"ID";"Original Title";"Title";"Summary";"Contact";"Citation";"URL Scientific Article";"More References";"Keywords";"Field of Research";"Method/Model";"Year of Publication";"Month of Publication";"Date of Editing"; "623";"Vascularized 3D cell constructs to model cellular interactions through a vascular network";"Development of a vascularized microfluidic 3D model of metastasis";"A multicellular microfluidic, similar to a chip-based device, 3D tumor model that contains a vascular network is described. This new model allows to study the vascular transport of nutrients and cells in the context of interactions between tumor microenvironments and spheroids of other organs and can be potentially used for drug testing.";"Yu-suke Torisawa, Kyoto University, Kyoto, Japan";"Emi Sano et al. Biomicrofluidics 2018";"https://aip.scitation.org/doi/10.1063/1.5027183";"EURL ECVAM, https://data.jrc.ec.europa.eu/dataset/ffebe454-ed9a-47cf-8a33-8cf70c1b7d38";"metastasis, cancer, spheroid, vascular transport";"Method development, Oncology";"Cell culture, Tissue models, Organoids, Spheroids, Organ-on-a-chip, Microfluidics";"2018";"05";"2021-07-02 16:27:38";