The chick embryo chorioallantoic membrane assay: In ovo model for personalized assessment and evaluation of the most effective therapeutic approach in cancer therapy.

Abstract

e14634 Background: "Personalized medicine,” is the tailoring of medical treatment to a single person aiming to maximize efficacy and minimize toxicity. Currently there is no good prediction for response to therapy. The Chick Chorioallantoic Membrane (CAM) is naturally immuno-deficient and rich in vascularity therefore an ideal system, allowing generate 3D cancerous “organoids” in a very efficient, reproducible and cost-effective manner and translates basic research to the clinic. Aims: Generate a “personalized” HTP system for a quick, reliable and effective evaluation of different therapeutic options using 3D tumors in a "humanized egg" instead of mouse PDX model. Methods: Fertilized eggs were incubated until day 3 (37°C, 75-90% humidity). Then, 2ml of albumin was pulled out to separate the CAM from the eggshell and a small window in the eggshell has been made. To destroy the chicken immune system development, the eggs were irradiated at day 5 and human immune cells were then inoculated onto the CAM. On day 7, single cells suspension or tissues, derived from cancer patients, were transplanted onto the CAM and visible tumors were performed ("CAM-PDX"). Drugs, mAbs and chemotherapy, were applied via the yolk sac. Tumor growth was measured, weighted and monitored by caliper and IVIS fluorescent imaging platform. IHC was performed and confirmed the response of the particular specimens to the tested regiment. Results: Histology and IHC analysis confirmed that the established tumors retained their characteristics. Positive Ki-67 staining confirmed that cancer cells proliferate while the treated tumors showed reduced staining. Anti-CD24 mAb, FOLFOX, cetuximab, Foflorinox and Gemcitabine, given as single agent or combinations, successfully inhibited CR and pancreatic tumors (by 70-75%). Detection of active caspase 3 confirmed those results. Biopsies from human specimens, were successfully established and expanded by serial passages allows generation of bio-bank. The stimulated human PBMCs demonstrated enhanced proliferation in vitro and in ovo, even after 5 days in the egg. Irradiated eggs showed no functional immune system even after 2 weeks of development. Conclusions: The CAM is an ideal, effective, economical and powerful avatar-based precision medicine approach to predict the best protocol for cancer therapy.