Temporal changes in peg hydrogel structure influence human mesenchymal stem cell proliferation and matrix mineralization
Journal Article
Overview
publication date
- January 1, 2006
has subject area
- Bioengineering - Tissue Engineering
- Biomedical and Dental Materials - Biocompatible Materials
- Biomedical and Dental Materials - Hydrogel
- Biomedical and Dental Materials - Polyethylene Glycols
- Cell Physiological Phenomena - Cell Proliferation
- Cells, Cultured
- Complex Mixtures - Hydrogels
- Culture Techniques - Tissue Engineering
- Ethylene Glycols - Hydrogel
- Ethylene Glycols - Polyethylene Glycols
- Extracellular Matrix
- Gene Expression
- Growth - Cell Proliferation
- Humans
- Macromolecular Substances - Hydrogel
- Macromolecular Substances - Polyethylene Glycols
- Manufactured Materials - Biocompatible Materials
- Manufactured Materials - Hydrogel
- Manufactured Materials - Polyethylene Glycols
- Multipotent Stem Cells - Mesenchymal Stromal Cells
- Pharmaceutical Preparations - Hydrogel
- Pharmaceutical Preparations - Hydrogels
- Specialty Uses of Chemicals - Biocompatible Materials
- Stromal Cells - Mesenchymal Stromal Cells
- Time Factors
Full Author List
- Nuttelman CR; Kloxin AM; Anseth KS
published in
Additional Document Info
start page
- 135
end page
- 149
volume
- 585