CN202631531U - Perfusion microscope - Google Patents

Abstract

The utility model discloses a perfusion microscope which comprises an observing device, a temperature control system and a micro perfusion cavity provided with an inlet and an outlet as well as at least two injection syringes at injection speeds respectively controlled and at least one extraction syringe. The injection syringes connected in parallel are connected with the inlet of the micro perfusion cavity. The extraction syringe is connected with the outlet of the micro perfusion cavity. Change of concentration of solutions in the micro perfusion cavity can be precisely controlled to realize change of concentration from one concentration to various concentrations of the solution, so that the volume responses of cells in the process of concentration of around solution and the volume responses after change can be measured. Changes of concentration and temperature of solution in the micro perfusion cavity can be further controlled synchronously so as to simulate a nonequilibrium freezing process or a rewarming melting process of the solution.

Description

The perfusion microscope

Technical field

The utility model relates to the low-temperature biological medical domain, particularly a kind of perfusion microscope.

Background technology

At the low-temperature biological medical domain, the microbial material damage in the living material cryopreservation process is the important source of its low temperature injury.Microbial material can be all microbial materials such as cell, bacterium, virus.Emphasis is that example is explained with the cell in following embodiment.

Typical cryopreservation process mainly comprises: before (1) cryopreservation, and the interpolation of cryoprotective agent; (2) in the refrigerating process, the sequencing of rate of temperature fall control; (3) behind the rewarming, before the clinical use, the removal of cryoprotective agent.Reduce low temperature injury; Carry out the optimal design of these three important steps of cryopreservation process, need to measure the important biomolecule physics parameter of cell: for example cell etc. oozes volume, cell impermeability volume, cell membrane to the permeability parameter of cryoprotective agent and water and energy of activation thereof etc.

Usually adopt the perfusion microscope to observe cell under different temperatures; Volume response when low temperature protectant solution component or concentration change; Simulate permeability parameter and the energy of activation thereof of cell membrane by the nonlinear fitting technology for cryoprotective agent and water, and cell etc. ooze key parameters such as volume and impermeability volume.In following embodiment, can be binary, ternary or complex solution like the related solution of no specified otherwise.

Normally, the perfusion microscope mainly comprises the slight irrigation stream chamber on the objective table, is used to control the low temperature circulation bath that solution in the slight irrigation stream chamber is in low-temperature condition.An injection syringe and an extraction syringe that flows extraction solution in the chamber from slight irrigation that injects solution for slight irrigation stream chamber.Through injecting syringe and extracting being used of syringe, can keep the mobile equilibrium of solution in the slight irrigation stream chamber, thereby guarantee the balance of solution pressure in the slight irrigation stream chamber.Simultaneously; The perfusion microscope comprises that also a cover is used to observe the device that slight irrigation stream chamber inner cell changes, and normally, this device mainly comprises condenser, light hole and object lens; Light is strengthened under the effect of converging of condenser; Inject slight irrigation stream chamber through light hole, the situation of change of slight irrigation stream chamber inner cell is observed after object lens amplify, and can carry out data recording.

Yet the problem that the perfusion microscope of this structure exists is:

Owing to have only one to inject syringe and an extraction syringe, just can only realize the switching of solution from a kind of concentration to other a kind of concentration, also promptly can only record the volume response of cell under these two kinds of variable concentrations solution.Want to measure the volume response of cell under other a kind of solution concentration, just need to change the concentration of once injecting solution in the syringe, for long run test has been brought very big inconvenience.

The utility model content

The utility model provides a kind of perfusion microscope, and technical scheme is following:

Comprise finder, temperature control system and be provided with the slight irrigation stream chamber of entrance and exit; And at least two injection syringes that injection rate is controlled respectively, at least one extracts syringe, after the parallel connection of injection syringe, is connected with the inlet in slight irrigation stream chamber, extracts syringe and is connected with the outlet in slight irrigation stream chamber.

Preferably, the injection rate of injecting syringe is controlled by different syringe pumps respectively with the extraction speed that extracts syringe.

Further, also comprise the little hybrid chamber that is connected between the inlet that injects syringe and slight irrigation stream chamber.

Preferably, temperature control system comprises refrigerating module, heating module and temperature sensor; The temperature that the chamber is flowed in slight irrigation through temperature sensor detects feedback, and temperature control is carried out in control refrigerating module and/or heating module work.

Preferably, temperature sensor places portion's chamber-separating wall in slight irrigation stream chamber, and heating module places the slight irrigation of the opposite side of temperature sensor to flow on the chamber, and refrigerating module places on the heating module, and slight irrigation stream chamber, heating module and refrigerating module are wrapped up by insulation material.

Preferably; The material of the chamber wall part of laying temperature sensor is silex glass or dimethyl silicone polymer or polyimide or polymethyl methacrylate or Parylene or teflon, and the material of other chamber wall parts is dimethyl silicone polymer or silex glass or polyimide or polymethyl methacrylate or Parylene or teflon.

Further, also be included in first plate washer and second plate washer that is provided with at interval on the inwall in slight irrigation stream chamber; First baffle plate and second plate washer flow the chamber with slight irrigation and are divided into first cushion chamber, microbial material chamber and second cushion chamber that is interconnected; The microbial material chamber is between first cushion chamber and second cushion chamber, and first baffle plate and second baffle stop that microbial material flows between microbial material chamber and first cushion chamber and second cushion chamber; Inlet is positioned on first cushion chamber, and outlet is positioned on second cushion chamber; The microbial material chamber is provided with and loads inlet and unloading outlet.

Preferably, finder comprises camera, microcomputer, and the condenser that is positioned at slight irrigation stream chamber one side, and light hole is positioned at the object lens that slight irrigation stream chamber opposite side and condenser are oppositely arranged.

The beneficial effect that the technical scheme that the utility model provides is brought is:

In the embodiment of the utility model; Inlet end parallel connection in slight irrigation stream chamber has inserted two and has injected syringe, and its injection rate is controlled respectively, like this; Through controlling these two injection rates of injecting syringe respectively; Can accurately control the variation of solution concentration in the slight irrigation stream chamber, realize solution concentration, thereby can measure cell around in the solution concentration change procedure and the volume response after the variation by of the variation of a kind of concentration to multiple concentration.

Further; Through being connected the little hybrid chamber that injects between syringe and the slight irrigation stream chamber inlet; Can mix solution in advance, make to get into the solution concentration uniformity that the chamber is flowed in slight irrigation, thereby guarantee cell peripheral solution concentration uniformity in the perfusing course.

Further; Employing has the temperature control system of refrigerating module and heating module; The sequencing that can accurately control solution temperature reduces or rising and synchronous with it change in concentration; Can analog cell in freezing or rewarming process around the variation of thermodynamic state of solution, melt the volume response in the process thereby use it for the research cell at non-equilibrium freezing or rewarming, measure the biophysics mathematic(al) parameter of cell membrane under the low temperature.

Further, through first baffle plate that is provided with at interval on the slight irrigation stream cavity wall and second plate washer chamber is flowed in slight irrigation and be divided into first cushion chamber, microbial material chamber and second cushion chamber that is interconnected.On the one hand, solution is mixed once more in first cushion chamber, make that the solution concentration that gets into the microbial material chamber is more even; On the other hand, be separated out special microbial material chamber, can guarantee that microbial material is in viewing area all the time; The third aspect loads inlet and unloading outlet through on the microbial material chamber, being provided with, and can carry out the replacing of microbial material easily, helps carrying out continuously many group tests.

Description of drawings

In order to be illustrated more clearly in the technical scheme among the utility model embodiment; The accompanying drawing of required use is done to introduce simply in will describing embodiment below; Obviously, the accompanying drawing in describing below only is some embodiment of the utility model, for those of ordinary skills; Under the prerequisite of not paying creative work, can also obtain other embodiment and accompanying drawing thereof according to these accompanying drawing illustrated embodiments.

Fig. 1 is the microscopical structural representation of perfusion that the utility model embodiment provides;

Fig. 2 is the structural representation of the microscopical refrigerating module of perfusion that provides of the utility model embodiment;

Fig. 3 is the structural representation of the microscopical refrigerating module of perfusion that provides of the utility model embodiment;

Fig. 4 is the structural representation in the microscopical slight irrigation stream of the perfusion that provides of the utility model embodiment chamber.

Embodiment

For the purpose, technical scheme and the advantage that make the utility model is clearer, will combine accompanying drawing that the embodiment of the utility model is done to describe in detail further below.Obviously, described embodiment only is a part of embodiment of the utility model, rather than whole embodiment.Based on the embodiment in the utility model, those of ordinary skills resulting all embodiment under the prerequisite of not paying creative work belong to the protection domain of the utility model.

For can the volume response of continuous coverage cell under multiple concentration solution, the utility model provides a kind of perfusion microscope, comprising: finder 34, temperature control system 35 and be provided with inlet 24 and export 25 slight irrigation stream chamber 9; And at least two injection syringes 26 and 27 that speed is controlled respectively; At least one extracts syringe 28; After injecting syringe 26 and 27 parallel connections, be connected with the inlet 24 in slight irrigation stream chamber 9; Extracting syringe 28 is connected with the outlet 25 in slight irrigation stream chamber 9.

Wherein, finder 34 is mainly used in the cell volume response condition of observing in the slight irrigation stream chamber 9; Temperature control system 35 provides suitable test temperature as required, to keep the existing state of cell, can carry out adjustment simultaneously, realizes that solution temperature carries out dynamic change according to particular rate in the slight irrigation stream chamber 9; Slight irrigation stream chamber 9 is used for the cell perfusion; Inlet 24 both can be used for solution and had injected, and can be used for cell again and loaded; Outlet 25 both can be used for solution to be extracted, and can be used for the cell unloading again; Through injecting syringe 26,27 and extracting being used of syringe 28, can guarantee the mobile equilibrium of liquid inventory in the slight irrigation stream chamber 9.

Through injecting the solution that syringe 26 and 27 adds variable concentrations; And set injection rate respectively; Can, slight irrigation obtain certain density solution in flowing chamber 9; Change the solution that injection rate can obtain variable concentrations, through controlling the solution that the injection rate of injecting syringe 26 and 27 can obtain multiple variable concentrations respectively.Can observe the volume response of cell under multiple variable concentrations solution through finder 34.

More preferably, between the inlet 24 that injects syringe 26,27 and slight irrigation stream chamber 9, connect a little hybrid chamber 3.Through the effect that is pre-mixed of 3 pairs of solution of little hybrid chamber, make to get into the solution concentration uniformity in the slight irrigation stream chamber 9, thereby guarantee cell peripheral solution concentration uniformity in the perfusing course.

For solution can be mixed more fully, also a plurality of little hybrid chambers 3 of series connection between syringe 26,27 and the slight irrigation stream chamber 9 can injected.

More preferably, the temperature control system of solution temperature in the slight irrigation stream chamber 9 being controlled 35 comprises refrigerating module 6, heating module 7 and temperature sensor 31.Temperature sensor 31 is used to detect the temperature of solution in the slight irrigation stream chamber 9; And detected temperature information fed back; With 7 work of control refrigerating module 6 and/or heating module, solution temperature is raise as required or reduce, realize that solution temperature carries out dynamic change according to particular rate; Satisfying different temperature needs in the test, thereby can accurately measure the permeability parameter of refrigerating process cell.

Wherein, Temperature control system 35 is not limited to refrigerating module 6, heating module 7 and temperature sensor 31; Also can substitute, specifically can be equipped with temperature control system 35 according to the structure that chamber 9 and finder 34 are flowed in slight irrigation by other devices that can realize temperature control, regulatory function.

More preferably; First plate washer 20 that on the inwall in slight irrigation stream chamber 9, is provided with at interval and second plate washer 22 flow chamber 9 with slight irrigation and are divided into first cushion chamber 19, microbial material chamber 21 and second cushion chamber 23 that is interconnected; Microbial material chamber 21 is between first cushion chamber 19 and second cushion chamber 23, and first baffle plate 20 and second baffle 22 stop that microbial material flows between microbial material chamber 21 and first cushion chamber 19 and second cushion chamber 23; Inlet 24 is positioned on first cushion chamber 19, and outlet 25 is positioned on second cushion chamber 23; Microbial material chamber 21 is provided with and loads inlet 29 and unloading outlet 30.

This structural design in slight irrigation stream chamber 9 on the one hand, can make solution in first cushion chamber 19, mix once more, makes that the solution concentration that gets into microbial material chamber 21 is more even; On the other hand, be separated out special microbial material chamber 21, can guarantee that microbial material is in viewing area all the time; The third aspect loads inlet 29 and unloading outlet 30 through on microbial material chamber 21, being provided with, and distinguishes with taphole 25 with solution inlet 24, can carry out the replacing of microbial material easily, helps carrying out continuously many group tests.

Technical scheme and beneficial effect in order to understand the utility model better carry out more detailed introduction through embodiment to the utility model below, and embodiment is the preferred embodiment of the utility model, and the utility model is not limited to this.

Fig. 1 is the microscopical structural representation of perfusion that the utility model embodiment provides.As shown in Figure 1, the utility model embodiment discloses a kind of perfusion microscope, comprises finder 34, temperature control system 35 and is provided with inlet 24 and exports 25 slight irrigation stream chamber 9; And two injection syringes 26 and 27 that speed is controlled respectively; One is extracted syringe 28; After injecting syringe 26 and 27 parallel connections, be connected with the inlet 24 in slight irrigation stream chamber 9; Extracting syringe 28 is connected with the outlet 25 in slight irrigation stream chamber 9; Between the inlet 24 that injects syringe 26,27 and slight irrigation stream chamber 9, connect little hybrid chamber 3.

In the present embodiment, two injection syringes extract syringe is carried out the injection rate or the speed of extraction respectively by different syringe pumps control with one.Particularly; The injection rate of syringe 26 is injected in syringe pump 1 control, and the injection rate of syringe 27 is injected in syringe pump 2 controls, and the extraction speed of syringe 28 is extracted in syringe pump 8 controls; In the perfusing course, usually total injection rate remains consistent with total extraction speed.Wherein, syringe pump can be realized through software programming the speed control of syringe.Through software programming control, on the one hand, can accurately control and inject syringe 26 and 27 injection rate separately, realize the different proportionings of solution concentration; On the other hand, accurately control total injection rate and total extraction speed and remain consistently, be in dynamic balance state to keep the flows in the slight irrigation stream chamber 9, thereby guarantee the pressure equilibrium in the slight irrigation stream chamber 9.

Wherein, at inlet 24 place's inlet porting conduits, 25 places are provided with delivery channel in outlet.Adopt kapillary to realize injecting between the syringe 26 and 27; And inject being connected between syringe 26,27 and the little hybrid chamber 3; The kapillary that connects little hybrid chamber 3 links to each other through the inlet 24 of entry conductor with slight irrigation stream chamber 9, connects the kapillary that extracts syringe 28 and links to each other through the outlet 25 of delivery channel with slight irrigation stream chamber 9.Because the capillary inner diameter that is used to connect is very little, is preferably 0.2～1mm, its fluid flow inside is a laminar flow, in order to strengthen the mixed effect of solution, must carry out enhancing mixed.

In the present embodiment, refrigerating module 6 is cold circulation module, and heating module 7 is an electric-heating thin film, and temperature sensor 31 is a thermopair; Slight irrigation stream chamber 9 is the space that is surrounded by upper wall, lower wall and sidewall, and thermopair places the lower wall in slight irrigation stream chamber 9, and electric-heating thin film places on the slight irrigation stream chamber 9, and cold circulation module places on the electric-heating thin film.In process of the test,, prevent to carry out heat interchange, realize insulation effect, chamber 9, electric-heating thin film and cold circulation module are flowed in slight irrigation encapsulate with insulation material 32 with the external world in order to guarantee that slight irrigation stream chamber 9 is isolated from the outside.In order to guarantee that light can see through insulation material 32, cold circulation module and electric-heating thin film and arrive slight irrigation stream chamber 9, light hole 5 need be set, above that so that light is injected.

In the present embodiment, slight irrigation stream chamber 9 is the closure casings that are made up of two kinds of materials, and particularly, (dimethyl silicone polymer polydimethylsiloxane) 18 is processed, and lower wall is processed by silex glass 33 by PDMS for upper wall and sidewall.As the equivalent transformation mode, also can only the part of lower wall be processed with silex glass 33, thermopair is arranged in the silex glass 33, and all uses PDMS 18 to process on the remainder chamber wall that chamber 9 is flowed in slight irrigation.

Because silex glass 33 directly contacts with solution, and silex glass 33 has good heat-conducting, and thermopair is arranged at wherein, temperature that can indirect detection solution.PDMS 18 is the good materials of a kind of light transmission, and light can enter slight irrigation stream chamber 9 through PDMS 18 irradiations; Wherein, the microfluid passage that PDMS 18 is used to constitute slight irrigation stream chamber 9 is preferably dimensioned to be long 10～150 millimeters, and is wide 1～10 millimeter, dark 5～100 microns.

In other embodiment; The material that is used to place the chamber wall part of thermopair on the lower wall in slight irrigation stream chamber 9 or the lower wall is the light transmissive material with enough hardness, excellent biological compatibility and heat conductivility, for example can be dimethyl silicone polymer, polyimide, polymethyl methacrylate, Parylene or teflon etc.; The upper wall in slight irrigation stream chamber 9 and the material of sidewall sections are the material that is suitable for processing micro-fluidic chip with enough hardness, excellent biological compatibility and any printing opacity, for example can be silex glass, polyimide, polymethyl methacrylate, Parylene or teflon etc.

Fig. 2 and Fig. 3 are the structural representations of the microscopical refrigerating module 6 of perfusion that provides of the utility model embodiment.As shown in Figures 2 and 3, refrigerating module 6 comprises two cold cycling elements.Wherein, be provided with on the first cold cycling element liquid coolant 16 and cooling liquid outlets 17 that enter the mouth are set on 14 and cooling liquid outlet 15, the second cold cycling elements of liquid coolant inlet.The liquid coolant entrance and exit is connected with the low temperature circulation bath of outside respectively, to realize the effect of cooling to solution in the slight irrigation stream chamber 9.

Fig. 4 is the structural representation in the microscopical slight irrigation stream of the perfusion that provides of the utility model embodiment chamber.As shown in Figure 4, also be included in first plate washer 20 and second plate washer 22 that are provided with at interval on the inwall in slight irrigation stream chamber 9; First baffle plate 20 and second plate washer 22 flow chamber 9 with slight irrigation and are divided into first cushion chamber 19, microbial material chamber 21 and second cushion chamber 23 that is interconnected; Microbial material chamber 21 is between first cushion chamber 19 and second cushion chamber 23, and first baffle plate 20 and second baffle 22 stop that microbial material flows between microbial material chamber 21 and first cushion chamber 19 and second cushion chamber 23; Inlet 24 is positioned on first cushion chamber 19, and outlet 25 is positioned on second cushion chamber 23; Microbial material chamber 21 is provided with and loads inlet 29 and unloading outlet 30.

In the present embodiment; First plate washer 20 on 9 inwalls of slight irrigation stream chamber and second baffle 22 parallel, settings at interval; The upper end of first plate washer 20 and second plate washer 22 is connected with the upper wall in slight irrigation stream chamber 9; Leave the space between the lower wall in the lower end of first plate washer 20 and second plate washer 22 and slight irrigation stream chamber 9, formation can be crossed and the intransitable throughput of cell for flow of solution.The size of throughput can be provided with according to the volume size of cell, and in the present embodiment, the height dimension of throughput is preferably the 1-10 micron.Certainly, in other embodiment, first baffle plate 20 also can adopt inclination, be provided with at interval with second baffle 22.

In the present embodiment, finder 34 comprises camera 13, microcomputer 11, and the condenser 4 that is positioned at slight irrigation stream chamber 9 one sides, and light hole 5 is positioned at the object lens 12 that slight irrigation stream chamber 9 opposite sides and condenser 4 are oppositely arranged.Slight irrigation stream chamber 9 is positioned on the objective table 10; Position above slight irrigation stream chamber 9 is provided with condenser 4; Light arrives slight irrigations stream chambeies 9 through light hole 5, through the amplification of object lens 12 through the converging of condenser 4, booster action; Collect the volume change information of microbial material again by camera 13, pass to microcomputer 11 and carry out data recording.Camera 13 preferred CCD (Charge-coupled Device, the charge coupled cell) cameras that adopt also can adopt the camera of other any IMAQ speed greater than 10FPS (Frames Per Second, per second transmission frame number).

In order to understand the utility model better, add, remove the cryoprotective agent process with the perfusion microscope simulation of adopting the utility model below, and according to the cell volume response, the permeability parameter of measuring cell membrane under the different temperatures is that example specifies.Wherein, cryoprotective agent normally contains the physiological saline of cryoprotective agent (CPA) or contains the phosphate buffer of cryoprotective agent (CPA).

The cryoprotective agent process is added in simulation, and according to the volume response of cell, the practical implementation process of measuring the permeability parameter of cell membrane under the different temperatures is following:

Open and load inlet 29, cell is injected microbial material chamber 21, sealing loads inlet 29 then.Pack into and contain the solution of cryoprotective agent injecting syringe 26, pack into and do not contain the solution of cryoprotective agent injecting syringe 27.At a time, start synchronously and inject syringe 27 and extract syringe 28, and the flow velocity of controlling both equates, whole pipeline is flowed in the chamber 9 with slight irrigation be full of the solution that does not contain cryoprotective agent.Through the collaborative work of refrigerating module 6 and heating module 7, and the temperature detection feedback through temperature sensor 31, the solution temperature in the slight irrigation stream chamber 9 accurately controlled.After treating that perfusion reaches steady state (SS); Stop to inject syringe 27, and start injection syringe 26 simultaneously, continue to inject with uniform flow; Then slight irrigation is flowed to have accomplished in the chamber 9 and is never contained cryoprotective agent to the switching that contains low temperature protectant solution, thereby realizes the process that cryoprotective agent is added in the pair cell simulation.Volume change through CCD camera 13 collection of cells; And through microcomputer 11 record related datas; Can obtain under a certain temperature; Add the volume response of cell in certain concentration, the particular type cryoprotective agent process, and then through the nonlinear fitting technology, impermeability volume and the cell membrane that the grade that obtains cell is oozed volume, cell is to the permeability parameter of cryoprotective agent and water etc.

Change temperature through refrigerating module 6 and heating module 7, repeat above-mentioned test process, obtain under at least three different temperatures, cell membrane then through mathematical model, obtains its relevant energy of activation to the permeability parameter of cryoprotective agent and water.

The cryoprotective agent process is removed in simulation, according to the volume response of cell, measures the practical implementation process of the permeability parameter of cell membrane under the different temperatures, and the difference of adding the cryoprotective agent process with simulation is: exchange the opening sequence that injects syringe 26 and 27 and get final product.

Further; In order to understand the utility model better; Simulate non-equilibrium refrigerating process with the perfusion microscope that adopts the utility model below and rewarming melts process; According to the volume response of cell, measuring cell is that example is elaborated at permeability parameter and the energy of activation thereof that non-equilibrium refrigerating process and rewarming melt in the process.Wherein, low temperature protectant solution is water-salt-cryoprotective agent ternary solution, and the component of solution is confirmed by the phasor of non-equilibrium refrigerating process complex solution.

Simulate non-equilibrium refrigerating process, according to the volume response of cell, and then it is following in the implementation process of the permeability parameter of non-equilibrium refrigerating process and energy of activation thereof to measure cell:

The low temperature protectant solution of the high concentration of in injecting syringe 26, packing into, and the low temperature protectant solution of the low concentration of in injecting syringe 27, packing into.Open and load inlet 29, cell is injected microbial material chamber 21, sealing loads inlet 29 then.At a time, start synchronously and inject syringe 27 and extract syringe 28, and the flow velocity of controlling both equates, the low temperature protectant solution that is full of low concentration in the chamber 9 is flowed in whole pipeline and slight irrigation.Through refrigerating module 6 and heating module 7 collaborative works, and the temperature detection feedback through temperature sensor 31, can accurately control the temperature of solution in the slight irrigation stream chamber 9.After treating that perfusion reaches steady state (SS); Inject the injection rate of syringe 26 and 27 through the control of the software programming in syringe pump 1 and 2; Realize the variation of solution concentration; Thereby realize that solution concentration changes in strict accordance with the variation of refrigerating process in the slight irrigation stream chamber 9, the temperature of solution reduces according to the rate of temperature fall of actual refrigerating process in the synchro control slight irrigation stream chamber 9 simultaneously.Volume change through camera 13 collection of cells; And through microcomputer 11 record related datas; Can obtain the refrigerating process cell volume with variation of temperature, and then use relevant mathematical model, through nonlinear fitting; Can obtain under this rate of temperature fall the permeability parameter of refrigerating process cell membrane and energy of activation thereof.

The simulation rewarming melts process; Volume response according to cell; And then measure the implementation process that cell melts the permeability parameter and the energy of activation thereof of process at rewarming, with the difference of simulating non-equilibrium refrigerating process be: exchange the opening sequence that injects syringe 26 and 27 and get final product.

The above is merely the preferred embodiment of the utility model, and is in order to restriction the utility model, not all within the spirit and principle of the utility model, any modification of being done, is equal to replacement, improvement etc., all should be included within the protection domain of the utility model.

Claims (8)

1. perfusion microscope is characterized in that:

Comprise finder, temperature control system and be provided with the slight irrigation stream chamber of entrance and exit; And

At least two injection syringes that injection rate is controlled respectively, at least one extracts syringe, after the parallel connection of said injection syringe, is connected with the inlet in slight irrigation stream chamber, and said extraction syringe is connected with the outlet in slight irrigation stream chamber.

2. perfusion microscope according to claim 1 is characterized in that:

The injection rate of said injection syringe is controlled by different syringe pumps respectively with the extraction speed that extracts syringe.

3. perfusion microscope according to claim 1 is characterized in that:

Also comprise the little hybrid chamber that is connected between said injection syringe and the slight irrigation stream chamber inlet.

4. perfusion microscope according to claim 1 is characterized in that:

Said temperature control system comprises refrigerating module, heating module and temperature sensor;

The temperature that the chamber is flowed in slight irrigation through said temperature sensor detects feedback, and temperature control is carried out in control refrigerating module and/or heating module work.

5. perfusion microscope according to claim 4 is characterized in that:

Said temperature sensor places portion's chamber-separating wall in said slight irrigation stream chamber; Said heating module places the slight irrigation of the opposite side of said temperature sensor to flow on the chamber; Said refrigerating module places on the said heating module, and said slight irrigation stream chamber, heating module and refrigerating module are wrapped up by insulation material.

6. perfusion microscope according to claim 5 is characterized in that:

The material of placing the chamber wall part of said temperature sensor is silex glass or dimethyl silicone polymer or polyimide or polymethyl methacrylate or Parylene or teflon, and the material of other chamber wall parts is dimethyl silicone polymer or silex glass or polyimide or polymethyl methacrylate or Parylene or teflon.

7. perfusion microscope according to claim 1 is characterized in that:

Also be included in first plate washer and second plate washer that are provided with at interval on the inwall in slight irrigation stream chamber;

Said first baffle plate and second plate washer are divided into first cushion chamber, microbial material chamber and second cushion chamber that is interconnected with said slight irrigation stream chamber; The microbial material chamber is between first cushion chamber and second cushion chamber, and said first baffle plate and second baffle stop that microbial material flows between microbial material chamber and said first cushion chamber and second cushion chamber;

Said inlet is positioned on said first cushion chamber, and said outlet is positioned on said second cushion chamber;

Said microbial material chamber is provided with and loads inlet and unloading outlet.

8. according to each described perfusion microscope of claim 1-7, it is characterized in that:

Said finder comprises camera, microcomputer, and

Be positioned at the condenser of slight irrigation stream chamber one side, light hole is positioned at the object lens that slight irrigation stream chamber opposite side and condenser are oppositely arranged.

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