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首页> 外文期刊>Journal of materials science >Radiolabeled gelatin type B analogues can be used for non-invasive visualisation and quantification of protein coatings on 3D porous implants
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Radiolabeled gelatin type B analogues can be used for non-invasive visualisation and quantification of protein coatings on 3D porous implants

机译:放射性标记的B型明胶类似物可用于非侵入性可视化和定量3D多孔植入物上的蛋白涂层

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This study covers the quantification of the covalent attachment of gelatin type B (GelB) and the subsequent adsorption of Fibronectin (Fn) on poly-e-cap-rolactone (PCL) surfaces, functionalised with 2-aminoethyl methacrylate (AEMA) by means of post-plasma UV-irra-diation grafting. As typical surface characterisation tools do not allow quantification of deposited amounts of GelB or Fn, radiolabeled analogues were used for direct measurement of the amount of immobilized material. Bolton-Hunter GelB (BHG) and Fn were radioiodinated with 131I and ~(125)I respectively and S-Hynic GelB (SHG) was labeled with ~(99m)Tc. Immobilisation of ~(131)I-BHG or ~(99m)Tc-SHG on both PCL and PCL-AEMA scaffolds was performed in analogy with earlier work. SPECT images on scaffolds coated with ~(99m)Tc-SHG conjugates were acquired on a U-SPECT II camera. There was a clear difference in the amount of deposited ~(131)I-BHG between bianco and AEMA-grafted PCL on 2D samples. No significant differences in immobilization behaviour were observed between ~(99m)Tc-SHG and ~(131)I-BHG. Subsequent immobilisation of Fn was successful and depended on the amounts of deposited GelB. SPECT imaging on cylindrical 3D scaffolds confirmed these findings and showed that the amount of immobilized ~(99m)Tc-SHG was depth dependant. The architecture of the scaffolds strongly influences the distribution of GelB within these structures. Furthermore, there is a clear difference in the homogeneity of the protein coating when different GelB immobilization protocols were applied. This study shows that radiolabeled compounds are a rapid and accurate tool in the quantitative and qualitative evaluation of the biofunctionalisation of AEMA grafted PCL scaffolds.
机译:这项研究涵盖了B型明胶(GelB)的共价结合的定量以及随后纤连蛋白(Fn)在聚-ε-己内酯(PCL)表面的吸附,并通过甲基丙烯酸2-氨基乙基酯(AEMA)功能化等离子体后紫外线辐照接枝。由于典型的表面表征工具无法量化GelB或Fn的沉积量,因此使用放射性标记的类似物直接测量固定化材料的量。 Bolton-Hunter GelB(BHG)和Fn分别用131I和〜(125)I放射性碘标记,S-Hynic GelB(SHG)用〜(99m)Tc标记。与早期工作类似,在PCL和PCL-AEMA支架上固定〜(131)I-BHG或〜(99m)Tc-SHG。在U-SPECT II相机上获取涂有〜(99m)Tc-SHG共轭物的支架上的SPECT图像。在2D样品上,bianco和AEMA接枝的PCL之间的〜(131)I-BHG沉积量存在明显差异。在〜(99m)Tc-SHG和〜(131)I-BHG之间未观察到固定行为的显着差异。 Fn的后续固定成功,并且取决于沉积的GelB的量。在圆柱形3D支架上的SPECT成像证实了这些发现,并表明固定化的〜(99m)Tc-SHG的量取决于深度。支架的结构强烈影响这些结构中GelB的分布。此外,当应用不同的GelB固定方案时,蛋白质涂层的均质性存在明显差异。这项研究表明,放射性标记的化合物是定量和定性评估AEMA接枝PCL支架生物功能的快速准确的工具。

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  • 来源
    《Journal of materials science》 |2012年第8期|p.1961-1969|共9页
  • 作者

    Ken Kersemans; Tim Desmet; Christian Vanhove; Peter Dubruel; Filip De Vos;

  • 作者单位

    Laboratory for Radiopharmacy, Gent University,Harelbekestraat 72, 9000 Ghent, Belgium;

    Polymer Chemistry and Biomaterials Research Group,Gent University, Ghent, Belgium;

    Department IBITech-MEDISIP-INFINITY-GROUP-ID Consortium, Gent University, Ghent, Belgium;

    Polymer Chemistry and Biomaterials Research Group,Gent University, Ghent, Belgium;

    Laboratory for Radiopharmacy, Gent University,Harelbekestraat 72, 9000 Ghent, Belgium;

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