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SELECTBIO Conferences Tissue Engineering

Vera Guduric's Biography



Vera Guduric, Researcher, University of Bordeaux, France

Vera Guduric has studied biochemistry at the University of Novi Sad in Serbia and made her master in Molecular chemistry at University Pierre and Marie Curie in Paris. She has made one more master in Advanced engineering technologies at the University of Novi Sad where she worked on 3D printing of jaw models after medical imaging. She has obtained a scholarship from French Government to do her PhD studies in the field of tissue engineering. Her research is based on 3D printable scaffolds for bone tissue regeneration.

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Layer-by-Layer Assembly of Cellularized Poly-(lactic acid) Constructs for Bone Tissue Engineering

Friday, 18 March 2016 at 09:30

Add to Calendar ▼2016-03-18 09:30:002016-03-18 10:30:00Europe/LondonLayer-by-Layer Assembly of Cellularized Poly-(lactic acid) Constructs for Bone Tissue EngineeringSELECTBIOenquiries@selectbiosciences.com

Bone Tissue Engineering (BTE) requires tissue-specific cells and a porous biocompatible scaffold to support cell proliferation and differentiation. Rapid prototyping technique allows fabrication of custom-made 3D scaffolds with high resolution. Layer-by-Layer (LBL) microfabrication is based on assembly of small seeded blocks. The aim of this work was to evaluate proliferation and differentiation of human bone marrow stromal cells (HBMSCs) and endothelial progenitor cells (EPCs) in 2D and 3D using a LBL assembly of cellularized polylactic acid (PLA) membranes. PLA membranes were fabricated by direct 3D printing. HBMSCs and EPCs were seeded onto membranes as mono- and co-cultures in aim to perform experiments in 2D (1 seeded membrane) and 3D (LBL constructs). 2D experiments have shown high cell viability on PLA during 21 days as well as adequate morphology of seeded cells. Early osteoblastic and endothelial differentiations were observed after 14 days. Cell proliferation was increased in all experiments after 7 days. The migration of EPCs between layers of LBL constructs was observed as well as an osteoblastic differentiation of HBMSCs. These results indicate that LBL approach could be suitable for BTE, in order to promote homogenous cell distribution inside the scaffold and gene expression specific to the cells implanted.


Add to Calendar ▼2016-03-17 00:00:002016-03-18 00:00:00Europe/LondonTissue EngineeringSELECTBIOenquiries@selectbiosciences.com