Co-culture spheroids mimic tumor architecture more accurately than traditional 2D cell cultures, but non-invasive, long-term tracking of live cells within these 3D models remains a challenge. This study addresses this critical need by developing a novel approach for live cell imaging in U-87/HUF co-culture spheroids. We introduce water-soluble, biocompatible red carbon dots (R-CDs) exhibiting exceptional stability and brightness (21% quantum yield) specifically designed for imaging within these 3D models. Furthermore, we designed a microfluidic chip with ellipsoid-shaped microwells to efficiently generate two distinct co-culture spheroid types: direct mixing and core-shell. R-CDs enabled non-invasive tracking of U-87 cancer cell location within these 3D models demonstrating their efficacy for long-term monitoring of live cells in cancer research. This R-CD and microfluidic technology has the potential to accelerate cancer drug discovery by enabling live cell studies in 3D tumor models.
Keywords: Co-culture ellipsoids; In-vitro imaging; Live cell imaging; Microfluidic chips; Red emission carbon dots.
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