View clinical trials related to Acute Promyelocytic Leukemia.
Filter by:This study will focus on acute promyelocytic leukemia patients who have been diagnosed more than 5 years ago and their present quality of life. The possible late effects of cancer treatment can include several issues and, thus, there has been an increasing interest worldwide in studying the long-term impact of these in patients' life.
This study will examine the safety profile of vadastuximab talirine (SGN-CD33A) administered as a single agent and in combination with a hypomethylating agent (HMA). The main purpose of the study is to find the maximum tolerated dose (MTD, which is the highest dose that does not cause unacceptable side effects) of SGN-CD33A in patients with acute myeloid leukemia (AML). The MTD will be determined by observing the dose-limiting toxicities (the side effects that prevent further increases in dose) of SGN-CD33A. In addition, the pharmacokinetic profile and anti-leukemia activity of SGN-CD33A will be assessed.
The GIMEMA FOUNDATION promotes an observational (retrospective) study on number and outcome of pregnancy in childbearing age female patients treated with chemotherapy for APL. These patients were enrolled in studies AIDA0493, AIDA2000 and were in CR.
The purpose of this study is to find what effects, good and/or bad, treatment with two drugs has on leukemia. The first medicine is tretinoin (also called all-trans retinoic acid, ATRA, or Vesanoid). It is an approved medicine that causes the leukemia cells in APL to mature. It is related to vitamin A. The second is arsenic trioxide (Trisenox). It is an approved medicine for APL that comes back after earlier treatment. APL is most often treated with tretinoin and standard chemotherapy drugs. These chemotherapy drugs can cause infection and bleeding. They can also damage the heart and normal bone marrow cells. This can lead to a second leukemia years later. In this study, the investigators are using tretinoin and arsenic trioxide together. Both drugs work to treat APL. They have been used together in only a limited number of people. The investigators want to use these drugs together to reduce the amount of standard chemotherapy and decrease side effects. The patient will receive standard chemotherapy with a drug called idarubicin only if they have a higher chance of the leukemia coming back or a higher risk of side effects.
This is a Phase II, open-label, non-randomized study to evaluate the safety, efficacy, and pharmacokinetics of tamibarotene in adult patients with relapsed or refractory acute promyelocytic leukemia (APL) following treatment with all-trans-retinoic acid (ATRA) and arsenic trioxide (ATO). Patients must have received and failed therapy with ATRA and ATO. Treatment may have been administered either as combination therapy or sequentially as single agents. Patients who are intolerant to either drug are eligible for this study.
Summary Acute promyelocytic leukemia is defined by a characteristic morphology (AML FAB M3/M3v), by the specific translocation t(15;17) and its molecular correlates (PML/RARa and RARa/PML). Thereby it can be separated from all other forms of acute leukemia. By all-trans retinoic acid in combination with chemotherapy cure rates of 70 to 80% can be reached. On average, about 10% of patients still die in the early phase of the treatment and about 20 to 30% relapse. Molecular monitoring of the minimal residual disease (MRD) by qualitative nested RT-PCR and quantitative REAL-time PCR of PML/RARa allows to follow the individual kinetics of MRD and to identify patients with an imminent hematological relapse. A standardized treatment for patients with relapsed APL has not yet been established. With arsenic trioxide (ATO) monotherapy remission rates over 80% were achieved and long-lasting molecular remissions are described. The drug was mostly well tolerated. ATO exerts a dose dependent dual effect on APL blasts, apoptosis in higher and partial differentiation in lower concentrations. ATO was also successfully administered before allogeneic and autologous transplantation. ATO is approved for the treatment of relapsed and refractory APL in Europe and in the USA. After remission induction, there are several options for postremission therapy Previous studies shows that risk of relapse is higher in patients treated with ATO postremission in monotherapy , than in other that receive ATO plus chemotherapy or transplantation (TPH). Also, compared with chemotherapy, ATO induction and consolidation has a favorable impact in posterior response to transplantation. It is due to a low toxicity or a best quality of remission to TPH. It seems better, for these reasons, the intensification with TPH (autologous or allogenic) in patients with relapsed APL treated with ATO. For another hand, patients no candidates to TPH can be treated with ATO combined with other active agents in APL, as ATRA, anthracyclines o Mylotarg
The purpose of this study is to evaluate the efficacy of all-trans retinoic acid (ATRA) and idarubicin (AIDA) with a dose reduction in patients older than 70 years of age in the remission induction of acute promyelocytic leukemia (APL). With regard to the induction, the excellent results obtained by the combination of ATRA and idarubicin (AIDA), especially in terms of antileukemic efficacy (1% of resistance), do not support the introduction of substantial changes in this combination. However, given that most of the induction failures were caused by complications, especially of a hemorrhagic nature, and that these had a major impact in the hyperleukocytic forms and in patients older than 70 years of age, the induction was modified as follows: 1. Reduction of idarubicin dose in patients older than 70 years of age (three days instead of four); 2. Early administration of corticosteroid therapy in all patients as ATRA syndrome prophylaxis. A preliminary analysis of the Italian Group for Adult Hematologic Diseases (Gruppo Italiano Malattie Ematologiche dell'Adulto, GIMEMA) has shown that low dose prednisone use in a prophylactic manner appears to reduce the incidence and severity of the ATRA syndrome, which could also have a favorable impact on the hemorrhagic mortality (non-published data); and 3. Treatment of the hyperfibrinolysis with an antifibrinolytic agent (tranexamic acid). It has been recently reported that APL cells present abnormally high levels of annexins (especially annexin II), and that these levels may provide the fundamental mechanism for the hemorrhagic complications in APL by increasing the production of t-PA dependent plasmin. These findings provide new reasons for the introduction of tranexamic acid in the hemorrhagic prophylaxis of APL.
The goal of this clinical research study is to learn if the combination of arsenic trioxide (ATO) with ATRA and possibly idarubicin is effective in treating patients with newly-diagnosed APL.
Primary objectives - To evaluate the efficacy and toxicity of a risk-adapted protocol that use idarubicin for induction and consolidation therapy in patients with APL. - To evaluate the impact of mitoxantrone reduction on the event-free, disease-free, and overall survival, as well as on the duration of remission and cumulative incidence of relapse in low- and intermediate-risk patients with APL. - To evaluate the impact of the addition of ara-C to idarubicin courses of consolidation for high-risk patients (administered as in the original GIMEMA protocols) on the event-free, disease-free, and overall survival, as well as on the duration of remission and cumulative incidence of relapse. - To evaluate the toxicity of the induction, consolidation, and maintenance chemotherapy in the whole series and in each treatment group in patients with APL. Secondary objectives • To compare all outcomes with those achieved with the PETHEMA LPA99 protocol.