SphereCol Collagen Coated Beads
SphereCol® References:
Park, Yonsil, et al. "Hepatic differentiation of human embryonic stem cells on microcarriers." Journal of biotechnology 174 (2014): 39-48.
Dai, Lin, et al. "Inorganic–organic nanocomposite assembly using collagen as a template and sodium tripolyphosphate as a biomimetic analog of matrix phosphoprotein." Crystal growth & design 11.8 (2011): 3504-3511.
Rafiq, Qasim A., et al. "Systematic microcarrier screening and agitated culture conditions improves human mesenchymal stem cell yield in bioreactors." Biotechnology journal 11.4 (2016): 473-486.
Lin, Youshan Melissa, et al. "Critical attributes of human early mesenchymal stromal cell-laden microcarrier constructs for improved chondrogenic differentiation." Stem cell research & therapy 8.1 (2017): 93.
Yoon, Junghyo, et al. "Fabrication of type I collagen microcarrier using a microfluidic 3D T-junction device and its application for the quantitative analysis of cell–ECM interactions." Biofabrication 8.3 (2016): 035014.
Rafiq, Qasim A. "Toward a scalable and consistent manufacturing process for the production of human MSCs." Cell and Gene Therapy Insights 2.1 (2016): 127-140.
Wang, Zhenxing, et al. "Development of demineralized bone matrix-based implantable and biomimetic microcarrier for stem cell expansion and single-step tissue-engineered bone graft construction." Journal of Materials Chemistry B 5.1 (2017): 62-73.
Suess, P. M., Chinea, L. E., Pilling, D. & Gomer, R. H. Extracellular Polyphosphate Promotes Macrophage and Fibrocyte Differentiation, Inhibits Leukocyte Proliferation, and Acts as a Chemotactic Agent for Neutrophils. The Journal of Immunology(2019). doi:10.4049/jimmunol.1801559
Tavassoli, H. et al. Large-scale production of stem cells utilizing microcarriers: A biomaterials engineering perspective from academic research to commercialized products. Biomaterials181,333–346 (2018).