Heterogeneous ossification of two kinds of bionic
biphasic ceramicª²like biologic bones

Abstract

AIM£ºTo discuss the new bone formation ability of biphasic ceramic-like biologic bone (BCBB) compounded with bone morphogenic protein (BMP) and type¢ò collagen, which are transplanted into the heterogenous muscle pouches in rabbits.

METHODS£º The experiment was carried out in the Institute of Orthopaedics, the Fourth Military Medical University of Chinese PLA between October 2004 and October 2005. A total of 32 healthy Japanese rabbits were randomly allocated into biologic active bone group and biologic bone group, each containing 16 rabbits. BCBB compounded with BMP and type ¢ò collagen was called bionic biphasic ceramic-like biologic active bone and bionic BCBB, respectively. Two materials were transplanted into rabbit muscle pouches of two groups, then were harvested at weeks 2, 4, 8, 12 for the gross observation under microscope. Tissue sections were selected for hematoxylin-eosin (HE) staining and Masson staining.

RESULT:Totally 32 rabbits were involved in the result analysis.¢ÙGross observation: At week 2, lamellar connective tissues amicula appeared on the surface of materials and formed new vascular net; At weeks 4, 6, 8, there were more vascular net and white bony tissues in biologic active bone group than in biologic bone group.¢ÚStaining results: At week 2 post-operation, HE staining demonstrated a great quantity of connective tissues on the surface and pore of materials, with the abundant blood capillary, but no new bone formed; At week 8, Masson staining demonstrated the scattered osteoid, which were blue new bone; At week 12, HE staining result showed that membrane bone formed on edge of materials, osteoblast arranged in lines while new bone collagen fiber in disorder, with the obvious osseous cells and bone lacuna. Whereas in biologic bone group, bionic BCBB had no ossification ability at week 12 post-operation, accompanying blue collagen fiber in mesh.

CONCLUSION: Both of two materials have good biocompatibility. Bionic biphasic ceramic-like biologic active bone has heterogenous ossification ability and bionic BCBB is ineffective in bone induction.

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