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      The primacy of octacalcium phosphate collagen composites in bone regeneration

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      Journal of Biomedical Materials Research Part A
      Wiley

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          Abstract

          We have engineered a scaffold constructed of synthetic octacalcium phosphate (OCP) and porcine collagen sponge (OCP/Col), and reported that OCP/Col drastically enhanced bone regeneration. In this study, we investigated whether OCP/Col would enhance bone regeneration more than beta-tricalcium phosphate (beta-TCP) collagen composite (beta-TCP/Col) or hydroxyapatite (HA) collagen composite (HA/Col). Discs of OCP/Col, beta-TCP/Col, or HA/Col were implanted into critical-sized defects in rat crania and fixed at 4 or 12 weeks after implantation. The newly formed bone and the remaining granules of implants in the defect were determined by histomorphometrical analysis, and radiographic and histological examinations were performed. Statistical analysis showed that the newly formed bone by the implantation of OCP/Col was significantly more than that of beta-TCP/Col or HA/Col. In contrast, the remaining granules in OCP/Col were significantly lower than those in beta-TCP/Col or HA/Col. Bone regeneration by OCP/Col was based on secured calcified collagen and bone nucleation by OCP, whereas bone regeneration by beta-TCP/Col or HA/Col was initiated by poorly calcified collagen and osteoconductivity by beta-TCP or HA. This study showed that the implantation of OCP/Col in a rat cranial defect enhanced more bone regeneration than beta-TCP/Col and HA/Col.

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          Octacalcium phosphate combined with collagen orthotopically enhances bone regeneration.

          Octacalcium phosphate (OCP) is resorbable bone regenerative material, but its brittleness makes it difficult to maintain its shape without restraint. We have engineered a scaffold constructed of synthetic OCP and porcine collagen sponge (OCP/Collagen) and investigated whether OCP/Collagen composite could improve bone regeneration. To examine this hypothesis, bone regeneration by the implantation of OCP/Collagen was compared with those by OCP and collagen. Radiographic and histological examination was performed and the percentage of newly formed bone (n-Bone%) in the defect was determined by a histomorphometrical analysis. OCP/Collagen, OCP, or collagen was implanted into the critical-sized defects in rat crania and fixed at 2, 4, or 8 weeks after implantation. OCP/Collagen improved the handling performance than the granules of OCP, and synergistically enhanced the bone regeneration beyond expectation, which were composed of bone nucleation by OCP and cell infiltration by collagen. Histomorphometrical analysis showed that n-Bone% +/- standard error treated with OCP/Collagen (48.4 +/- 5.14) was significantly higher than those with OCP (27.6 +/- 4.04) or collagen (27.4 +/- 5.69) in week 8. The present study suggests that the combination OCP with collagen elicited the synergistic effect for bone regeneration.
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            Multinucleated giant cells recruited by implantation of octacalcium phosphate (OCP) in rat bone marrow share ultrastructural characteristics with osteoclasts.

            The ultrastructural characteristics of multinucleated giant cells (MNGCs) on octacalcium phosphate (OCP) and hydroxyapatite (HA) were investigated in comparison with those of osteoclasts, when the synthetic OCP and HA were implanted in rat bone marrow. The morphological difference in the MNGCs were shown between OCP and HA implants in 2 weeks after implantation. The MNGC on the implanted OCP (i-OCP) developed the ruffled border-like structure and the clear zone-like structure. The i-OCP was frayed where it was in contact with the ruffled border-like structure. The MNGC on the implanted HA (i-HA) developed the clear zone-like structure, whereas no ruffled border was seen. The surface of i-HA associated with the MNGC was smooth and not frayed. Bone formed directly on the OCP or HA implants. The interface between the i-OCP and bone matrix interdigitated, whereas that between the i-HA and bone matrix was comparatively smooth. The present study suggested that the i-OCP could be resorbed by the MNGCs which share some ultrastructural characteristics with osteoclasts.
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              Developmental pathways of vertebral centra and neural arches in human embryos and fetuses

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                Author and article information

                Journal
                Journal of Biomedical Materials Research Part A
                J. Biomed. Mater. Res.
                Wiley
                15493296
                15524965
                December 01 2007
                December 01 2007
                : 83A
                : 3
                : 725-733
                Article
                10.1002/jbm.a.31332
                17559110
                cb73b1e3-d16d-47dd-a977-38ad7c93aea4
                © 2007

                http://doi.wiley.com/10.1002/tdm_license_1.1

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