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Volumn 12, Issue 7, 2012, Pages 893-900
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Release Profiles of Tricalcium Phosphate Nanoparticles from Poly(L-lactic acid) Electrospun Scaffolds with Single Component, Core-Sheath, or Porous Fiber Morphologies: Effects on hASC Viability and Osteogenic Differentiation
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Author keywords
Biomaterials; Controlled release scaffolds; Human adipose derived stem cells; Nanoparticles; Osteogenesis
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Indexed keywords
ADIPOSE DERIVED STEM CELLS;
BONE TISSUE ENGINEERING;
CONTROLLED RELEASE;
ELECTROSPUNS;
HUMAN ADIPOSE;
NANO-FIBROUS;
OSTEOGENESIS;
OSTEOGENIC DIFFERENTIATION;
PHARMACOKINETIC ANALYSIS;
POLY L LACTIC ACID;
POROUS FIBERS;
RELEASE PROFILES;
SINGLE COMPONENTS;
TRI-CALCIUM PHOSPHATES;
BIOLOGICAL MATERIALS;
BIOMATERIALS;
FIBERS;
LACTIC ACID;
MORPHOLOGY;
NANOFIBERS;
NANOPARTICLES;
STEM CELLS;
SCAFFOLDS (BIOLOGY);
CALCIUM;
CALCIUM PHOSPHATE;
NANOFIBER;
NANOMATERIAL;
NANOPARTICLE;
POLYLACTIC ACID;
TISSUE SCAFFOLD;
ADIPOCYTE;
ADULT;
ARTICLE;
BONE DEVELOPMENT;
CALCIUM TRANSPORT;
CELL DIFFERENTIATION;
CELL PROLIFERATION;
CELL VIABILITY;
CONTROLLED STUDY;
ELECTROSPINNING;
FEMALE;
HUMAN;
HUMAN CELL;
MICROMORPHOLOGY;
NANOENGINEERING;
NORMAL HUMAN;
POROSITY;
TISSUE ENGINEERING;
ADIPOSE TISSUE;
ADULT;
BIOCOMPATIBLE MATERIALS;
BONE AND BONES;
CALCIUM PHOSPHATES;
CELL DIFFERENTIATION;
CELL PROLIFERATION;
CELL SURVIVAL;
CELLS, CULTURED;
FEMALE;
HUMANS;
KINETICS;
LACTIC ACID;
MICROSCOPY, ELECTRON, SCANNING;
NANOPARTICLES;
POLYMERS;
POROSITY;
STEM CELLS;
SURFACE PROPERTIES;
TISSUE ENGINEERING;
TISSUE SCAFFOLDS;
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EID: 84863741298
PISSN: 16165187
EISSN: 16165195
Source Type: Journal
DOI: 10.1002/mabi.201100470 Document Type: Article |
Times cited : (35)
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References (40)
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