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

Among the different types of cancer that most affect children, leukemia is the principal. One of the main treatments for leukemia is chemotherapy. Among the most common side effects of chemotherapy are nausea and/or vomiting, diarrhea, fatigue, alopecia, neuropathy, opportunistic infections, and oral mucositis. It is still necessary to establish which microorganisms are predominant in the oral microbiota of children with leukemia, which factors influence it, what is its relationship with oral mucositis and what is their impact in the quality of life. To better understand the risks of secondary infection, it is important to develop preventive and/or therapeutic strategies to control the side effects of antineoplastic treatment in the mouth that may negatively impact the quality of life, to expose the risk of death as well as raise hospital costs for the care of children with leukemia. Objective: To identify the clinical characteristics of the oral condition, types of microorganisms of the oral microbiota, and quality of life in children/adolescents with acute lymphoid leukemia and acute myeloid leukemia before and during antineoplastic treatment, and compare them with healthy children/adolescent individuals. Methodology: Longitudinal, case-control study, with a convenience sample. The study group, composed of children/adolescent individuals who have a definitive diagnosis of acute lymphoid leukemia or acute myeloid leukemia. The control group, non-syndromic children/adolescents, with no history of cancer, matched by age and gender. The clinical condition of the mouth will be evaluated by means of indexes: dental caries index (dmft index), gingival index (GA), and simplified oral hygiene index. The assessment of the quality of life through the ohip-14 and POS-version14 quality of life questionnaire and microbiological evaluation of saliva through MALDI-TOF analysis. Statistical analysis will be performed through relative risk for cohort study with more than three paired groups. Odds ratio, for the control group more than three controlled groups and Mcnemere, for comparison with the control group, for more than three paired groups.

Acute lymphoblastic leukemia (ALL) is not a single disease, but a composite of heterogeneous subgroup. Accordingly, more sophisticated classification in ALL is essential to achieve further improvement of treatment outcomes. However, only a few genetic markers are revealed to have significant prognostic implications in ALL patients. The current study is designed to stratify the ALL patients according to their prognosis and to predict their outcomes by a pharmacogenetic approach. A predictive model will be generated from 130 genotypes in adult ALL patients diagnosed at the Samsung Medical Center (SMC), Sungkyunkwan University School of Medicine, Seoul,Korea between 1994 and 2008. The validation of the predictive model will be performed using an independent external cohort of ALL patients. Definition of the cohort: two hundred ALL patients from the SMC as a test set, another 100 patients from the SMC as a first validation set, and another 150 independent external patients as second external validation set. DNAs will be extracted and stored from patients' samples collected at the time of diagnosis. In the test set, genotypes will be determined using a MALDI-TOF based platform (Sequenom, San Diego, CA, USA) for 130 SNPs of the candidate genes involved in DNA repair pathway, drug metabolism/transport pathway and folate metabolism pathway. Bioinformatic analyses will be performed to identify around 13 genotypes (10%) having strongest predictive significance out of these 130 SNPs in terms of their treatment outcomes, drug toxicity and prognosis in the test set. These 13 genotypes will be validated in the first cohort of 100 ALL patients using a multivariate Cox's proportional hazard model. The predictive model will be built up based on Cox's proportional hazard model derived from 13 candidate genotypes and clinical risk factors. The predictive model based on pharmacogenetic information will be validated again in the second, independent external cohort of 150 ALL patients. Definite prognostic value was not established for genetic or molecular markers in acute lymphoblastic leukemia (ALL) except BCR/ABL fusion gene. The current study attempts to build up a predictive model based on single nucleotide polymorphisms (SNPs) with pharmacogenetic approach using 130 genotypes in the multiple candidate pathways such as DNA repair pathway, drug metabolism / transport pathway and folate metabolism pathway. The predictive model based on SNPs will be generated and validated with respect to treatment outcomes, drug toxicity and prognosis in adult ALL patients. The present study will demonstrate that: 1) Pharmacogenetic information derived from SNPs involved in the DNA repair pathway, drug metabolism/transport pathway and folate metabolism pathway, is helpful to predict the treatment outcomes, drug toxicity and prognosis in ALL patients; 2) Predictive model derived from pharmacogenetic information will be effective and reasonable approach to stratify ALL patients according to their clinical outcomes; 3) The SNP-based predictive model could be reasonably applied to the treatment of ALL patients, thus becoming a basis for further improvement of treatment outcome; 4) Finally, this project will enhance and facilitate the pharmacogenetic research in the hematology area, thus make the team to lead the pharmacogenetic research in the world.

Acute lymphoblastic leukemia is the most common form of childhood cancer with current treatment survival rates approaching 80%. Improved outcomes show an increased number of survivors at risk for long-term treatment related side effects including osteonecrosis. Osteonecrosis, or bone death, is caused by blood supply loss to the bone causing pain and poor quality of life. The hips, shoulders, knees and ankles may be affected. Pain is the usual presenting symptom and may become severe requiring surgical decompression or replacement of the affected joint. Long-term effects including arthritis and progressive joint difficulties will not be known for decades. This study aims to determine the risk factors for developing osteonecrosis that will lead to information for earlier detection and prevention. The study will be the basis for future intervention and prevention trials.

RATIONALE: Studying medical records and collecting questionnaires from patients who were enrolled as children in clinical trials for acute lymphoblastic leukemia may help doctors learn about long-term effects of treatment and plan the best treatment. PURPOSE: This clinical trial is studying the long-term outcomes of patients with acute lymphoblastic leukemia who were enrolled as children on clinical trials EORTC-58741, EORTC-58831, EORTC-58832, or EORTC-58881 between 1971 and 1998.

Since methotrexate toxicity represents a major problem in patients treating with cancer and there are few studies about the role of vitamin D in the pathogenesis of this toxicity, so the aim of the present study is investigation of the effect of vitamin D administration on methotrexate toxicity such as oral ulcerations, bone marrow toxicity as well as renal and hepatic toxicity also the role of inflammatory mediators and oxidative stress markers in methotrexate toxicity will be evaluated, taking in consideration the dose of leucovorin rescue.

Haematological malignancies constitute the most common neoplastic disease in child population, with acute leukemia occupying the number one spot with a percentage of 32.8%. In children, leukaemia is primarily encountered in its acute form (97%) and in the majority of the cases it is presented as Acute Lymphoblastic Leukaemia - ALL (80%). Acute Non-Lymphoblastic Leukemia - ANLL is encountered less frequently (17%) and it includes Acute Myelogenous Leukaemia - AML (15%) and some other rare forms (2%), while the remainder 3% corresponds to chronic leukaemia. L-Asparaginase (L-ASP) is a fundamental component during the loading phase with regards to achieving remission of the disease and, likewise, during the maintenance phase with the intention of establishing that remission in both children and adults suffering from ALL. The cytotoxic effect of the exogenous administration of Asparaginase is caused by the depletion of the reserve of asparagine in the blood. Asparaginase (ASP) acts as a catalyst for the hydrolysis of asparagine to aspartic acid and ammonia. Asparagine is vital for protein and cell synthesis and, therefore, for their survival. The normal cells of the human body have the ability to produce asparagine from aspartic acid, with the assistance of the enzyme asparagine synthetase. However, the neoplastic cells either lack the enzyme completely or contain minute amounts of it resulting in their inability to synthesize asparagine de novo. The survival of these cells and their ability to synthesize proteins depends entirely on receiving asparagine from the blood. Thus, the administration of ASP leads to the inhibition of DNA, RNA and protein synthesis which, in turn, results in the apoptosis of these cells. Despite L-ASP's paramount importance in the chemotherapy treatment of leukaemia, it is responsible for a plethora of toxic adverse effects that sometimes even require the termination of its administration. A critical adverse event of ASP is a disorder in the metabolism of lipids. Specifically, it appears that the activation of the endogenous pathway that produces triglycerides through hepatic synthesis leads to hypertriglyceridaemia. The liver is capable of synthesizing VLDL (Very Low Density Lipoproteins) that are rich in triglycerides. Utilising the effect of the enzyme Lipoprotein Lipase (LpL), located on the vascular endothelium, the triglycerides detach from the VLDL causing the latter to transform into IDL (Intermediate Density Lipoproteins) and afterwards into LDL (Low Density Lipoproteins). The triglycerides are later extracted from the blood circulatory system and stored in the adipose tissue, while the LDL particles connect with tissue receptors or macrophage receptors. The final products of the breakdown (coming from the peripheral hydrolysis of triglycerides with the help of LpL) of chylomicrons, VLDL, the remnants of lipoproteins, will eventually be removed by hepatic receptors. Apolipoprotein E (Apo-E) plays an important role in this procedure, it binds these remnants in the presence of LpL and hepatic lipase. Along the duration of the treatment with ASP, reduced LpL functionality is recorded, resulting in impaired plasma clearance of triglycerides and an increase in their levels, while L-ASP appears to cause disorders in other lipid factors, such as cholesterol, HDL and apolipoprotein A. Disorders of lipid metabolism have been found to be associated with polymorphisms of the LpL and Apo-E genes, sometimes with positive and sometimes with negative effects on the lipid profile and more likely participation in cardiovascular complications. The current study will evaluate, the lipid profile of children with ALL, the effect of L-ASP on the lipid profile of the aforementioned patients, as well as the correlation between the polymorphisms of Lipoprotein Lipase (LpL) and Apolipoprotein E (ApoE) with the values of the lipids during chemotherapy. Both the universal and national bibliography that pertain to the effect of ASP on the potency of LpL and App E and to the values of the lipids in children that suffer from ALL during chemotherapy with L-ASP is limited, while there exists no bibliographic reference correlating the genetic background to LpL and Apo E and the relation of the lipid profile. The current study will examine for the first time gene polymorphisms of LpL and Apo E in children with ALL during treatment with ASP.

NVP-BEP800, a new HSP90 inhibitor, has particularly interesting therapeutic potential and represents hope in cancer pathologies. While it is currently being tested for solid cancers, no preclinical study has yet demonstrated its effectiveness in acute lymphoblastique leukemia (ALL). The investigators wish to study the effects of NVP-BEP800 on two different types of ALL (T and B-ALL).

Sarcopenic obesity occurs when there is a loss of muscle and gain of fat in the body. With this study, the investigators will explore how nutritional status at the beginning of the treatment can cause changes in your child's body fat compared to muscle in the body. The investigators will also look at how these changes can impact a child's cancer treatment, survival from treatment, and if there is any deterioration in health and nutrition status. The primary objective of this study is to establish the incidence of sarcopenic obesity, measured by dual-energy x-ray absorptiometry (DEXA), among Indian children and adolescents with acute lymphoblastic leukemia (ALL).

The outcome of young adults (18-60 years) with ALL has been dramatically improved by the use of pediatric-inspired trials. About 60% of these young adult patients will be cured at 5 years. In this context, early evaluation of minimal residual disease (MRD) at complete remission has been shown to be one of the most powerful prognostic factor, but also predictive of the benefit of allogeneic stem cell transplantation (ASCT). Despite this global improvement, about 30% of patients experience a relapse and will be exposed to be refractory to salvage therapy or to early disease escape. In adult ALL, the most important prognostic factors at relapse are : the time from first CR to relapse, the achievement of a second complete remission (CR), and the feasibility of ASCT. Blinatumomab is a bispecific T-cell engager that recruits T-cell on CD19 positive blast cells and induces anti-leukemic cytotoxicity. In a phase 3 trial in relapse/refractory Philadelphia-negative (Ph-) ALL, 43% of patients achieved a CR or CR with partial hematological recovery (CRh), with the majority of responses occurring within the first cycle. In patients with positive MRD (MRD+) BCP-ALL, blinatumomab resulted in complete MRD response in 78% of patients after one cycle. Between 2012 and 2016, blinatumomab was available in France for R/R and MRD+ ALL adult patients through the French Compassionate Use Program. About 92 adult ALL were treated at different stages of the disease in 27 centers.

Results of actual treatment in ALL are not optimal. New prognostic factors, which may determine clinical & molecular response are required. Hyper-CVAD is an internationally accepted schema for such patients. The objective of this pilot study is to evaluate polymorphisms regarding RFC (reduced folate carrier) and MTHFR enzyme, which may affect the function of these proteins, and therefore the intracellular bioavailability of methotrexate. Also, the expression levels of hENT1 and dCK will be evaluated, since such genes codify for citarabine intracellular transport and activation, respectively. Clinical characteristics will be tabulated and analyzed for responders & non-responders patients. Uni- & multivariate analysis will be done to evaluate factors influencing on response and survival.