Biocartis Group NV announced the CE-marking of its fully automated Idylla GeneFusion Panel (CE-IVD). The Panel detects in one single cartridge ALK, ROS1, RET and METex14 skipping, a wide range of actionable targets relevant in non-small cell lung cancer (NSCLC). Designed for use in clinical laboratories, the Panel provides comprehensive testing results within 180 minutes, significantly faster than currently available testing methods which often take days or even weeks before results are available.

Lung cancer remains the leading cause of cancer deaths, with NSCLC being the most common type of lung cancer. The survival rate has increased over the past years due to the rapidly evolving treatment landscape for NSCLC. Gene fusions represent an important class of gene rearrangements and have become important in NSCLC, as they are linked to responses to certain targeted therapies.

Their accurate and fast detection is critical to guide therapy choices, which is the reason why testing for gene rearrangements such as gene fusions is included in international NSCLC testing guidelines (including ESMO and NCCN). However, comprehensive testing of actionable gene rearrangements in NSCLC is often complex and can require different technologies. In order to test all needed biomarkers, laboratories usually have to use different instruments which are often not available within their own lab.

Using different instruments also requires having enough biopsy samples of sufficient good quality, which can be difficult to obtain, especially in NSCLC patients. The Idylla GeneFusion Panel consolidates traditional testing workflows into one streamlined, fully-automated process which provides reliable information on ALK, ROS1, RET and METex14 skipping and delivers results within 180 minutes. Moreover, the Panel only requires a limited amount of sample, thereby saving valuable tissue specimens.

The Idylla GeneFusion Panel demonstrated high concordance results in a clinical comparison study where ALK was compared with IHC, and ROS1, RET and METex14 skipping were compared with NGS.