Researchers have developed an algorithm to identify molecular targets and pair them with targeted therapies for relapsed paediatric cancers with a poor prognosis.
In a recent study, this approach extended the time until disease progression by three months for a small group of paediatric patients with very high-priority targets.
The study findings will be presented during the virtual scientific program of the 2020 American Society of Clinical Oncology (ASCO) Annual Meeting.
“This study shows the potential of precision medicine to extend survival for our most precious population of patients with cancer, children. In our list of Research Priorities to Accelerate Progress, ASCO noted the importance of moving precision medicine into the care of paediatric patients. These early results provide the basis for continued research into this area,” said Chief Medical Officer and Executive Vice President Richard L. Schilsky, MD, FACP, FSCT, FASCO.
While current treatment of childhood cancers results in high overall cure rates, relapsed high-risk disease is associated with a poor prognosis.
For the most part, precision oncology has yet to be applied in paediatric cancer care, unlike in adult cancer where it has improved outcomes.
“For paediatric patients, if the cancer has relapsed, the prognosis is poor and there are few new innovative treatments,” said lead author Cornelis van Tilburg, MD, PhD, a paediatric oncologist at Hopp Children’s Cancer Center Heidelberg.
“Compare this to adult oncology, where there are many new trials, many new biomarkers, and many new drugs. Paediatric oncology is really lagging behind when it comes to precision medicine and the development of new drugs.”
The INdividualized Therapy FOr Relapsed Malignancies in Childhood, or INFORM, registry was developed by a consortium of paediatric oncologists and genomics researchers to develop precision medicine-based approaches and to assess their efficacy across high-risk relapsed or therapy refractory paediatric cancers.
When grouped by the highest priority target for each patient — ranging from molecular alterations to changes in gene expression in molecular pathways important to cancer development and survival — 8% of patients had a very high-priority level target, followed by high (14.8%), moderate (20.3%), intermediate (23.6%), borderline (14.4%), low (2.5%), and very low (1%) priority, and no actionable target (15.4%).
In all, 149 patients received targeted treatment based on the targets identified using the algorithm at the discretion of their clinical paediatric oncologist.
Of these, 20 had a very high-priority level target – mainly ALK, BRAF, and NRAS mutations and MET and NTRK-fusions.
Patients in this group had a median progression-free survival of 204.5 days compared to 114 days for all other patients.
There were no clinically relevant differences in overall survival.
The findings show that it is possible to identify precision targets in relapsed paediatric cancers that can guide clinical decision making about treatment approaches.
“This registry has opened up the genomic landscape in paediatric oncology,” said Dr. van Tilburg.
“It provides a unique source of information to help match new drugs or drug ideas with suitable biomarkers in certain paediatric patient populations,” he said.
The INFORM registry involves the collection of clinical and molecular data from fresh-frozen tumour material of paediatric patients with refractory/relapsed/progressive malignant disease.
This analysis includes 525 patients from eight countries with a median age of 12 years.
The 7-step algorithm prioritised molecular alterations or affected pathways, which would theoretically be targetable by an approved drug or an investigational agent.
The priority levels were based on characteristics such as druggability, genetic change/expression, and direct drug target/pathway activation.
Using the algorithm, the researchers identified subgroups of patients with genomic or molecular characteristics ranging from highest priority for pairing with a targeted drug to no actionable target.
Treating oncologists had access to and could use the molecular target information for clinical decision making.
In addition, INFORM provided important diagnostic information like underlying cancer predisposition syndromes and diagnostic refinements in brain tumours.
The researchers plan to continue to analyse data from the registry using the algorithm.
Additional molecular and functional analyses are being implemented for the registry, including ex vivo drug screens on viable tumour material and complex biomarker algorithms.
In addition, based on the results obtained from the INFORM registry, a series of biomarker-driven phase I/II trials (called INFORM2) has been launched.
Watch ecancer's interview with Dr Cornelis van Tilburg on this study here.
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