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Transwell cell culture device capable of simulating stress effects on vascular walls

A technology for simulating blood vessels and cells, which is used in tissue cell/virus culture devices, methods of stress-stimulating microbial growth, and biochemical instruments. Observation, time saving, cost saving effect

Active Publication Date: 2018-08-21
张洪剑
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  • Summary
  • Abstract
  • Description
  • Claims
  • Application Information

AI Technical Summary

Problems solved by technology

[0005] In view of the above existing problems, the present invention provides a transwell cell culture device that simulates the stress on the blood vessel wall to solve the problem that the culture plate in the prior art cannot simulate the stress on the blood vessel wall, and can quickly and easily simulate bleeding The stress on the vessel wall is convenient for researchers to compare and observe the cells in the co-culture system under different forces on the vessel wall, filling the gap in this field at home and abroad

Method used

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  • Transwell cell culture device capable of simulating stress effects on vascular walls
  • Transwell cell culture device capable of simulating stress effects on vascular walls
  • Transwell cell culture device capable of simulating stress effects on vascular walls

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Embodiment 1

[0019] like Figure 1~3 As shown: the transwell cell culture device provided in Example 1 of the present invention to simulate the force acting on the blood vessel wall, including a base 1 and a cover plate 2, the base 1 is closely attached to the cover plate 2, and the cover plate 2 is attached to the base 1 is provided with a groove 21 on one side, and the groove 21 and the base 1 form a cavity 3 for liquid circulation; the device has an "L"-shaped bending part 11 and a "one"-shaped straight part in cross-section 12 and a T-shaped portion 13 with a "T" shape in section;

[0020] The shape of the cavity 3 at the bent portion 11, the straight portion 12 and the T-shaped portion 13 matches the bent portion 11, the straight portion 12 and the T-shaped portion 13;

[0021] At the bending portion 11, the cover plate 2 is provided with a Petri dish hole 1 22;

[0022] At the straight line portion 12, the cover plate 2 is provided with a petri dish hole 2 23;

[0023] At the T-sh...

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Abstract

The invention provides a transwell cell culture device capable of simulating stress effects on vascular walls and belongs to a medical experiment device. The device comprises multiple culture dish holes, a cavity arranged inside and used for liquid circulation, multiple water inlets communicated with the cavity and multiple water outlets communicated with the cavity, wherein the bottoms of the culture dish holes are communicated with the cavity. The transwell cell culture device capable of simulating vascular wall stress effects at least comprises a bent part with an L-shaped section, a straight part with an I-shaped section and a T-shaped part with a T-shaped section; one culture dish hole is correspondingly formed in each of the bent part, the straight part and the T-shaped part; the part, located at the bent part, of the cavity is in the L shape consistent with the bent part; the part, located at the straight part, of the cavity is in an I shape consistent with the straight part; the part, located at the T-shaped part, of the cavity is in the T shape consistent with the T-shaped part. The device can quickly and conveniently simulate the stress effects on the vascular walls, so that researchers can compare and observe the cell condition of a co-culture system under different stress effects on the vascular walls.

Description

technical field [0001] The invention relates to a medical experiment device, in particular to a transwell cell culture device for simulating the force acting on a blood vessel wall. Background technique [0002] The co-culture system is to establish a culture system similar to the in vivo environment, and make the in vitro environment as consistent as possible with the in vivo environment, so that cells can communicate with each other and support each other for reproduction. [0003] In the existing co-culture technology, the combination of transwell chamber and culture plate is usually used to establish a co-culture system to conduct research on co-culture, cell chemotaxis, cell migration, and cell invasion. [0004] The culture plate in the prior art has a single structure and cannot simulate the cell conditions in the co-culture model under the force of the blood vessel wall, resulting in a large difference between the experimental results and the real results. Contents...

Claims

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Application Information

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Patent Type & Authority Applications(China)
IPC IPC(8): C12M3/00
CPCC12M23/38C12M23/48C12M35/08C12M41/46
Inventor 张洪剑杨鹏飞赵瑞骆银赵普远王川川李嘉楠冯明陶唐海双
Owner 张洪剑
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