Abstract 3705: Development and analytical validation of a novel assay for HER2 assessment on circulating tumor cells using Parsortix® isolation and BioView imaging technologies

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Abstract Background. HER2 testing in tissue biopsies is extensively performed in breast cancer (BC) patients. However, tissue biopsy is invasive and repeated examination is impractical. Additionally, lack of concordance between primary tumor and metastatic sites are often observed. Liquid biopsy, on the other hand, enables less invasive and recurrent sample collection for ongoing monitoring. In this study, we developed an end-to-end Research Use Only assay for concomitant evaluation of HER2 gene amplification and protein overexpression in circulating tumor cells (CTCs). Methods. Blood was drawn from healthy volunteers into Streck Cell-Free DNA tubes, spiked with SKBR3 (HER2+) and Hs 578T (HER2-) breast cancer cells and processed on ANGLE's Parsortix® PC1 System, a microfluidic device that captures CTCs from metastatic breast cancer patients’ blood based on their size and deformability, without relying on specific markers. Captured cells were harvested and spun onto positively charged slides and stained with the Portrait HER2 immunofluorescence (IF) panel, consisting of a nuclear dye, epithelial and mesenchymal markers, leukocytes’ markers, and an antibody targeting HER2. Slides were then de-stained and subjected to HER2 FISH using a commercially available kit. All slides were imaged twice using BioView Allegro Plus, a platform equipped with artificial intelligence for automated imaging, CTC candidate identification and reporting. First, an automated scan after IF was performed to identify CTCs based on marker expression and morphology profiles. Second, an automated relocation of the CTCs based on IF results and reimaging using higher magnification to ensure precise analysis of the FISH signals in single cells. The workflow is being implemented in a cohort of BC patients. Results. Following IF, HER2 protein expression in SKBR3 cells was significantly higher (p<0.0001) than that of HER2-negative cells, with 100% analytical specificity and sensitivity. Following FISH, 100% of the cells were de-stained and presented sharp HER2/CEP17 foci, with 96% of the SKBR3 cells and only 4% of the Hs 578T cells displaying HER2 amplification. Additionally, in a small cohort of metastatic BC patients’, 100% of the identified CTCs are retained and evaluable from IF to FISH. Conclusions. An assay integrating HER2 identification by IF and FISH to characterize CTCs in metastatic BC patients was successfully developed. The assay enables the identification of both HER2 protein and gene copy information from each target cell with minimal cell loss, with the potential for minimally invasive patient monitoring during treatment and better classification of patients who may qualify and benefit from HER2-targeted therapies. An added value of the assay is the practicality of utilizing preserved blood samples, allowing streamline batch shipping of clinical samples. Citation Format: Mariacristina Ciccioli, Alex Young, Laila Vlietinck, Chassidy Johnson, Anne-Sophie Pailhes-Jimenez. Development and analytical validation of a novel assay for HER2 assessment on circulating tumor cells using Parsortix® isolation and BioView imaging technologies [abstract]. In: Proceedings of the American Association for Cancer Research Annual Meeting 2024; Part 1 (Regular Abstracts); 2024 Apr 5-10; San Diego, CA. Philadelphia (PA): AACR; Cancer Res 2024;84(6_Suppl):Abstract nr 3705.