Tissue-engineered bone biomimetic to regenerate calvarial critical-sized defects in athymic rats

Abstract: A tissue-engineered bone biomimetic device was developed to regenerate calvaria critical-sized defects (CSDs) in athymic rats. Well-documented evidence clearly confirms that left untreated, CSDs will not spontaneously regenerate bone. To accomplish regeneration, four candidate treatments were assessed: porous poly(D,L-lactide) and type I collagen (PLC), PLC and human osteoblast precursor cells (OPCs) at 2 x 10(5) (PLC/OPCs), PLC and 50 microg of recombinant human bone morphogenetic protein-2 (PLC/rhBMP-2), and… Show more

“…Each grafting approach has associated risks and complications leading to the desire to design a bioengineered artificial matrix or scaffold that can act as a microarchitectural structure with sufficient surface area for cell adhesion, migration, proliferation, and differentiation of an appropriate in situ tissue. There have been studies of osteoblast and fibroblast interactions with biomaterials that could be used clinically for promoting tissue growth [2,12]. However, few have considered the selective advantage of hydrogel materials in selective growth patterns of osteoblasts and fibroblasts on the scaffolding with respect to early cellular adhesion events.…”

The effect of hydrogel charge density on cell attachment

“…Each grafting approach has associated risks and complications leading to the desire to design a bioengineered artificial matrix or scaffold that can act as a microarchitectural structure with sufficient surface area for cell adhesion, migration, proliferation, and differentiation of an appropriate in situ tissue. There have been studies of osteoblast and fibroblast interactions with biomaterials that could be used clinically for promoting tissue growth [2,12]. However, few have considered the selective advantage of hydrogel materials in selective growth patterns of osteoblasts and fibroblasts on the scaffolding with respect to early cellular adhesion events.…”

The effect of hydrogel charge density on cell attachment

“…43 This report investigates the effects of delivery of PEI-condensed plasmid DNA encoding for BMP-4 from macroporous PLGA scaffolds in bone regeneration. The utility of this system for bone regeneration was evaluated utilizing a cranial critical-sized defect model, 13,44 as a critical-sized defect allows one to clearly identify the effect of the intervention on bone regeneration. This system provides a platform that potentially allows osteoprogenitors or other cell types (eg, fibroblasts) surrounding the defect area to migrate into the defect site, and be transfected by the PEI-condensed plasmid DNA associated with the scaffold.…”

Bone regeneration in a rat cranial defect with delivery of PEI-condensed plasmid DNA encoding for bone morphogenetic protein-4 (BMP-4)

“…5 The use of bone marrow-derived MSCs (BM-MSCs) seems also to represent a promising approach. Local delivery of purified MSCs was used for spine fusion, 6 segmental bone defects, 2 and craniotomy defects.…”

“…Alternatively to the reimplantation of MSCs, an osteoprogenitor cell line (OPC-1) has been established 21 and used in combination with a porous carrier and recombinant human bone morphogenic protein-2, showing synergistic effects on osteoinduction in vivo. 5 The use of human fetal bone cells for tissue engineering has recently been described. Fetal bone cells were shown to proliferate, differentiate, and finally to mineralize their extracellular matrix in vitro.…”

In VitroCharacterization of Immune-Related Properties of Human Fetal Bone Cells for Potential Tissue Engineering Applications