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3D printing with star-shaped strands: A new approach to enhance in vivo bone regeneration. | LitMetric

3D printing with star-shaped strands: A new approach to enhance in vivo bone regeneration.

Biomater Adv

Biomaterials, Biomechanics and Tissue Engineering Group, Department of Materials Science and Engineering, Universitat Politècnica de Catalunya (UPC), EEBE, Av. Eduard Maristany, 16, 08019 Barcelona, Spain; Barcelona Research Centre for Multiscale Science and Engineering, Universitat Politècnica de Catalunya (UPC), EEBE, Av. Eduard Maristany, 10-14, 08019 Barcelona, Spain; Biomedical Engineering Research Center (CREB), Universitat Politècnica de Catalunya, Av. Diagonal, 647, 08028 Barcelona, Spain; Institute for Bioengineering of Catalonia (IBEC), Barcelona Institute of Science and Technology, Baldiri Reixac 10-12, 08028 Barcelona, Spain. Electronic address:

Published: June 2022

AI Article Synopsis

  • - Concave surfaces are beneficial for bone regeneration, but traditional bone scaffolds made from direct ink writing primarily have convex surfaces due to their cylindrical design.
  • - A study compared bone scaffolds made from cylindrical vs. star-shaped strands in a rabbit model, showing that the star-shaped scaffolds encouraged faster bone growth, even though the results weren't statistically significant.
  • - This research suggests that modifying the shape of the scaffolds can improve bone graft effectiveness, enhancing the potential of direct ink writing for customized medical applications.

Article Abstract

Concave surfaces have shown to promote bone regeneration in vivo. However, bone scaffolds obtained by direct ink writing, one of the most promising approaches for the fabrication of personalized bone grafts, consist mostly of convex surfaces, since they are obtained by microextrusion of cylindrical strands. By modifying the geometry of the nozzle, it is possible to print 3D structures composed of non-cylindrical strands and favor the presence of concave surfaces. In this work, we compare the in vivo performance of 3D-printed calcium phosphate scaffolds with either conventional cylindrical strands or star-shaped strands, in a rabbit femoral condyle model. Monocortical defects, drilled in contralateral positions, are randomly grafted with the two scaffold configurations, with identical composition. The samples are explanted eight weeks post-surgery and assessed by μ-CT and resin-embedded histological observations. The results reveal that the scaffolds containing star-shaped strands have better osteoconductive properties, guiding the newly formed bone faster towards the core of the scaffolds, and enhance bone regeneration, although the increase is not statistically significant (p > 0.05). This new approach represents a turning point towards the optimization of pore shape in 3D-printed bone grafts, further boosting the possibilities that direct ink writing technology offers for patient-specific applications.

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Source
http://dx.doi.org/10.1016/j.bioadv.2022.212807DOI Listing

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