In Vitro Evaluation of Biomimetic Incorporation and Release Kinetics of BMP2 on Functionalized Bio-Oss® Block

Fei Teng; Yue Lian Liu

doi:10.4028/www.scientific.net/KEM.720.7

Paper Titles

Characterization of Structural and Chemical Properties of Silver Containing Hydroxyapatite Synthesized by Solid Phase Reaction
p.3

In Vitro Evaluation of Biomimetic Incorporation and Release Kinetics of BMP2 on Functionalized Bio-Oss^® Block
p.7

Fabrication of Hydroxyapatite Microcapsules for Controlled Release of Hydrophobic Drug
p.12

Controlled Ion Release Property of Glass Ionomer Cement Containing Nanoporous Silica Particles
p.17

Thermoresponsive Drug Release from Polymer Coated Nano Iron Oxide Embedded on Hydroxyapatite
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Chlorhexidine Adsorption in Hydroxyapatite and Alginate Microspheres by Extrusion in Zinc and Calcium Chloride
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Effect of the Pore Diameters and Amino-Organo Functional Structures on Mesoporous Silicas for DNA Adsorption
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VSC Sorption onto Mg-Fe-F Layered Double Hydroxide and its Fluoride Release in Aqueous Solution
p.37

HomeKey Engineering MaterialsKey Engineering Materials Vol. 720In Vitro Evaluation of Biomimetic Incorporation...

In Vitro Evaluation of Biomimetic Incorporation and Release Kinetics of BMP2 on Functionalized Bio-Oss^® Block

Abstract:

Objective: To functionalize the Bio-Oss^® Block with biomimetic coating incorporating BMP2 and evaluate the release kinetics of the incorporated BMP2 In Vitro.Materials and methods: Bio-Oss^® Blocks were prepared with the size of 7mm x 10mm x 4mm. Each block was immersed and suspended in 300ml 5-fold-concentrated modified Tyrode solution for 24 hours to form a seeding substratum. BMP2 at the concentration of 10ug/ml was added into 120ml supersaturated calcium phosphate solution and co-precipitated within the growing layer for 48 hours. The loading amount of incorporated BMP2 was determined using enzyme-linked immunosorbent assay . The surface characterization of the coating was evaluated by scanning electron microscopy. The distribution of coating-incorporated protein was mapped by a confocal laser-scanning microscope. BMP2 release profiles from the functionalized blocks under different circumstances were monitored. Results: The total loading of BMP2 in a BMP2-incorporated-block is 50.35 ± 6.41μg. The crystalline coating layer deposited on both the superficial surfaces and internal surfaces of the blocks. The BMP2 was distributed homogeneously in the whole block. The coating-incorporated depot of BMP2 barely released in Tris-HCl buffered solution (pH of 7.4). However, when the functionalized blocks were immersed in Citric acid-Sodium citrate buffered solution (pH of 5), or were co-cultured with osteoclasts, the coating-incorporated BMP2 depot showed a sustained release.Conclusions: BMP2 were successfully incorporated onto and into the Bio-Oss^® Blocks. A sustained delivery of a lower concentration of BMP2 (μg-BMP2) from Bio-Oss^® Block was achieved in acidic solution or with the mediation of osteoclasts.

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Key Engineering Materials (Volume 720)

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7-11

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https://doi.org/10.4028/www.scientific.net/KEM.720.7

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November 2016

Authors:

Fei Teng, Yue Lian Liu*

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Biomimetic Coating, BMP-2, Control Release

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