donor's bone marrow or blood stem cells. The high-dose chemotherapy drugs and radiation are given to remove the leukemia cells in the body. The infusion of the donor's bone marrow or blood stem cells is given to replace the diseased bone marrow destroyed by the chemotherapy and/or radiation therapy. However, there are risks associated with allogeneic transplant. Many people have life-threatening or even fatal complications, like severe infections and a condition called graft-versus-host disease, which is caused when cells from the donor attack the normal tissue of the transplant patient. Recently, several hospitals around the world have been using a different type of allogeneic transplant called a microtransplant. In this type of transplant, the donor is usually a family member who is not an exact match. In a microtransplant, leukemia patients get lower doses of chemotherapy than are used in traditional allogeneic transplants. The chemotherapy is followed by an infusion of their donor's peripheral blood stem cells. The objective of the microtransplant is to suppress the bone marrow by giving just enough chemotherapy to allow the donor cells to temporarily engraft (implant), but only at very low levels. The hope is that the donor cells will cause the body to mount an immunologic attack against the leukemia, generating a response called the "graft-versus-leukemia" effect or "graft-versus-cancer" effect, without causing the potentially serious complication of graft-versus-host disease. With this research study, the investigators hope to find out whether or not microtransplantation will be a safe and effective treatment for children, adolescents and young adults with relapsed or refractory hematologic malignancies

This phase I trial studies the side effects and best dose of recombinant EphB4-HSA fusion protein when given together with cytarabine or vincristine liposomal in treating participants with acute leukemia that has come back or has not responded to treatment. Drugs used in chemotherapy, such as recombinant ephb4-HSA fusion protein, cytarabine, and vincristine liposomal, work in different ways to stop the growth of cancer cells, either by killing the cells, by stopping them from dividing, or by stopping them from spreading. Giving the drugs in different combinations may kill more cancer cells.

This is a Phase 2, two-stage study of the safety and efficacy of pracinostat in combination with azacitidine in patients with IPSS-R high and very high risk myelodysplastic syndrome (MDS) who are previously untreated with hypomethylating agents (HMAs). Enrollment in this study will be limited to high/very high risk MDS because this group represents the highest unmet need, with median survival of less than 18 months. Stage 1a will be conducted as an open-label single arm in up to 40 subjects to assess if this regimen with a lower pracinostat dose results in a discontinuation rate that meets a predefined threshold and in efficacy that justifies expansion of enrollment into Stage 1b. A discontinuation rate of approximately ≤10% in Stage 1a, a rate comparable to that observed with azacitidine alone in study MEI-003 (NCT01873703), supports expansion into Stage 1b. Stage 1b will be conducted as expansion of stage 1a. Approximately 20 additional subjects will be enrolled. Study drugs should be continued until disease progression or intolerable toxicity. It is important to note that the median time to achieving a response with azacitidine alone is 4 to 5 months. Furthermore, the median time to achieving a Complete Response (CR) in study MEI-003 (NCT01873703) was 4 cycles. Therefore, early (<6 months) discontinuation of trial therapy for 'no response' should be avoided. The Medical Monitor should be contacted prior to discontinuing a subject from the study to discuss the rationale for discontinuation.

This randomized pilot clinical trial studies health care coach support in reducing acute care use and cost in patients with cancer. Health care coach support may help cancer patients to make decisions about their care that matches what is important to them with symptom management.

This is a multi-center Phase I/II clinical trial of GTB-3550 (CD16/IL-15/CD33) tri-specific killer cell engager (TriKE®) for the treatment of CD33-expressing high risk myelodysplastic syndromes, refractory/relapsed acute myeloid leukemia or advanced systemic mastocytosis. The hypothesis is that GTB-3550 TriKE® will induce natural killer cell function by targeting malignant cells as well as CD33+ myeloid derived suppressor cells (MDSC) which contribute to tumor induced immunosuppression. Because CD16 is the most potent activating receptor on natural killer (NK) cells, this single agent may induce a targeted anti-CD33+ tumor response.

Evaluate the safety and tolerability of AMG 397. Estimate the maximum tolerated doses (MTDs) and/or biologically active doses.