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Gelatin and Bioactive Glass Composites for Tissue Engineering: A Review.

Maria E V Barreto1, Rebeca P Medeiros1, Adam Shearer2

  • 1Northeastern Laboratory for Evaluation and Development of Biomaterials (CERTBIO), Department of Materials Engineering, Federal University of Campina Grande, Campina Grande 58429-900, PB, Brazil.

Journal of Functional Biomaterials
|January 20, 2023
PubMed
Summary

Bioactive glass (BG) and gelatin composites show promise for tissue engineering. These materials enhance tissue formation, promote cell growth, and offer unique therapeutic properties for both soft and hard tissue regeneration.

Keywords:
bioactive glassbonecompositegelatintissue engineering

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Area of Science:

  • Biomaterials Science
  • Tissue Engineering
  • Regenerative Medicine

Background:

  • Nano-/micron-sized bioactive glass (BG) particles exhibit excellent biocompatibility and bioactivity for tissue repair.
  • Gelatin, derived from collagen, is a versatile biopolymer suitable for various tissue engineering applications.
  • The combination of BG and gelatin offers synergistic benefits for enhanced tissue regeneration.

Purpose of the Study:

  • To review the current knowledge on bioactive glass/gelatin composites for soft and hard tissue engineering.
  • To summarize the composition, processing, properties, and applications of these composites.
  • To discuss recent advancements, challenges, and future perspectives in the field.

Main Methods:

  • Literature review of scientific articles on bioactive glass and gelatin composites.
  • Analysis of studies focusing on the physical, chemical, and mechanical properties of these composites.
  • Exploration of in vitro and in vivo studies evaluating osteogenic and angiogenic responses.

Main Results:

  • Bioactive glass/gelatin composites demonstrate enhanced tissue formation, cell proliferation, and therapeutic functionalities.
  • These composites exhibit favorable physical, chemical, and mechanical properties for tissue engineering scaffolds.
  • Recent developments include the use of 3D/4D printing for fabricating advanced BG/gelatin constructs.

Conclusions:

  • Bioactive glass/gelatin composites are highly promising for both soft and hard tissue regeneration.
  • Further research is needed to overcome current challenges and optimize composite design for specific tissue applications.
  • The unique properties of these composites pave the way for novel regenerative strategies.