Materials Research (Mar 2014)

Cartilage reconstruction using self-anchoring implant with functional gradient

  • Karen Cristina Laurenti,
  • Lourdes Cristina de Albuquerque Haach,
  • Arnaldo Rodrigues dos Santos Jr.,
  • João Manuel Domingos de Almeida Rollo,
  • Rodrigo Bezerra de Menezes Reiff,
  • Ana Maria Minarelli Gaspar,
  • Benedito de Moraes Purquerio,
  • Carlos Alberto Fortulan

DOI
https://doi.org/10.1590/S1516-14392014005000030
Journal volume & issue
Vol. 17, no. 3
pp. 638 – 649

Abstract

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This study presents an innovative and original biomaterial designed to substitute for articular cartilage and mimic its mechanical behavior, including elastic cushioning and the characteristics of fiber-reinforced gel. The material was composed of polyurethane and bioglass microfiber 45S5. It was designed to present a tribological surface to the cartilage of the tibial plateau, and to convert over a functional gradient to an osteointegrable region for self-anchorage to the subchondral bone. The biomaterial samples showed no toxicity and promoted cell spreading. Subsequent in vivo studies in rabbits demonstrated the formation of a rigid structure similar to bone trabeculae in the distal region of the tribological surface of the implant. The tribological surface of the proximal region showed a fibrocartilaginous tissue with highly vascularized chondrocytes, thus validating the proposed concept for the design of the implant incorporating a functional gradient and auto-stability.

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