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Mineralized collagen plywood contributes to bone autograft performance

Author

Listed:
  • Marc Robin

    (Sorbonne Université, CNRS, Collège de France)

  • Elodie Mouloungui

    (Sorbonne Université, CNRS, Collège de France)

  • Gabriel Castillo Dali

    (UFR d’Odontologie, Université Paris Cité
    Consejo Superior de Investigaciones Científicas)

  • Yan Wang

    (Sorbonne Université, CNRS, Collège de France)

  • Jean-Louis Saffar

    (UFR d’Odontologie, Université Paris Cité)

  • Graciela Pavon-Djavid

    (Université Sorbonne Paris Nord, Inserm U1148)

  • Thibaut Divoux

    (Laboratoire de Physique, ENSL, CNRS)

  • Sébastien Manneville

    (Laboratoire de Physique, ENSL, CNRS
    Institut Universitaire de France (IUF))

  • Luc Behr

    (IMM Recherche)

  • Delphine Cardi

    (SATT Lutech)

  • Laurence Choudat

    (Hôpital Bichat)

  • Marie-Madeleine Giraud-Guille

    (Sorbonne Université, CNRS, Collège de France)

  • Anne Meddahi-Pellé

    (Université Sorbonne Paris Nord, Inserm U1148)

  • Fannie Baudimont

    (ABS Atlantic Bone Screen)

  • Marie-Laure Colombier

    (UFR d’Odontologie, Université Paris Cité)

  • Nadine Nassif

    (Sorbonne Université, CNRS, Collège de France)

Abstract

Autologous bone (AB) is the gold standard for bone-replacement surgeries1, despite its limited availability and the need for an extra surgical site. Traditionally, competitive biomaterials for bone repair have focused on mimicking the mineral aspect of bone, as evidenced by the widespread clinical use of bioactive ceramics2. However, AB also exhibits hierarchical organic structures that might substantially affect bone regeneration. Here, using a range of cell-free biomimetic-collagen-based materials in murine and ovine bone-defect models, we demonstrate that a hierarchical hybrid microstructure—specifically, the twisted plywood pattern of collagen and its association with poorly crystallized bioapatite—favourably influences bone regeneration. Our study shows that the most structurally biomimetic material has the potential to stimulate bone growth, highlighting the pivotal role of physicochemical properties in supporting bone formation and offering promising prospects as a competitive bone-graft material.

Suggested Citation

  • Marc Robin & Elodie Mouloungui & Gabriel Castillo Dali & Yan Wang & Jean-Louis Saffar & Graciela Pavon-Djavid & Thibaut Divoux & Sébastien Manneville & Luc Behr & Delphine Cardi & Laurence Choudat & M, 2024. "Mineralized collagen plywood contributes to bone autograft performance," Nature, Nature, vol. 636(8041), pages 100-107, December.
    • Handle: RePEc:nat:nature:v:636:y:2024:i:8041:d:10.1038_s41586-024-08208-z
    DOI: 10.1038/s41586-024-08208-z
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