Osteoblast-like cell behavior on porous scaffolds based on poly(styrene) fibers.
Andrada SerafimRomain MalletFlorence Pascaretti-GrizonIzabela-Cristina StancuDaniel ChappardPublished in: BioMed research international (2014)
Scaffolds of nonresorbable biomaterials can represent an interesting alternative for replacing large bone defects in some particular clinical cases with massive bone loss. Poly(styrene) microfibers were prepared by a dry spinning method. They were partially melted to provide 3D porous scaffolds. The quality of the material was assessed by Raman spectroscopy. Surface roughness was determined by atomic force microscopy and vertical interference microscopy. Saos-2 osteoblast-like cells were seeded on the surface of the fibers and left to proliferate. Cell morphology, evaluated by scanning electron microscopy, revealed that they can spread and elongate on the rough microfiber surface. Porous 3D scaffolds made of nonresorbable poly(styrene) fibers are cytocompatible biomaterials mimicking allogenic bone trabeculae and allowing the growth and development of osteoblast-like cells in vitro.
Keyphrases
- tissue engineering
- bone loss
- bone regeneration
- electron microscopy
- atomic force microscopy
- single cell
- raman spectroscopy
- high speed
- cell therapy
- high resolution
- soft tissue
- stem cells
- high throughput
- optical coherence tomography
- bone marrow
- quality improvement
- mass spectrometry
- mesenchymal stem cells
- highly efficient