AI Article Synopsis

  • - The complex structure of musculoskeletal tissues demands advanced scaffold designs for effective tissue engineering, driving interest in gradient bone scaffolds that mimic natural tissue matrices.
  • - This review explores various strategies for creating biomimetic gradient scaffolds, emphasizing their compositional and structural gradients for repairing bones, osteochondral issues, and tendon-to-bone interfaces.
  • - It also highlights recent animal testing of these scaffolds and discusses the challenges and future potential of applying them in clinical settings for treating musculoskeletal injuries.

Article Abstract

The intricate hierarchical structure of musculoskeletal tissues, including bone and interface tissues, necessitates the use of complex scaffold designs and material structures to serve as tissue-engineered substitutes. This has led to growing interest in the development of gradient bone scaffolds with hierarchical structures mimicking the extracellular matrix of native tissues to achieve improved therapeutic outcomes. Building on the anatomical characteristics of bone and interfacial tissues, this review provides a summary of current strategies used to design and fabricate biomimetic gradient scaffolds for repairing musculoskeletal tissues, specifically focusing on methods used to construct compositional and structural gradients within the scaffolds. The latest applications of gradient scaffolds for the regeneration of bone, osteochondral, and tendon-to-bone interfaces are presented. Furthermore, the current progress of testing gradient scaffolds in physiologically relevant animal models of skeletal repair is discussed, as well as the challenges and prospects of moving these scaffolds into clinical application for treating musculoskeletal injuries.

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Source
http://www.ncbi.nlm.nih.gov/pmc/articles/PMC11602939PMC
http://dx.doi.org/10.1007/s40820-024-01581-4DOI Listing

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