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Brushite cement additives inhibit attachment to cell culture beads
Parastoo Jamshidi
, Rachel H. Bridson
,
Adrian J. Wright
,
Liam M. Grover
*
*
Corresponding author for this work
Chemical Engineering
Chemistry
Research output
:
Contribution to journal
›
Article
›
peer-review
17
Citations (Scopus)
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Keyphrases
Cell Culture
100%
Brushite Cement
100%
Cement Additive
100%
Cell Adhesion
60%
Cell Attachment
60%
Dicalcium Phosphate
60%
Citrate Complexes
60%
Aging
40%
Resorbable
40%
Brushite
40%
Citric Acid
40%
Cement Beads
40%
Cell Therapy
20%
Cell-based
20%
X-ray Diffraction Pattern
20%
Scanning Electron Microscopy
20%
Aqueous Solution
20%
X Ray Diffraction
20%
Mass Loss
20%
Serum-free
20%
Amount of Work
20%
Physiological Condition
20%
Further Treatment
20%
Enhanced Capacity
20%
Phase Composition
20%
Calcium Phosphate
20%
Bone Substitutes
20%
Orthophosphoric Acid
20%
Physicochemical Properties
20%
Brushite-forming Calcium Phosphate Cement
20%
Dulbecco's Modified Eagle Medium
20%
Initial Mass
20%
Confocal Raman
20%
Raman Microspectrometry
20%
Attached Culture
20%
Adhesion Capacity
20%
Viscosity Modifier
20%
Engineering
Phase Composition
100%
Ray Diffraction
100%
X-Ray Diffraction Pattern
100%
Calcium Phosphate Cement
100%
Aqueous Solution
100%
Fluid Viscosity
100%
Mass Loss
100%
Cement Surface
100%
Physiological Condition
100%
Initial Mass
100%
Physicochemical Property
100%
Material Science
Surface (Surface Science)
100%
X-Ray Diffraction
100%
Cement Additive
100%
Phase Composition
50%
Scanning Electron Microscopy
50%
Diffraction Pattern
50%
Immunology and Microbiology
Cell Adhesion
100%
Cell Culture
100%
X Ray Diffraction
33%
Scanning Electron Microscopy
16%
Solution and Solubility
16%
Aqueous Solution
16%
Eagle
16%
Chemical Engineering
Calcium Phosphate
100%
Citric Acid
100%
Orthophosphoric Acid
50%