Method for layer-layer self-assembling and fixing biological active factor on tissue engineering material

A technology of bioactive factors and tissue engineering, applied in medical science, prostheses, etc., can solve the problems of bioactive factors losing their biological activity, unable to achieve stable fixation of bioactive factors, etc., and achieve the effect of good repeatability, simple and feasible process

Inactive Publication Date: 2004-07-28
ZHEJIANG UNIV
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  • Summary
  • Abstract
  • Description
  • Claims
  • Application Information

AI Technical Summary

Problems solved by technology

Simple physical adsorption cannot achieve the purpose of stably immobilizing bioactive factors

Method used

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  • Method for layer-layer self-assembling and fixing biological active factor on tissue engineering material
  • Method for layer-layer self-assembling and fixing biological active factor on tissue engineering material
  • Method for layer-layer self-assembling and fixing biological active factor on tissue engineering material

Examples

Experimental program
Comparison scheme
Effect test

Embodiment 1

[0027] Embodiment 1: UV-Vis spectrum characterizes the process of quartz surface layer-layer self-assembly basic fibroblast growth factor (bFGF) / chondroitin sulfate (CS)

[0028] Soak the quartz glass grafted with KH-550 in 3% acetic acid solution for 15 minutes to protonate (ie cationize) the amino groups on the surface of the quartz glass, and then put it into 0.1M chondroitin sulfate containing 1mg / ml Soak in NaCl solution for 15 minutes. The quartz glass assembled with a layer of chondroitin sulfate was put into 0.1M NaCl solution and rinsed 3 times for 2 minutes each time. After rinsing, the quartz glass was soaked in a PBS solution (pH 7.4) of 10 μg / ml rhodamine-labeled bFGF (Rd-bFGF) for 15 minutes, and then rinsed 3 times with PBS (pH 7.4), each time Rinse for 2 minutes. By repeating the above steps, a quartz glass surface assembled with multilayer bFGF / CS can be obtained. After each double layer was assembled, the absorption of Rd-bFGF at 560 nm was detected by UV-...

Embodiment 2

[0029] Example 2: The contact angle measurement instrument characterizes the process of quartz surface layer-layer self-assembly basic fibroblast growth factor (bFGF) / chondroitin sulfate (CS)

[0030] Soak the quartz glass grafted with KH-550 in 3% acetic acid solution for 15 minutes to protonate (ie cationize) the amino groups on the surface of the quartz glass, and then put it into 0.1M chondroitin sulfate containing 1mg / ml Soak in NaCl solution for 15 minutes. The quartz glass assembled with a layer of chondroitin sulfate was put into 0.1M NaCl solution and rinsed 3 times for 2 minutes each time. After rinsing, the quartz glass was soaked in 10 μg / ml bFGF in PBS solution (pH value 7.4) for 15 minutes, and then rinsed with PBS solution (pH value 7.4) for 3 times, each time for 2 minutes. By repeating the above steps, a quartz glass surface assembled with multilayer bFGF / CS can be obtained. Each assembled layer was measured with a surface tensiometer to measure the change o...

Embodiment 3

[0031] Embodiment 3: UV-visible spectrum evaluates the stability of basic fibroblast growth factor (bFGF) / chondroitin sulfate (CS) multilayer film on quartz surface

[0032] Soak the quartz glass grafted with KH-550 in 3% acetic acid solution for 15 minutes to protonate (ie cationize) the amino groups on the surface of the quartz glass, and then put it into 0.1M chondroitin sulfate containing 1mg / ml NaCl solution for 15 minutes. The quartz glass assembled with a layer of chondroitin sulfate was put into 0.1M NaCl solution and rinsed 3 times for 2 minutes each time. After rinsing, the quartz glass was soaked in a PBS solution (pH 7.4) of 10 μg / ml rhodamine-labeled bFGF (Rd-bFGF) for 15 minutes, and then rinsed 3 times with PBS (pH 7.4), each time Rinse for 2 minutes. Repeat the above steps to obtain a quartz glass surface with 10 layers of Rd-bFGF / CS assembled. Soak it in PBS buffer solution, measure the ultraviolet-visible absorption of Rd-bFGF on the quartz glass surface a...

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Abstract

The present invention discloses a method for fixing bioactive factor on tissue engineering material by adopting layer-layer self-assembling mode. The method utilizes the characteristics of that under the condition of a certain pH environment the natural bioactive factor is charged and adopts the layer-layer self-assembling mode of said bioactive factor and other polyelectrolyte with opposite charge to assemble the bioactive factor on the ionized material surface so as to obtain the tissue engineering material with biological activity. The method is suitable for modification of tissue engineering support with complex structure, and the constructed bioactive support can be extensively used in various tissue engineering fields.

Description

technical field [0001] The invention relates to bioactivation modification of tissue engineering materials, in particular to a method for immobilizing bioactive factors on tissue engineering materials by layer-layer self-assembly technology. Background technique [0002] Tissue engineering is an interdisciplinary research topic involving medicine, chemistry, biology, materials science and other disciplines and fields. In the study of tissue engineering, the effective fixation of bioactive factors to the surface of tissue engineering materials and the construction of bioactive scaffold materials are important links, which directly affect the proliferation and functional expression of target cells. Biologically active factors are a class of polypeptide substances that bind to specific, high-affinity receptors on cell membranes and ultimately stimulate cell proliferation and other biological effects. Their effects on target cells appear to be multifunctiona...

Claims

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Application Information

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IPC IPC(8): A61L27/40A61L27/54
Inventor 高长有马列周杰毛峥伟沈家骢
Owner ZHEJIANG UNIV
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