There is a growing need to recreate a relevant tumor immune microenvironment (TIME) that is easily traceable to quickly delineate the effect of fine-tuning the different compartments.
Recent advances in Champions' TumorGraft3D (CTG3D) platform have not only generated robust models for preclinical drug evaluation but also elevated the translational relevance by efficiently mimicking the interactions between cancer organoids and immunocytes. Currently, available analytic approaches for coculture models are limited and are highly reliant on flow cytometry and high-resolution confocal imaging endpoints. These are often slow, cost-inefficient, and cloud computing heavy thereby limiting the bandwidth of studies and decision-making.
Easily traceable tags (e.g. bioluminescent and fluorescent) are attractive options that can aid the establishment of reliable effector (E) cells to the tumors (T) cell conditions, thus enabling the user to test multiple test agents cost-effectively and rapidly.
In this Poster QuickTake, we take a deep dive into the development of a bioluminescent 3D tumor platform with immune cell co-culture that can be utilized for high throughput screening.