Official Title
Personalized Medicine Program on Myelodysplastic Syndromes: Characterization of the Patient's Genome for Clinical Decision Making and Systematic Collection of Real World Data to Improve Quality of Health Care
Brief Title
Personalized Medicine Program on Myelodysplastic Syndromes: Characterization of the Patient's Genome for Clinical Decision Making and Systematic Collection of Real World Data to Improve Quality of Health Care
Protocol ID
NCT04212390
Lead Sponsor
Fondazione Italiana Sindromi Mielodisplastiche-ETS
Brief Summary
BACKGROUND Myelodysplastic syndromes (MDS) typically occur in elderly people and with
time, a portion of the patients evolve into acute myeloid leukemia (AML). Therefore a
risk-adapted treatment strategy is mandatory. Current prognostic scores present
limitations, and in most cases fail to capture reliable prognostic information at
individual level.
STATE OF THE ART Important steps forward have been made in defining the molecular
architecture of MDS and gene mutations have been reported to influence survival and risk
of disease progression in MDS. Evaluation of the mutation status may add significant
information to currently used prognostic scores and a comprehensive analyses of large,
prospective patient populations is warranted to correctly estimate the independent effect
of each mutation on clinical outcome and response to treatments.
AIMS In this project, the investigators will develop a research platform by integrating
genomic mutations, clinical variables and patient outcome derived from real-world data
obtained from FISiM (Fondazione Italiana Sindromi Mielodisplastiche) clinical network,
including 72 hematological centers.
This will allow the investigators to:
1. define the clinical utility of mutational screening in the diagnostic work-up and
classification of MDS
2. assess the implementation of diagnostic and therapeutic guidelines (appropriateness)
in the real-life
3. evaluate the impact of specific interventions (treatments) on clinical outcomes,
long-term complications and costs
4. identify predictors of response to specific treatments, and develop precision
medicine programs in hematology based on Real World Evidence RWD
5. measure patient-reported outcomes (PRO) and quality of life (QoL) in a real world
MDS setting
Detailed Description
Myelodysplastic syndromes (MDS) typically occur in elderly people. Patients present
peripheral blood cytopenia, and with time a portion of these subjects evolve into acute
myeloid leukemia (AML). MDS are heterogeneous ranging from conditions with a near-normal
life expectancy to forms close to AML and therefore a risk-adapted treatment strategy is
mandatory. Current prognostic scores present limitations, and in most cases fail to
capture reliable prognostic information at individual level. Several therapeutic tools
have been proposed for MDS but only few survived the evidence-based criteria of efficacy.
Lenalidomide improves anemia in patients with 5q deletion. Allogeneic transplantation
(HSCT) is the only potentially curative treatment for high risk patients; however, an
accurate selection of candidate patients is needed. Hypomethylating agents (HMA) may
improve survival in MDS not eligible HSCT, while predictive factors for clinical response
remain to be defined.
Important steps forward have been made in defining the molecular architecture of MDS. The
MDS associated with 5q deletion derives from the haploinsufficiency of RPS14 gene. The
investigators and others identified genes encoding for spliceosome components in a high
proportion of MDS. The investigators found a close relationship between ring sideroblasts
and SF3B1 mutations, which is consistent with a causal relationship. In addition, an
increasing number of genes have been found to carry recurrent mutations in MDS, involved
in DNA methylation (DNMT3A, TET2, IDH1/2), chromatin modification (EZH2, ASXL1),
transcriptional regulation (RUNX1), signal transduction. Gene mutations have been
reported to influence survival and risk of disease progression in MDS, and the evaluation
of the mutation status may add significant information to currently used prognostic
scores. Moreover, mutation screening may affect clinical decision making : a) in MDS with
5q-, subjects carrying TP53 mutations have a higher risk of leukemic progression and a
lower probability of response to lenalidomide; b) in patients receiving HSCT, TP53
mutations predict high probability of relapse; c) SF3B1 mutations are associated with
increased probability of erythroid response to TGFb inhibitors
Despite these findings, caution is needed against immediately adopting such mutational
testing in clinical practice. Most of scientific evidence derive from retrospective
analyses of selected patient populations. In addition, in patients with MDS genetic
abnormalities explain only a proportion of the total hazard for overall survival and
outcome associated with specific treatments, meaning that a large percentage is still
associated with clinical and non-mutational factors. Comprehensive analyses of large,
prospective patient populations are warranted to correctly estimate the independent
effect of each mutation on clinical outcome and response to treatments.
Real World Evidence (RWE) is information on health care that is derived from multiple
sources outside typical clinical research settings, including electronic health records
(EHRs), claims and billing data, product and disease registries, and data gathered
through personal devices and health applications National healthcare systems of advanced
countries, including Italy, widely agree on the approach whereby public healthcare
decisions should be driven by available evidence on effectiveness and safety of
therapeutics. It is equally accepted that randomized controlled clinical trials (RCTs),
although universally recognized as the most robust "evidence generators", are
insufficient for guiding the decision-making process since they are intrinsically
unsuited to capture the impact of treatments in routine clinical practice. The complexity
of treatments, as well as the demographic and clinical heterogeneity of patients
receiving the treatments, and the long period of many treatments, explain the gap between
the evidence generated in the controlled, but artificial, setting of RCTs and their
current impact in the real world.
This explains the growing interest in the development of methods able to produce evidence
on the real-world impact of care pathways (i.e., real-world evidence). Among them, those
based on the Electronic Healthcare Records (EHRs), are becoming established and receiving
increasing attention from the scientific community and healthcare decision-makers. In
addition, real world data (RWD) are currently used during drug development to examine
aspects such as the natural history of a disease, delineating treatment pathways in
clinical practice, and determining the costs and resource use associated with treatment
interventions
In this project, the investigators will develop a research platform by integrating
genomic mutations, clinical variables and patient outcome derived from real-world data
obtained from FISiM (Fondazione Italiana Sindromi Mielodisplastiche) clinical network,
including 72 hematological centers. In this context, there is clearly a need to develop
effective solutions to analyze and integrate molecular and clinical data of large patient
populations, in order to fully understand the relationship between genotype and the
clinical expression of a disease. In this area, a solution of excellence has been
developed by the research center i2b2 (Informatics for Integrating Biology and the
Bedside, University of Harvard, Boston - www.i2b2.org). This center developed an
open-source software based on a data-warehouse able to integrate and to exploit all data
coming from clinical practice and hospital admissions, making them available and easily
accessible by researchers. FISiM network is based on a platform to specifically support
hematological research, called i2b2Hematology
(www.biomeris.com/index.php/it/tasks/i2b2-hematology-pv-it), allowing researchers to
explore and analyze three types of data: (i) the clinical data available in all
hematological centers belonging to the clinical network, (ii) the information related to
the samples stored in biobanks, and (iii) NGS sequencing data in terms of genomic
variants. Relying on this national clinical network and on an innovative informatics
infrastructure, in this project the investigators will analyze the interactions among
driver mutations clinical variables and patient outcome of specific treatments. At the
same time the investigators will render NGS analysis of somatic mutations available for
the FISiM centers that need support for this technique.
The investigators will address strategical needs in MDS (i.e., standardization and
improvement of diagnostic work-up, clinical relevance of mutational screening, adherence
to evidence-based guidelines, drug safety and efficacy, clinical relevance of
patient-reported outcomes, PRO and quality of life,QoL) in a real world MDS setting with
the final objective to propose a personalized approach for the individual patient.
Study Period
-
Enrollment Count
1,000 participants
Eligibility Criteria
Inclusion Criteria:
Newly diagnosed patients affected with MDS:
- age ≥ 18 years
- written informed consent
Exclusion Criteria:
- Lack of written informed consent
- Lack of biological samples (peripheral blood, bone marrow aspirate)
Filters
MDS (Myelodysplastic Syndrome)
COMPLETED
ADULT
OLDER_ADULT