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Method for preparing micro-nano gel microspheres based on metastable emulsion

A technology of gel microspheres and metastable states, applied in the field of bioengineering, can solve the problems of low material transfer rate and transfer distance, increase of microgel preparation steps and costs, and inactivation of active substances

Active Publication Date: 2021-03-16
DALIAN UNIV OF TECH
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  • Summary
  • Abstract
  • Description
  • Claims
  • Application Information

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Problems solved by technology

Although these hydrogels have been widely used in various bioengineering fields, there are still many problems to be solved in their application forms based on traditional hydrogels: bulk hydrogels are large in size, and despite their porous structure, their The internal material transfer rate and transfer distance are still relatively low, resulting in a low survival rate of the internally encapsulated cells due to insufficient nutrients, or the internally encapsulated bioactive molecules cannot be released uniformly, effectively and completely
[0011] 1) The ionic surfactant itself has a certain water solubility. After a small amount of dissolution, it will directly affect the cell membrane or other active substances, resulting in cell death or inactivation of active substances, so it is not suitable for encapsulating cells or biologically active substances. use
[0012] 2) Nonionic surfactants have large molecules and poor water solubility, so they have relatively little impact on the activity of cells or biologically active substances; at the same time, their large molecular volumes lead to enhanced Gibbs-Marangoni effects, making it difficult to form droplets. elution, resulting in difficult and cumbersome demulsification operations during product recovery; on the other hand, although its water solubility is poor, its lipophilic properties still allow it to react with some biologically active substances with similar molecular forms, thus limiting its use in Application in the encapsulation of corresponding substances
However, its production process is cumbersome and costly. At the same time, the stability of the emulsion is extremely strong, which increases the operation steps and cost of microgel preparation, and limits the possibility of forming a continuous production process. Therefore, there are certain limitations in practical application and continuous expansion of production. application restrictions
[0014] 4) The two-step method based on the existing surfactant to prepare the microgel is cumbersome, and the emulsification and cross-linking conditions are harsh, so it has a great impact on the activity of cells or encapsulated substances, and the multi-step production process is also difficult. Not suitable for expanded production and large-scale application
The existing methods to increase the curing time window have higher requirements on the droplet production device, and also face the problem of high basic cost in terms of process scale-up

Method used

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  • Method for preparing micro-nano gel microspheres based on metastable emulsion
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  • Method for preparing micro-nano gel microspheres based on metastable emulsion

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Embodiment 1

[0074] Such as figure 1 Shown, a small amount of fluorinated surfactant listed in the present invention adds and can significantly reduce interfacial tension between water and oil, use as figure 2 The micro-channels shown are used to prepare microgels, in which ① connect to the first input channel, input alginic acid prepolymer solution, ② connect to the second input channel, input the oil phase containing acid and surfactant, ③ connect to the third input channel , input pure water or buffer solution; ④ connect the output channel. The surface of the inner wall of the microchannel is all subjected to hydrophobic treatment.

[0075] Dissolve sodium alginate and calcium ethylenediaminetetraacetic acid (Ca-EDTA) in deionized water to prepare an alginate hydrogel prepolymer solution with a sodium alginate content of 1w / v% and a final concentration of calcium ions of 50mM as The water phase enters the water phase channel from the first input channel. Add 1H, 1H, 2H, 2H-perfluoro...

Embodiment 2

[0085] use as figure 2 The micro-channels shown are used to prepare microgels, in which ① connect to the first input channel, input alginic acid prepolymer solution, ② connect to the second input channel, input the oil phase containing acid and surfactant, ③ connect to the third input channel , input pure water or buffer solution; ④ connect the output channel. The surface of the inner wall of the microchannel is all subjected to hydrophobic treatment.

[0086] Dissolve sodium alginate and calcium ethylenediaminetetraacetic acid (Ca-EDTA) in deionized water to prepare an alginic acid hydrogel prepolymer with a sodium alginate content of 1w / v% and a final calcium ion concentration of 50mM; above Configure the prepolymer solution as the water phase to enter the water phase channel from the first input channel. Add 1H, 1H, 2H, 2H-perfluoro-1-octanol and acetic acid into Novec HFE7100 and enter the second input channel as the oil phase and enter the oil phase channel ②. The con...

Embodiment 3

[0088] use as figure 2 The micro-channels shown are used to prepare microgels, in which ① connect to the first input channel, input alginic acid prepolymer solution, ② connect to the second input channel, input the oil phase containing acid and surfactant, ③ connect to the third input channel , input pure water or buffer solution; ④ connect the output channel. The surface of the inner wall of the microchannel is all subjected to hydrophobic treatment.

[0089] In order to prove that amphoteric fluoride molecules with different chain lengths have the ability to produce microgel particles, sodium alginate and calcium ethylenediaminetetraacetic acid (Ca-EDTA) were dissolved in deionized water to prepare a sodium alginate content of 1w / v% , the alginic acid hydrogel prepolymer with a final calcium ion concentration of 50 mM; the prepolymer solution configured above as the water phase enters the water phase channel from the first input channel. After adding different kinds of fl...

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Abstract

The invention belongs to the field of bioengineering, and relates to a method for preparing micro-nano gel microspheres based on metastable emulsion. According to the method, a fluorinated water-in-oil emulsion is stabilized by using a short-chain surfactant of which one end is fluorophilic and the other end is hydrophilic, so that metastable emulsion droplets can be obtained within a short time of less than 1 second, then the droplets tend to be fused, and the emulsion is demulsified. A hydrogel prepolymer is cured in a water phase in a droplet stabilization time window to obtain gel microspheres. After the emulsion droplet system is subjected to spontaneous demulsification, the water phase and the oil phase are automatically separated, and the gel microspheres are spontaneously dispersedin the water phase. The method provided by the invention can greatly simplify an emulsion droplet technology, including a microfluidic droplet technology, a traditional water-oil two-phase droplet technology and a preparation process for preparing the hydrogel microspheres, avoids the problem that cleaning and demulsification are needed after stable emulsion droplets are prepared by a traditionalmethod, and realizes one-step preparation and separation of the hydrogel microspheres. The method is of great significance to large-scale amplification production of the gel microspheres.

Description

technical field [0001] The invention belongs to the field of bioengineering, and relates to a metastable emulsion system and a method for preparing micro-nano gel particles loaded with bioactive substances. Background technique [0002] Hydrogel materials have gradually become a very important biomaterial in the field of biomedicine. It is a cross-linked network composed of polymers that are insoluble in water but swellable in water. Similar to human tissue, it has abundant water-containing pores. structure. Such a porous structure is similar to human tissue and is very conducive to material exchange. At the same time, some hydrogel materials themselves are derived from biomacromolecules, have good biocompatibility, and have mild gelation conditions, so such materials are widely used for the encapsulation of living cells and bioactive substances. Although these hydrogels have been widely used in various bioengineering fields, there are still many problems to be solved in t...

Claims

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Application Information

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IPC IPC(8): B01J13/00B01J13/02
CPCB01J13/0052B01J13/02
Inventor 王华楠张昊岳
Owner DALIAN UNIV OF TECH
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