Gastro-intestinal Stromal Tumor Clinical Trial
Official title:
Gastrointestinal Stromal Tumors: Assessment of Mutations in Tumors and in Circulating Tumor DNA and Measurement of TKI Plasma Exposure to Optimize Treatment
Gastrointestinal stromal tumors (GISTs) belong to the sarcoma group and are characterized by oncogenic mutations in the c-KIT, PDGFRA, BRAF and NF-1 genes that drive tumor growth. Since tyrosine kinase inhibitors (TKIs) have become available, the median survival of GIST patients increased from 9 months to over 5 years. Consequently, this rare disease has become a role model for other targeted therapies. However, response to TKIs is extremely heterogeneous: ~15% of the patients experience no benefit from imatinib, whereas ~17% of the patients enjoy stable disease for over 9 years. Treatment failure due to primary and secondary resistance is caused in part by mutations in oncogenic genes that cause change in drug sensitivity. A new technique, using circulating tumor DNA, has enabled us to assess mutations in a simple blood sample obtained from patients on treatment, and thus detect new mutations early in the course of the disease. Also, differences in pharmacokinetic drug behavior add to the observed heterogeneity, and may cause resistance due to drug underexposure and thereby proliferation of the least sensitive tumor cells. This offers the opportunity to optimize and personalize targeted treatment for individual GIST patients by timely treatment adaptation based on early detection of secondary TKIs resistance mutations. Achieving this urgently requires data on daily clinical practice, including prospective serial mutation analysis and serial drug plasma concentration measurement. At a fundamental level this will also help to unravel the driving factors behind primary and secondary TKIs resistance in this model disease.
The treatment of Dutch GIST patients is centralized: almost all patients are referred to one of the five collaborating centers forming the Dutch GIST consortium, UMCG, NKI-AvL, Radboud UMC, Erasmus MC and LUMC. To further optimize treatment for all patients, these centers have implemented a standard-of-care diagnostic and treatment plan that assures collection of homogenous phenotypic and treatment data for the bio-databank. The consortium is supported by and works in close collaboration with the Dutch sarcoma and GIST patient organizations. A prospective, longitudinal bio-databank will be set up. Data regarding multi-morbidity, drug pharmacokinetics and serial tumor genotypic data will be collected prospectively from all (new) GIST patients during TKI treatment. Our standard-of-care plan includes primary tumor mutation analysis, performed by pathology laboratories on site. At each follow up visit during treatment, blood will be collected to assess TKI plasma exposure and to perform mutation analysis on circulating tumor DNA. All patients will be followed for tumor RECIST 1.1 progression assessed by CT scans and asked to undergo a tumor biopsy at progression to detect secondary resistance mutations. The development of a model predicting secondary imatinib resistance based on patient phenotype and tumor genotype, will be achieved by analyzing GIST patients with progressive disease on imatinib (index patients; n=30) in our bio-databank. These patients will be matched 1:1 with non-progressive patients treated for the same duration as the index patients. Regarding the index patients, next-generation gene-targeted mutation analysis will be performed on archival tumor material and on a tumor biopsy at progression to identify patient's unique secondary mutations. The mutations that will be studied are: KIT exon 9, exon 11, exon 13, exon 14, exon 17 and exon 18; PDGFRA exon 12, exon 14 and exon 18 and BRAF exon 10 en exon 15. In-depth analysis regarding mutation analysis in circulating tumor DNA and imatinib drug concentration assessment will be performed for these 60 patients. ;