Extended Analysis for Leukemia/Lymphoma Treatment — EXALT  

Relapsed Hematologic Malignancy Clinical Trial

Official title: A Prospective Investigator-initiated Translational Study Evaluating Individualized Treatment Regiments Based on Respective Biomarker Analyses for Refractory Leukemia and Lymphoma Patients

Status Completed

Clinical Trial Summary

Patients with relapsed/ refractory acute leukemia and relapsed/ refractory aggressive lymphoma harboring an activating genetic alteration (gene mutation, gene fusion) or drug-able biomarker / activated signal transduction pathway and resistant to any approved treatment modality will be eligible for this study. The investigators aim to combine DNA sequencing-based molecular profiling with an ex vivo high-throughput drug screening strategy. For the latter method, viable cells are obtained from the individual patient's lymphoma or leukemia in order to determine i)the expression of relevant therapeutic target molecules and ii)the ex vivo response of the patient's cancer cells to a panel of agents with anticancer activity. In addition, analysis of tumor stroma cells will provide information about the differential target expression and cellular sensitivity aiming at the evaluation of a therapeutic safety window. Thereby, biological material will have to be accessed within 4 weeks before onset of individualized treatment (real-time biopsy). Bioinformatic data-management based on a Bayesian statistical approach will support individualized treatment decisions in this controlled clinical approach.

Clinical Trial Description

Background and rationale for the trial Etiological concepts on cancer development, malignant growth and tumor propagation have led to the discovery of various molecular driver mechanisms. Based on these advances, medical oncology has started to enter an era of individualized medicine where treatment selection is becoming tailored to drug-able molecular pathways. This individualized treatment concept is mainly based on molecular and genetic characterization of the tumors including biomarker technology, which allow us to align the most appropriate treatment according to the patient's disease. Although there is a general acceptance towards such individualized approach thereby stratifying and subgrouping patients to improve the quality of clinical care in oncology, molecular profiling has just started to assist prediction of the drug's clinical benefit by identifying the most responsive patient subgroup. Recently, excellent demonstrations of the utility of prognostic and/or predictive biomarkers have emerged. Von Hoff and co-workers have recently demonstrated that molecular profiling of patients' tumors is an efficient approach to identify potential targets and select treatments for their treatment-refractory cancers(Von Hoff, Stephenson et al. 2010). Such a tailored treatment strategy revealed to be an effective approach to increase progression free survival (PFS), when compared to the patients' most recent standard treatment regimen. Another example for individualized treatment of patients is given by the recently published BATTLE trial (Biomarker-integrated Approaches of Targeted Therapy for Lung Cancer Elimination), a prospective biomarker and biopsy driven trial in pretreated non-small cell lung cancer (NSCLC) patients (Kim, Herbst et al. 2011). By this Bayesian approach, the authors demonstrated that targeting individually analyzed molecules of the patient's tumor might represent an efficient therapeutic approach in the treatment of an incurable disease. While these examples suggest a benefit for individual tumor characterization for selection of a tailored treatment concept, currently novel targeted agents in the treatment of cancer are rather approved for a certain subtype of cancer, but not for patients based on the expression or activity of respective target lesions. Therefore, the need of an extension of clinical protocols focusing on molecular profile-based treatment decisions, rather than on anatomic cancer-subtypes is mandatory. Based on this concept the current protocol was designed. The investigators hypothesize that molecular profiling of a patient's tumor might not only predict treatment response, but also leads to an individualized treatment protocol resulting in clinical benefit for the individual patient. Therefore, this project aims to assess the feasibility of an individualized treatment concept for pre-defined patient's benefit. Design, methodology, statistical considerations and organization The Medical University of Vienna will be clinical sponsor and clinical center of this investigator-initiated open-label single center single-arm, exploratory phase II study. The individualized treatment concept is determined to be biopsy-mandated and biomarker-based. Bio-data analysis will be supported by a software, which is generated by the Center of Medical Statistics, Informatics and Intelligent Systems. Study design and methodology Patients with relapsed/ refractory acute leukemia and relapsed/ refractory aggressive lymphoma harboring an activating genetic alteration (gene mutation, gene fusion) or drug-able biomarker / activated signal transduction pathway and resistant to any approved treatment modality will be eligible for this study. The investigators aim to combine DNA sequencing-based molecular profiling with an ex vivo high-throughput drug screening strategy. For the latter method, viable cells are obtained from the individual patient's lymphoma or leukemia in order to determine i)the expression of relevant therapeutic target molecules and ii)the ex vivo response of the patient's cancer cells to a panel of agents with anticancer activity. In addition, analysis of tumor stroma cells will provide information about the differential target expression and cellular sensitivity aiming at the evaluation of a therapeutic safety window. Thereby, biological material will have to be accessed within 4 weeks before onset of individualized treatment (real-time biopsy). Bioinformatic data-management based on a Bayesian statistical approach will support individualized treatment decisions in this controlled clinical approach. Number of patients. A sample size of 49 patients achieves ≥ 80% power to detect a difference of 15% between the null hypothesis proportion P0 (PFS ratio ≥ 1.3) = 10% and the alternative proportion P1(PFS ratio ≥ 1.3) = 25% using a one-sided exact binomial test at a significance level of 0.0250. The null hypothesis can be rejected, if at least 10 out of 50 patients treated show a PFS ratio ≥ 1.3. The investigators therefore aim to enroll 49 leukemia patients and 49 lymphoma patients. Target population. Patients with relapsed/ refractory acute leukemia and relapsed/ refractory aggressive lymphoma after standard treatment. Standard treatment is defined according to actual National Comprehensive Cancer Network (NCCN) (http://www.nccn.org/professionals/physician_gls/f_guidelines.asp) and/or local guidelines. 49 acute leukemia subjects and 49 lymphoma subjects will be screened for enrolment in the trial. Deviations from inclusion criteria are not allowed because they can potentially jeopardize the scientific integrity of the study, regulatory acceptability or subject safety. Therefore, adherence to the criteria as specified in the protocol is essential. Inclusion criteria as well as exclusion criteria must be respected. ;

Related Conditions & MeSH terms

• Hematologic Neoplasms
• Relapsed Hematologic Malignancy

• NCT number: NCT03096821
• Study type: Observational
• Source: Medical University of Vienna
• Status: Completed
• Start date: September 2015
• Completion date: January 30, 2020