Preparation method of ice-induced microstructure soft tissue
A microstructure and soft body technology, applied in the field of bioengineering, can solve the problems such as the inability to use artificial organ soft body stents, increase the probability of biological stent contamination, prolong the stent production time, etc., achieve low preparation cost, reduce rejection immune response, and wide applicability Effect
Active Publication Date: 2015-03-18
西安博恩生物科技有限公司
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However, this method still has the following problems and deficiencies: First, it is necessary to design and manufacture the negative structure of the scaffold, which prolongs the production time of the scaffold and increases the cost; secondly, the scaffold needs to be treated at high temperature, which invisibly increases the probability of contamination of the biological scaffold ; Finally, the method cannot be used to fabricate soft scaffolds for artificial organs
However, this method still has the following problems and deficiencies: the internal three-dimensional channel structure of the living tissue prepared by this method cannot be completely satisfied, because it cannot bear the load before the internal channel structure is finalized, so the actual preparation There is still a big difference between the channel structure in the process and the pre-designed three-dimensional channel structure; in addition, there is still some difficulty in direct forming of the channel, and the internal channel of the soft support has certain requirements for the channel size
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[0021] Specific implementation examples
[0022] In this embodiment, taking liver soft tissue as an example of preparation, a method for preparing ice-induced microstructure soft tissue is described, which specifically includes the following steps:
[0023] Step 1, use CAD software to design the tissue model that needs to be prepared and has the network microstructure of the hepatic soft tissue channel;
[0024] Step 2, inputting the model data constructed in step 1 into the rapid prototyping machine, and utilizing the rapid prototyping technology to manufacture a resin mold with a channel microstructure;
[0025] Step 3, filling the resin mold obtained in step 2 with pure water, and peeling off the resin mold after freezing at -5°C, so as to obtain an ice-induced mold with a channel microstructure;
[0026] Step 4. Take 1.0×10 6 Individual patient liver tissue cells were cultured, and the cell culture medium was high-sugar DMEM medium, and 10ml of fetal bovine serum, 29.2mg...
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The invention discloses a preparation method of an ice-induced microstructure soft tissue, and belongs to the field of biological tissue engineering. The method comprises the steps of firstly, designing a model with a soft tissue channel mesh microstructure; preparing a resin die with the channel microstructure by a material increase manufacturing technology; pouring pure water into the resin die and stripping after freezing, so as to obtain an ice-induced die with the channel microstructure; finally pouring PVA (polyvinyl alcohol) hydrogel with tissue living cells, growth factors and the like configured in advance into an ice-induced die system at low temperature; putting in an environment at 5-10 DEG C after stably molding until the ice-induced channel is slowly and completely molten, and finally obtaining the soft tissue with the channel microstructure. The situation that the channel structure does not deform because of external effects before being molded is ensured by the method; pollution to an original body tissue caused by high-temperature treatment is avoided; and the preparation process is simple and easy to operate, low in preparation method and wide in applicability.
Description
Technical field: [0001] The invention relates to a preparation method of artificial organ soft tissue used for organ replacement in the body. The method is a preparation method of tissue engineering three-dimensional soft tissue and belongs to the technical field of bioengineering. Background technique: [0002] There are tens of millions of patients suffering from tissue defect or organ failure every year in the world, and about 8 million of these patients are treated with surgery every year in the United States alone. However, the most effective way to solve this problem is artificial replacement of defective organs. There are two main approaches to artificially replace organisms: one is to use autologous or allogeneic organ transplantation, however, the shortage and rejection of donors have always restricted tissue and organ transplantation; the other is to use artificial organs. Traditional artificial organs are usually made of metal, ceramic or polymer materials. Due ...
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IPC IPC(8): A61L27/38A61L27/16A61F2/02
Inventor 汪焰恩魏庆华潘飞龙叶东东龙水军毛海龙郭叶李欣培李川川张磊杨明明魏生民
Owner 西安博恩生物科技有限公司