Polycaprolactone-collagen composite biomaterials for mandible regeneration

Abstract

Our primary objective is to demonstrate approaches to create mechanically robust, patient-customized biomaterials for large, load-bearing maxillofacial bone defects. To do this, we are developing approaches to integrate a biomolecule decorated collagen scaffold with micro-scale porosity into a mechanically-robust polymeric frame generated via 3D-printingwith macro-porosity. Through the second year of this project we have completed the design, fabrication, as well as mechanical and in vitro osteogenesis testing of multiple elements of the final composite biomaterial design. We identified a PLA-collagen composite that could support robust mesenchymal stem cell (MSC) viability, osteogenic differentiation, and new mineral synthesis while rendering it shape-fitting to improve conformal contact with the wound margin. We have advanced multiple strategies to incorporate biomolecular signals into the collagen scaffold via transient sequestration,covalent attachment, and through included zinc ions that enhance osteogenic activity. Ongoing efforts are completing biomolecule incorporation and release experiments to facilitate long-term (>7 day) biomolecule bioavailability via mineral based factor sequestration chemistries. Our efforts are essential for our goal to identify a shelf-stable, patient customizable biomaterial that can be seeded with autologous MSCs to regenerate large CMF bone defects.

Document Details

Document Type

Technical Report

Publication Date

Oct 01, 2019

Accession Number

AD1106268

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