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Trends in bioactivity: inducing and detecting mineralization of regenerative polymeric scaffolds.

Brandon M NitschkeFelipe O BeltranMariah S HahnMelissa A Grunlan
Published in: Journal of materials chemistry. B (2024)
Due to limitations of biological and alloplastic grafts, regenerative engineering has emerged as a promising alternative to treat bone defects. Bioactive polymeric scaffolds are an integral part of such an approach. Bioactivity importantly induces hydroxyapatite mineralization that promotes osteoinductivity and osseointegration with surrounding bone tissue. Strategies to confer bioactivity to polymeric scaffolds utilize bioceramic fillers, coatings and surface treatments, and additives. These approaches can also favorably impact mechanical and degradation properties. A variety of fabrication methods are utilized to prepare scaffolds with requisite morphological features. The bioactivity of scaffolds may be evaluated with a broad set of techniques, including in vitro (acellular and cellular) and in vivo methods. Herein, we highlight contemporary and emerging approaches to prepare and assess scaffold bioactivity, as well as existing challenges.
Keyphrases
  • tissue engineering
  • drug delivery
  • cancer therapy
  • bone mineral density
  • stem cells
  • soft tissue
  • mesenchymal stem cells
  • bone marrow