Human Type I Collagen Coated Beads, Sterile

Cat.-Nr.: 5138-10GM

Description

SphereCol® beads are coated with VitroCol® human Type I collagen and are ideal for growing cells in suspension. The collagen coated beads provide a natural in vivo-like environment to promote high cell growth while providing a large surface area for cells to attach with optimal surface area to volume ratios. SphereCol® provides a 3D bio-scaffold which is optimal in many cell culture procedures.

SphereCol®, human collagen coated beads is coated with highly purified Type I human collagen derived from a human fibroblast cell culture process, VitroCol®. The collagen provides an optimal coating on the beads to enhance cell attachment, cell viability, cell proliferation and cell function. The collagen beads range in size from about 125 to 250 micron. The product is packaged in a 20 ml bottle and sterilized. SphereCol® is provided in a user-friendly packaging for use and storage.

  • SUPPLIER:

    Advanced BioMatrix

  • STATUS:

    In Stock

  • SIZE:

    10 g

Overview

  • Species: Human
  • Additional Attributes: collagen
  • Specific Attributes: Type I

Related Files

Datasheet
Certificate of Origin

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).

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