"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"; "643";"3D printed nanocomposite matrix for the study of breast cancer bone metastasis";"Biofabrication of 3D model to study bone marrow metastasis";"The study presents the modelling of bone marrow metastatic invasion by breast cancer cells with a 3D-printed hydrogel matrix that mimics bone marrow microenvironment. The co-culture of human bone-marrow-derived mesenchymal stem cells and human breast cancer cells in this matrix is able to recapitulate morphological and migratory properties of breast cancer bone invasion. This shows that this model can be useful for other researcher to model metastasis.";"Lijie Grace Zhang, The George Washington University, Washington, USA";"Wei Zhu et al. Nanomedicine: Nanotechnology, Biology and Medicine 2016";"https://www.sciencedirect.com/science/article/abs/pii/S1549963415001884?via%3Dihub";"EURL ECVAM, https://data.jrc.ec.europa.eu/dataset/ffebe454-ed9a-47cf-8a33-8cf70c1b7d38";"cancer cells, breast cancer, metastasis, hydrogel, 3D model, biofabrication";"Andrology, Gynaecology, Method development, Oncology";"3D bioprinting, Cell culture, Tissue models, Organoids, Spheroids";"2015";"10";"2021-07-12 21:04:22";