Collagen-based biomedical material by taking dialdehyde polyethylene glycol as cross-linking agent and preparation method thereof

A technology of dialdehyde polyethylene glycol and biomedical material, which is applied in the fields of medical science, absorbent pads, prostheses, etc., can solve the problems of limited improvement, no dialdehyde polyethylene glycol and collagen, and poor structural stability. Achieve improved mechanical properties, good ability to absorb and retain moisture, and improved thermal stability

Active Publication Date: 2015-01-07
SICHUAN UNIV
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  • Summary
  • Abstract
  • Description
  • Claims
  • Application Information

AI Technical Summary

Problems solved by technology

Chemical cross-linking agents such as glutaraldehyde (CN13187923A) can effectively improve the performance of collagen to meet the requirements of tissue functional scaffold materials, but the Schiff base produced by the reaction of small molecule aldehydes with collagen has poor structural stability, which easily leads to the formation of free small molecule aldehydes. produced, thus limiting the application in the biomedical field
CN101234216A reports that although collagen-chitosan blending modification can improve the mechanical strength and thermal properties of collagen, the degree of improvement is limited due to the interaction of secondary valence bonds such as hydrogen bonds
So far, there are no literature and patent reports about the use of dialdehyde polyethylene glycol and collagen in the preparation of biomedical materials

Method used

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Examples

Experimental program
Comparison scheme
Effect test

Embodiment 1

[0026] Take 5mL of dimethyl sulfoxide and 0.475mL of acetic anhydride respectively in a weighing bottle, pass through nitrogen gas to exhaust oxygen, seal it, place it under magnetic force at a constant speed for 30min at room temperature, then add 1.0g of polyethylene glycol to it and seal it, React at room temperature for 4 hours, pour the reaction solution into glacial ether to precipitate, and redissolve the obtained white precipitate in dichloromethane, pour it into glacial ether again to precipitate, repeat the operation 3 times, and place the obtained white precipitate at –0.08 MPa, 40 DEG C in a vacuum drying oven for 8 hours to obtain the dialdehyde polyethylene glycol product. Mix the dialdehyde polyethylene glycol solution with a mass fraction of 1% and the collagen solution with a mass fraction of 0.3%, wherein the dry weight ratio of dialdehyde polyethylene glycol to collagen is 1:30, and pour the mixed solution into the mold freeze at -20°C for 3 days, and then f...

Embodiment 2

[0028] Take 5mL of dimethyl sulfoxide and 0.95mL of acetic anhydride respectively in a weighing bottle, pass through nitrogen gas to exhaust oxygen, seal it, place it under magnetic force at room temperature and stir it at a constant speed for 30min, then add 1.0g of polyethylene glycol to it and seal it, React at room temperature for 6 hours, pour the reaction solution into glacial ether for precipitation, redissolve the obtained white precipitate in dichloromethane, pour it into glacial ether again for precipitation, repeat the operation 3 times, and place the obtained white precipitate at –0.08 MPa, 40°C in a vacuum drying oven for 10 hours to obtain the dialdehyde polyethylene glycol product. Mix the dialdehyde polyethylene glycol solution with a mass fraction of 2% and the collagen solution with a mass fraction of 0.8%, wherein the dry weight ratio of dialdehyde polyethylene glycol to collagen is 1:50, and pour the mixed solution into the mold freeze at -20°C for 5 days, ...

Embodiment 3

[0030] Take 5mL of dimethyl sulfoxide and 1.425mL of acetic anhydride respectively in a weighing bottle, pass through nitrogen gas to exhaust oxygen, seal it, place it under magnetic force at room temperature and stir it at a constant speed for 30min, then add 1.0g polyethylene glycol to it and seal it, React at room temperature for 2 hours, pour the reaction solution into glacial ether to precipitate, and redissolve the obtained white precipitate in dichloromethane, then pour it into glacial ether again to precipitate, repeat the operation 3 times, and put the obtained white precipitate into – Dry in a vacuum oven at 0.08MPa and 40°C for 10 hours to obtain the dialdehyde polyethylene glycol product. Add the dialdehyde polyethylene glycol aqueous solution with a mass fraction of 5% dropwise into the collagen aqueous solution with a mass fraction of 1%, wherein the dry weight ratio of dialdehyde polyethylene glycol to collagen is 1:70, and pour the mixed solution into the mold ...

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PUM

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Abstract

The invention provides a collagen-based biomedical material by taking dialdehyde polyethylene glycol as a cross-linking agent and a preparation method thereof. The preparation method disclosed by the invention comprises the following steps of: preparing dialdehyde polyethylene glycol having a certain hydroformylation degree at first, uniformly mixing dialdehyde polyethylene glycol solution with the mass fraction of 0.1-5% with collagen solution with the mass fraction of 0.3-3%, then, pouring into a mould, freezing at -30-0 DEG C for 1-10 days, taking out, and freeze-drying in a freeze-drying machine for 1-2 days to obtain dialdehyde polyethylene glycol-collagen sponge; and repetitively immersing the sponge in water for 2-4 times, each time for 2-10 h to obtain dialdehyde polyethylene glycol-collagen hydrogel. According to the invention, a freezing polymerizing technology and a freeze drying technology are combined; the mechanical property, the thermal stability and the enzymatic degradation resistant property of collagen are improved by the prepared dialdehyde polyethylene glycol collagen sponge or gel; furthermore, the collagen-based biomedical material disclosed by the invention has the advantages of porosity, hydrophilia, water-retaining property, nontoxicity, good biocompatibility and the like, can be used in the biomedical fields, such as biological scaffolds, cell culture, drug release, burn and wound dressing and the like, and has good market application prospect.

Description

technical field [0001] The invention relates to the field of preparation of biomedical materials, in particular, to a collagen with dialdehyde polyethylene glycol as a crosslinking agent having porosity, hydrophilicity, water absorption and water retention, non-toxicity and good biocompatibility Based biomedical materials and preparation methods thereof. Background technique [0002] In natural protein materials, collagen is a very important animal protein. Due to its good biocompatibility, biodegradability and low immunogenicity, collagen-based materials are widely used in biomedicine and field of biotechnology. However, the mechanical properties, thermal stability, and enzymatic degradation resistance of biomedical materials prepared from collagen alone often cannot meet the requirements of the application; especially the low mechanical properties of collagen usually make it used in the preparation of tissue engineering The stent cannot maintain a relatively fixed shape ...

Claims

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Application Information

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Patent Type & Authority Applications(China)
IPC IPC(8): C08J3/24C08J9/28C08L89/00A61L27/24A61L27/56A61L27/52A61L15/32A61L15/42
Inventor 林炜周晓媛王春华穆畅道
Owner SICHUAN UNIV
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