Oxygen-Generating Biomaterials: A New, Viable Paradigm for Tissue Engineering?

Oxygen-Generating Biomaterials: A New, Viable Paradigm for Tissue Engineering?

There have been many attempts to provide sufficient nutrients, especially oxygen, to engineered large tissues to overcome the effects of hypoxia or poor vascularization. Delivering sufficient oxygen to the transplanted cells is one of the most critical issues that affects cell survival and correct m...

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Veröffentlicht in:Trends in biotechnology (Regular ed.) 2016-12, Vol.34 (12), p.1010-1021
Hauptverfasser: Gholipourmalekabadi, Mazaher, Zhao, Susan, Harrison, Benjamin S, Mozafari, Masoud, Seifalian, Alexander M
Format: Artikel
Sprache:eng
Schlagworte:
Animals
Apoptosis
Biocompatible Materials - chemistry
Biocompatible Materials - metabolism
biomaterial
Biomaterials
Biomedical materials
Cell adhesion & migration
Cell cycle
Deoxyribonucleic acid
DNA
Free radicals
Gangrene
Humans
Hydrogels
Hypoxia
Internal Medicine
Mice
Oxidative stress
Oxygen
Oxygen - chemistry
Oxygen - metabolism
oxygen generation
Perfluorocarbons
Reagents
regeneration
Rodents
stem cells
Tissue engineering
Tissue Engineering - instrumentation
Tissue Engineering - methods
Tissue Engineering - trends
Transplants & implants
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Zusammenfassung:There have been many attempts to provide sufficient nutrients, especially oxygen, to engineered large tissues to overcome the effects of hypoxia or poor vascularization. Delivering sufficient oxygen to the transplanted cells is one of the most critical issues that affects cell survival and correct maturation of engineered tissues. An emerging approach is using 3D scaffolds made from oxygen-generating biomaterials to tackle transport limitations deep within the engineered tissues. This class of biomaterials has opened a new window for overcoming the challenges associated with ischemia occurring within large tissue constructs. This review critically assesses oxygen-generating reagents, the main approaches for developing oxygen-generating biomaterials, and their potential as 3D scaffolds for regenerative medicine in a clinical setting.
ISSN:0167-7799
1879-3096
DOI:10.1016/j.tibtech.2016.05.012