SPECTAcolor is the first ever tumor tissue samples biobank and biomarker analysis platform for genetic profiling of patients suffering from advanced colorectal cancer;© panthermedia.net/Viktor Cap
SPECTAcolor's successful start has demonstrated its viability to facilitate next generation cancer clinical trials. It has been successfully implemented across 19 clinical centers located in nine countries in Europe, has now recruited over 500 patients since its launch in September 2013, and the observed frequency of mutations is similar to that observed in previous colorectal cancer clinical trials.
In addition, pathological review and core analyses of tumor blocks shipped to the central biobank at Dresden University Hospital for central quality deemed over 98% of the samples were adequate. This successful implementation is evidence that a logistically complex infrastructure to run next generation trials in a multinational setting is feasible.
These results were presented by SPECTAcolor coordinator Dr. Gunnar Folprecht of the Dresden University Hospital at the 2015 Gastrointestinal Cancers Symposium held 15-17 January 2015 in San Francisco.
Treatments for patients with cancer are becoming more and more tailored to the molecular characteristics of the particular patient and disease. Consequently, molecularly characterizing a patient's disease is now a prerequisite for them to access the appropriate clinical trial for their particular cancer. Assessing their tumor, however, is more easily said than done, because the required testing is beyond the scope of most hospitals. Cancer is too diverse, so the EORTC built a collaborative molecular screening platform, SPECTAcolor, which provides the necessary infrastructure to screen adult patients with advanced stage colorectal cancer for mutations in colorectal cancer biomarkers.
A preliminary analysis of biological materials from 293 patients for five baseline cancer biomarkers showed:
• KRAS was wild type for exon 2, 3 and 4 in 151 patients and mutated in 133 patients (114 patients in exon 2, 8 patients in exon 3, and 11 patients in exon 4);
• NRAS was tested in KRAS wild type patients only and mutations were found in 14 patients (6 patients in exon 2 and 8 patients in exon 3);
• BRAF mutations, all in exon 15, were found in 18 patients;
• PI3K mutations occurred in 41 patients (13 in exon 20 and 28 in exon 9);
• IHC staining was showing deficient mismatch repair in 16 patients.
Tumor samples are also being analyzed by Next Generation Sequencing for 360 key cancer genes in cooperation with the Sanger Institute (Cambridge, UK).
MEDICA.de; Source: European Organisation for Research and Treatment of Cancer