CN106010966B - Multidirectional tissue engineering porous material perfusion system - Google Patents

Abstract

The invention discloses a multidirectional tissue engineering porous material perfusion system which comprises a nutrient solution container, a first conduit, a first perfusion cavity joint, a perfusion cavity, an outer sleeve, first negative pressure equipment, a negative pressure conduit and a tissue engineering porous material. According to the invention, the tissue engineering porous material is arranged in the perfusion cavity, and the nutrient solution flows in the perfusion cavity through the negative pressure equipment, so that the pressure contact between the tissue engineering porous material and the nutrient solution is realized, and the speed and the uniformity of the tissue engineering porous material for absorbing the nutrient solution are greatly improved; the multistage pump is adopted, so that the liquid bearing size of the tissue engineering porous material in the perfusion cavity can be adjusted, and the speed of the tissue engineering porous material for absorbing nutrient solution is controlled.

Description

System is perfused in multi-direction organizational project porous material

Technical field

The present invention relates to tissue engineering technique field, a kind of specifically multi-direction organizational project porous material perfusion is System.

Background technique

Tissue/organ Regeneration and Repair is carried out with organizational project principle building bio-imitability organizational project reparation/graft materials It is current research hotspot.Its basic principle are as follows: imitative with structure by the preparation of the complex arts such as physics, chemistry, biology first Tissue engineering bracket/repair materials of natural disposition, usually porous material；Secondly porous material is dipped to can promote regeneration Nutrient solution in, such as certain extracellular matrixs (extracellular matrix, ECM), neurotrophic factor, drug Or the solution or mixed solution of stem cell, so that organizational project porous material is obtained biological activity bionic；It finally will be obtained bionical Property tissue engineering material be implanted to defect/injured tissue site and carry out tissue repair, or by obtained bio-imitability tissue engineering material After planting target cell, cell culture is carried out in vitro and is implanted to defect/injured tissue site again after a certain period of time.

In the prior art, the method for carrying out nutriment load or cell seeding to organizational project porous material mainly will Organizational project porous material is immersed in progress nature absorption carriage in nutrient solution.Using such mode, organizational project is more Porous materials and nutrient solution are mainly completed to load by passive adsorption effect, it is contemplated that the various porous materials of organizational project The pore size of material is different, the different property of shape, this mode of loading, is typically difficult to bear nutriment sufficiently, uniformly, effectively It is loaded in organizational project porous material, and loading speed is slow, nutriment load effect is not achieved.Especially for containing longitudinal hole The porous ability of organizational project in channel and lateral hole, load efficiency, effect are worse.

It is accordingly required in particular to system is perfused in a kind of nutriment or Cell infusion organizational project porous material, it is existing to solve There is the problem of technology.

Summary of the invention

The purpose of the present invention is to solve in the prior art, organizational project porous material culture speed is slowly and non-uniform Defect provides a kind of multi-direction organizational project porous material perfusion system, to solve problems of the prior art.

To achieve the above object, technical scheme is as follows:

A kind of multi-direction organizational project porous material perfusion system, including reservoir, the first conduit, the first filling cavity Connector, filling cavity, outer tube, the first negative pressure equipment, negative pressure catheter and organizational project porous material, the reservoir connection One end of first conduit, the other end of first conduit pass through one end of the first filling cavity fittings filling cavity, the filling It is arranged outer tube on the outside of note chamber, forms a negative pressure cavity, institute between the inside portion of the outer tube and the outside portion of filling cavity It states and multiple holes for making to be connected to inside negative pressure cavity and filling cavity is set on the side of filling cavity, one end connection of the negative pressure catheter is negative Chamber is pressed, the first negative pressure equipment is arranged in the other end, and first negative pressure equipment leads nutrient solution in reservoir successively by first Pipe, filling cavity, hole and negative pressure cavity are flow in negative pressure catheter, and organizational project porous material is arranged in the filling cavity.

In the present invention, further include the second filling cavity connector, the second conduit and the second negative pressure equipment, the filling cavity it is another One end passes through one end of second the second conduit of filling cavity fittings, and second negative pressure equipment makes nutrient solution in reservoir It is flowed into the second conduit by the first conduit by filling cavity.

It in the present invention, further include third conduit, first negative pressure equipment is the first peristaltic pump, first peristaltic pump Comprising the first inlet and the first liquid outlet, the other end of the first inlet connection negative pressure catheter of first peristaltic pump, the One liquid outlet is connected to one end of third conduit, and the other end of the third conduit is connected to reservoir.

In the present invention, first peristaltic pump is multistage peristaltic pump.

It in the present invention, further include the 4th conduit, second negative pressure equipment is the second peristaltic pump, second peristaltic pump Comprising the second inlet and the second liquid outlet, the second inlet of second peristaltic pump is connected to the other end of the second conduit, the Two liquid outlets are connected to one end of the 4th conduit, and the other end of the 4th conduit is connected to reservoir.

It in the present invention, further include returnable bottle, the other end setting of the other end and/or negative pressure catheter of second conduit Returnable bottle, the negative pressure catheter and the second conduit are respectively communicated with returnable bottle.

In the present invention, in the filling cavity, organizational project porous material is arranged in the first filling cavity connector and second Between filling cavity connector.

In the present invention, the organizational project porous material includes positioned at the first end of filling cavity one end and positioned at perfusion The second end of the chamber other end, the first end and the second end of the organizational project porous material are tightly attached in filling cavity respectively On wall, the first filling cavity connector and the second filling cavity connector pass through the first end and of organizational project porous material respectively Two ends connect filling cavity.

In the present invention, the first filling cavity connector and the second filling cavity connector pass through organizational project porous material respectively First end and the second end clamping and/or be threadedly coupled filling cavity.

In the present invention, the first filling cavity connector and the second filling cavity connector separately include tapered pole, and described first Filling cavity connector and the second filling cavity connector pass through tapered pole respectively and connect filling cavity.

Beneficial effect

1, organizational project porous material is arranged in filling cavity the present invention, and nutrient solution is being perfused by negative pressure equipment flowing It is intracavitary, realize the pressure contact between organizational project porous material and nutrient solution, and then greatly improve organizational project porous material Absorb the speed and the uniformity of nutrient solution；

2, multiple holes on the side of filling cavity permeate nutrient solution through hole, reach organizational project porous material and longitudinally soak The effect of bubble；

3, using multistage pump, the size that organizational project porous material bears liquid in filling cavity, Jin Er can be adjusted Its speed for absorbing nutrient solution is controlled in organizational project porous material.

Detailed description of the invention

Fig. 1 the structural representation of present invention；

Fig. 2 is the structural schematic diagram in the portion A of Fig. 1；

The structural schematic diagram for the organizational project porous material being arranged in Fig. 3 filling cavity of the present invention；

Fig. 4 is the perspective view of Fig. 1；

Fig. 5 present invention uses schematic diagram when peristaltic pump structure；

Schematic diagram when Fig. 6 present invention is using recycling bottle structure.

In figure: 1, reservoir；2, the first conduit；3, the first filling cavity connector；4, filling cavity；5, outer tube；6, One negative pressure equipment；7, negative pressure catheter；8, organizational project porous material；9, negative pressure cavity；10, hole；11, the second conduit；12, second is negative Press equipment；13, third conduit；14, the first inlet；15, the first liquid outlet；16, the 4th conduit；17, the second inlet；18, Second liquid outlet；19, returnable bottle；20, the second filling cavity connector.

Specific embodiment

In the view of whole attached drawings, corresponding reference symbol indicates corresponding component.

A kind of multi-direction organizational project porous material perfusion system, including the perfusion of reservoir 1, the first conduit 2, first Chamber connector 3, filling cavity 4, outer tube 5, the first negative pressure equipment 6, negative pressure catheter 7 and organizational project porous material 8.

Reservoir 1 is connected to one end of the first conduit 2, and the other end of the first conduit 2 is connected by the first filling cavity connector 3 One end of logical filling cavity 4, the outside of filling cavity 4 is arranged outer tube 5, between the inside portion of outer tube 5 and the outside portion of filling cavity 4 A negative pressure cavity 9 is formed, multiple holes 10 for making to be connected to inside negative pressure cavity 9 and filling cavity 4, negative pressure are set on the side of filling cavity 4 One end of conduit 7 is connected to negative pressure cavity 9, and the first negative pressure equipment 6 is arranged in the other end, and the first negative pressure equipment 6 makes battalion in reservoir 1 Nutrient solution is successively flow in negative pressure catheter 7 by the first conduit 2, filling cavity 4, hole 10 and negative pressure cavity 9, setting group weaver in filling cavity 4 Journey porous material 8.

Organizational project porous material 8 is arranged in filling cavity 4 present invention, and nutrient solution is being perfused by negative pressure equipment flowing In chamber 4, the pressure contact between organizational project porous material 8 and nutrient solution is realized, and then greatly improve the porous material of organizational project Material 8 absorbs the speed and the uniformity of nutrient solution；

Multiple holes 10 on the side of filling cavity 4 permeate nutrient solution through hole 10, and it is vertical to reach organizational project porous material 8 To the effect of immersion.

Embodiment 1

System is perfused in multi-direction organizational project porous material, further includes the second filling cavity connector 20, the second conduit 11 and the Two negative pressure equipments 12, the other end of filling cavity 4 are connected to one end of the second conduit 11, the second negative pressure by the second filling cavity connector 20 Equipment 12 flows into nutrient solution in reservoir 1 in second conduit 11 by filling cavity 4 by the first conduit 2, reaches a group weaver The effect that journey porous material 8 laterally impregnates.

Embodiment 2

System is perfused in multi-direction organizational project porous material, further includes third conduit 13, and the first negative pressure equipment 6 is first compacted Dynamic pump, the first peristaltic pump include the first inlet 14 and the first liquid outlet 15, and the first inlet 14 connection of the first peristaltic pump is negative The other end of conduit 7 is pressed, the first liquid outlet 15 is connected to one end of third conduit 13, and the other end of third conduit 13 is connected to nutrient solution Container 1.

First peristaltic pump is multistage peristaltic pump；Using multistage pump and multistage peristaltic pump structure structure, a group weaver can be adjusted Journey porous material bears the size of fluid pressure in filling cavity, and then controls it in organizational project porous material and absorb nutrition The speed of liquid.

Embodiment 3

System is perfused in multi-direction organizational project porous material, further includes the 4th conduit 16, and the second negative pressure equipment 12 is second Peristaltic pump, the second peristaltic pump include the second inlet 17 and the second liquid outlet 18, and the second inlet 17 of the second peristaltic pump is connected to The other end of second conduit 11, the second liquid outlet 18 are connected to one end of the 4th conduit 16, and the other end of the 4th conduit 16 is connected to battalion Nutrient solution container 1 achievees the effect that nutrient solution is recycled.

Embodiment 4

System is perfused in multi-direction organizational project porous material, further includes returnable bottle 19, the other end of the second conduit 11 and/or Returnable bottle 19 is arranged in the other end of negative pressure catheter 7, and negative pressure catheter 7 is connected to returnable bottle by conduit 21 respectively with the second conduit 11 19。

In filling cavity 4, organizational project porous material 8 is arranged in the first filling cavity connector 3 and the second filling cavity connector 20 Between.

In preferred embodiment:

Organizational project porous material 8 includes the first end positioned at 4 one end of filling cavity and the positioned at 4 other end of filling cavity Two ends, the first end and the second end of organizational project porous material 8 are tightly attached to 4 inner wall of filling cavity, outer wall, filling cavity respectively On 4 other end of 4 one end and/or filling cavity, the first filling cavity connector 3 and the second filling cavity connector 20 are more by organizational project respectively The first end of Porous materials 8 connects filling cavity 4 with the second end.

In preferred embodiment, the first filling cavity connector 3 and the second filling cavity connector 20 are more by organizational project respectively The first end and the second end of Porous materials 8 are clamped and/or are threadedly coupled filling cavity 4.

First filling cavity connector 3 and the second filling cavity connector 20 separately include tapered pole, the first filling cavity connector 3 and second Filling cavity connector 20 connects filling cavity 4 by tapered pole respectively, achievees the effect that facilitate connection and be fastenedly connected.

Identical negative pressure structure or different negative pressure knots can be used in the present invention, the first negative pressure equipment 6 and the second negative pressure equipment Structure all can reach the perfusion on different directions.

This hair can be understood and used the above description of the embodiments is intended to facilitate those skilled in the art It is bright.Person skilled in the art obviously easily can make various modifications to these embodiments, and described herein General Principle is applied in other embodiments without having to go through creative labor.Therefore, the present invention is not limited to the above embodiments, Those skilled in the art's announcement according to the present invention, improvement and modification made without departing from the scope of the present invention all should be in this hairs Within bright protection scope.

Claims (10)

1. system is perfused in a kind of multi-direction organizational project porous material, it is characterised in that: including reservoir, the first conduit, First filling cavity connector, filling cavity, outer tube, the first negative pressure equipment, negative pressure catheter and organizational project porous material, the nutrition Liquid container is connected to one end of the first conduit, and the other end of first conduit passes through the one of the first filling cavity fittings filling cavity It holds, is arranged outer tube on the outside of the filling cavity, form one between the inside portion of the outer tube and the outside portion of filling cavity Multiple holes for making to be connected to inside negative pressure cavity and filling cavity are arranged on the side of the filling cavity for negative pressure cavity, the negative pressure catheter One end is connected to negative pressure cavity, and the other end is arranged the first negative pressure equipment, first negative pressure equipment make in reservoir nutrient solution according to It is secondary to be flow in negative pressure catheter by the first conduit, filling cavity, hole and negative pressure cavity, organizational project porous material is set in the filling cavity Material.

2. system is perfused in multi-direction organizational project porous material according to claim 1, it is characterised in that: further include second Filling cavity connector, the second conduit and the second negative pressure equipment, the other end of the filling cavity pass through the second filling cavity fittings the One end of two conduits, second negative pressure equipment make in reservoir nutrient solution pass through filling cavity by the first conduit to flow into second In conduit.

3. system is perfused in multi-direction organizational project porous material according to claim 1, it is characterised in that: further include third Conduit, first negative pressure equipment are the first peristaltic pump, and first peristaltic pump includes the first inlet and the first liquid outlet, institute The other end of the first inlet connection negative pressure catheter of the first peristaltic pump is stated, the first liquid outlet is connected to one end of third conduit, institute State the other end connection reservoir of third conduit.

4. system is perfused in multi-direction organizational project porous material according to claim 3, it is characterised in that: described first is compacted Dynamic pump is multistage peristaltic pump.

5. system is perfused in multi-direction organizational project porous material according to claim 2, it is characterised in that: further include the 4th Conduit, second negative pressure equipment are the second peristaltic pump, and second peristaltic pump includes the second inlet and the second liquid outlet, institute The second inlet for stating the second peristaltic pump is connected to the other end of the second conduit, and the second liquid outlet is connected to one end of the 4th conduit, institute State the other end connection reservoir of the 4th conduit.

6. system is perfused in multi-direction organizational project porous material according to claim 2, it is characterised in that: further include recycling Returnable bottle, the negative pressure catheter and the second conduit is arranged in bottle, the other end of second conduit and/or the other end of negative pressure catheter It is respectively communicated with returnable bottle.

7. system is perfused in multi-direction organizational project porous material according to any one of claims 1 to 6, it is characterised in that: In the filling cavity, organizational project porous material is arranged between the first filling cavity connector and the second filling cavity connector.

8. system is perfused in multi-direction organizational project porous material according to any one of claims 1 to 6, it is characterised in that: institute Stating organizational project porous material includes the second end positioned at the first end of filling cavity one end and positioned at the filling cavity other end, institute The first end and the second end for stating organizational project porous material are tightly attached to respectively on perfusion cavity wall, and first filling cavity connects The first end that head passes through organizational project porous material with the second filling cavity connector respectively connects filling cavity with the second end.

9. system is perfused in multi-direction organizational project porous material according to claim 8, it is characterised in that: described first fills Note chamber connector and the second filling cavity connector pass through respectively organizational project porous material first end and the second end clamping and/or It is threadedly coupled filling cavity.

10. system is perfused in multi-direction organizational project porous material according to claim 8, it is characterised in that: described first Filling cavity connector and the second filling cavity connector separately include tapered pole, the first filling cavity connector and the second filling cavity connector point Filling cavity is not connected by tapered pole.