Effect of Bioglass on Growth and Biomineralization of SaOS-2 Cells in Hydrogel after 3D Cell Bioprinting
Published 2014 View Full Article
- Home
- Publications
- Publication Search
- Publication Details
Title
Effect of Bioglass on Growth and Biomineralization of SaOS-2 Cells in Hydrogel after 3D Cell Bioprinting
Authors
Keywords
Gels, 3D bioprinting, Polymers, Scanning electron microscopy, Mineral deposits, Osteocytes, Biomineralization, Bionanotechnology
Journal
PLoS One
Volume 9, Issue 11, Pages e112497
Publisher
Public Library of Science (PLoS)
Online
2014-11-11
DOI
10.1371/journal.pone.0112497
References
Ask authors/readers for more resources
Related references
Note: Only part of the references are listed.- Induction of carbonic anhydrase in SaOS-2 cells, exposed to bicarbonate and consequences for calcium phosphate crystal formation
- (2013) Werner E.G. Müller et al. BIOMATERIALS
- Bioprinting Toward Organ Fabrication: Challenges and Future Trends
- (2013) I. T. Ozbolat et al. IEEE TRANSACTIONS ON BIOMEDICAL ENGINEERING
- Bone tissue engineering using 3D printing
- (2013) Susmita Bose et al. Materials Today
- Alginate/silica composite hydrogel as a potential morphogenetically active scaffold for three-dimensional tissue engineering
- (2013) Ute Schloßmacher et al. RSC Advances
- Silica as a morphogenetically active inorganic polymer
- (2013) Werner E. G. Müller et al. Biomaterials Science
- Review of bioactive glass: From Hench to hybrids
- (2012) Julian R. Jones Acta Biomaterialia
- Genetic, biological and structural hierarchies during sponge spicule formation: from soft sol–gels to solid 3D silica composite structures
- (2012) Xiaohong Wang et al. Soft Matter
- Biologically induced transition of bio-silica sol to mesoscopic gelatinous flocs: a biomimetic approach to a controlled fabrication of bio-silica structures
- (2012) Xiaohong Wang et al. Soft Matter
- Bioprinting for stem cell research
- (2012) Savas Tasoglu et al. TRENDS IN BIOTECHNOLOGY
- Hierarchical mesoporous bioactive glass/alginate composite scaffolds fabricated by three-dimensional plotting for bone tissue engineering
- (2012) Yongxiang Luo et al. Biofabrication
- The effect of silicate ions on proliferation, osteogenic differentiation and cell signalling pathways (WNT and SHH) of bone marrow stromal cells
- (2012) Pingping Han et al. Biomaterials Science
- Molecular interactions in coupled PMMA–bioglass hybrid networks
- (2012) Roya Ravarian et al. Journal of Materials Chemistry B
- Inorganic polymeric phosphate/polyphosphate as an inducer of alkaline phosphatase and a modulator of intracellular Ca2+ level in osteoblasts (SaOS-2 cells) in vitro
- (2011) Werner E.G. Müller et al. Acta Biomaterialia
- Hardening of bio-silica in sponge spicules involves an aging process after its enzymatic polycondensation: Evidence for an aquaporin-mediated water absorption
- (2011) Werner E.G. Müller et al. BIOCHIMICA ET BIOPHYSICA ACTA-GENERAL SUBJECTS
- Sponge Biosilica Formation Involves Syneresis Following Polycondensation in vivo
- (2011) Xiaohong Wang et al. CHEMBIOCHEM
- The role of biosilica in the osteoprotegerin/RANKL ratio in human osteoblast-like cells
- (2010) Matthias Wiens et al. BIOMATERIALS
- The biological activities of (1,3)-(1,6)-β-d-glucan and porous electrospun PLGA membranes containing β-glucan in human dermal fibroblasts and adipose tissue-derived stem cells
- (2010) Yeon I Woo et al. Biomedical Materials
- Osteogenic Potential of Biosilica on Human Osteoblast-Like (SaOS-2) Cells
- (2010) Matthias Wiens et al. CALCIFIED TISSUE INTERNATIONAL
- Preparation of bioactive glass ceramic nanoparticles by combination of sol–gel and coprecipitation method
- (2009) Zhongkui Hong et al. JOURNAL OF NON-CRYSTALLINE SOLIDS
- Preparation andin vitrocharacterization of novel bioactive glass ceramic nanoparticles
- (2008) Zhongkui Hong et al. JOURNAL OF BIOMEDICAL MATERIALS RESEARCH PART A
Discover Peeref hubs
Discuss science. Find collaborators. Network.
Join a conversationPublish scientific posters with Peeref
Peeref publishes scientific posters from all research disciplines. Our Diamond Open Access policy means free access to content and no publication fees for authors.
Learn More