1. In Vitro Osteogenesis of Human Stem Cells by Using a Three-Dimensional Perfusion Bioreactor Culture System: A Review
- Author
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Marco Vercellino, Maria Gabriella Cusella De Angelis, Lucia Morgante, Rosalia Battaglia, Marcello Imbriani, Nora Bloise, Livia Visai, and Gabriele Ceccarelli
- Subjects
Mesenchymal stem cells (MSC) ,medicine.medical_treatment ,Induced Pluripotent Stem Cells ,Biomedical Engineering ,Pharmaceutical Science ,Bone grafting ,Induced pluripotent stem cells (iPSCs) ,Biomaterials ,Extracellular matrix ,Bioreactors ,Perfusion bioreactor ,Tissue engineering ,Osteogenesis ,In vivo ,Precursor cell ,medicine ,Bioreactor ,Humans ,Os-teogenesis ,Scaffolds ,Tissue Engineering ,Chemistry ,Mesenchymal Stem Cells ,General Medicine ,Anatomy ,In vitro ,Extracellular Matrix ,Perfusion ,Stem cell ,Biomedical engineering - Abstract
Tissue engineering (by culturing cells on appropriate scaffolds, and using bioreactors to drive the correct bone structure formation) is an attractive alternative to bone grafting or implantation of bone substitutes. Osteogenesis is a biological process that involves many molecular intracellular pathways organized to optimize bone modeling. The use of bioreactor systems and especially the perfusion bioreactor, provides both the technological means to reveal fundamental mechanisms of cell function in a 3D environment, and the potential to improve the quality of engineered tissues. In this mini-review all the characteristics for the production of an appropriate bone construct are analyzed: the stem cell source, scaffolds useful for the seeding of pre-osteoblastic cells and the effects of fluid flow on differentiation and proliferation of bone precursor cells. By automating and standardizing tissue manufacture in controlled closed systems, engineered tissues may reduce the gap between the process of bone formation in vitro and subsequent graft of bone substitutes in vivo.
- Published
- 2013