"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"; "649";"Vascular endothelial–breast epithelial cell coculture model created from 3D cell structures";"3D multicellular model combining endothelial and breast cancer spheroids";"A multicellular 3D model is developed by combining human endothelial spheroids and human breast cancer spheroids to mimic breast tumor interactions with vascular structures. The combination of both models is able to recreate a metastatic microenvironment that allows breast epithelial tumors to grow and migrate through the vascular-like structures, demonstrating the potential of this model to study the physiology of these cell-cell interactions and metastasis.";"Alisa Morss Clyne, Drexel University, Philadelphia, USA";"Swathi Swaminathan et al. ACS Biomaterials Science & Engineering 2017";"https://pubs.acs.org/doi/10.1021/acsbiomaterials.6b00624";"EURL ECVAM, https://data.jrc.ec.europa.eu/dataset/ffebe454-ed9a-47cf-8a33-8cf70c1b7d38";"cancer cells, metastasis, vascular system, 3D model";"Andrology, Gynaecology, Method development, Oncology";"Cell culture, Tissue models, Organoids, Spheroids";"2016";"12";"2021-07-14 21:02:06";