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Review
. 2018 Mar 8;15(5):492-497.
doi: 10.7150/ijms.22789. eCollection 2018.

Decellularized Hydrogels in Bone Tissue Engineering: A Topical Review

Andrea Pacifici  1 Luigi Laino  2 Marco Gargari  3 Federico Guzzo  4 Andrea Velandia Luz  5 Antonella Polimeni  6 Luciano Pacifici  6
Affiliations
Review

Decellularized Hydrogels in Bone Tissue Engineering: A Topical Review

Andrea Pacifici et al. Int J Med Sci. .

Abstract

Nowadays, autograft and allograft techniques represent the main solution to improve bone repair. Unfortunately, autograft technique is expensive, invasive and subject to infections and hematoma, frequently affecting both donor sites and surgical sites. A recent advance in tissue engineering is the fabrication of cell-laden hydrogels with custom-made geometry, depending on the clinical case. The use of ECM (Extra-Cellular Matrix)-derived Hydrogels from bone tissue is the new opportunity to obtain good results in bone regeneration. Several micro-engineering techniques and approaches are available to fabricate different cell gradients and zonal structures in hydrogels design, in combination with the advancement in biomaterials selection. In this review, we analyse the stereolithografy, the Bio-patterning, the 3D bioprinting and 3D assembly, the Laser-Induced Forward Transfer Bioprinting (LIFT), the Micro-extrusion bioprinting, the promising Electrospinning technology, the Microfluidics and the Micromolding. Several mechanical properties are taken into account for bone regeneration scaffolds. However, each typology of scaffold presents some advantages and some concerns. The research on biomaterials is the most promising for bone tissue engineering: the new biomimetic materials will allow us to obtain optimal results in the next clinical application of basic research.

Keywords: Extra Cellular Matrix; Hydrogels; bone tissue engineering.

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Conflict of interest statement

Competing Interests: The authors have declared that no competing interests exist.

Figures

Figure 1
Figure 1
Graphical abstract of bone tissue engineering with stem cells combined with hydrogel form biomaterial.
See this image and copyright information in PMC

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