Akademik Veri Yönetim Sistemi
Cancer Letters, cilt.640, 2026 (SCI-Expanded, Scopus)
Nowadays, cancer researches widely employed organoids as research model. Organoids provide a realistic applicate scene but how to real-time detect and quantified the organoid status is still a bottleneck. To bridge this knowledge gap, we developed an all-in-one microfluidic platform that, for the first time, seamlessly integrates a vascularized tumor organoids-on-a-chip model (VOoC) with a real-time ELISA detection module for advanced tumor research and point of care testing (POCT). The platform features a unique integration of two cutting-edge technologies: (1) VOoC consists of a perfusable self-forming vessel network throughout the tumor organoid, emulates in vivo tumor angiogenesis, and (2) a real-time microfluidic diagnostic chip equipped with ELISA for simultaneously monitoring of tumor biomarker expression levels. We demonstrated the platform's capabilities using cervical cancer organoids and evaluated the drug efficacy of cisplatin and bevacizumab. This coupled system enables simultaneous tumor microenvironment modeling and continuous, real-time monitoring of secreted biomarkers, a capability not achievable with conventional disconnected systems. By combining these two systems, our dual-effect bimodal chip platform holds great promise for advancing personalized medicine and cancer research, offering a powerful tool for both drug screening and quick diagnosis.