CN206167481U - Trinity formula bioartificial liver on -line monitoring and integrative system of constant temperature heating - Google Patents

Abstract

The utility model discloses a trinity formula bioartificial liver on -line monitoring and integrative system of constant temperature heating, including order continuous blood input port, blood pump, artery kettle, trinity bioreactor, vein kettle and blood bustback mouth, trinity bioreactor includes the cavity and sets up first baffle and second baffle in the cavity, first baffle and second baffle will the three independent space that is is from left to right separated to the cavity, is blood plasma separator, oxygenator and reactor in proper order, integrative system still is equipped with pipeline heating device. The beneficial effects of the utility model are that: be one through closing blood plasma separator, oxygenator and conventional bioreactor three, make the bioartificial liver support system structure more succinct, the simple operation, effect through pipeline heating device for cell heating among the bioartificial liver reactor is even, and pipeline heating device adopts outer hangingly, saves space for system simple structure.

Description

Three-in-one type bioartificial liver monitors on-line and heated at constant temperature integrated system

Technical field

This utility model belongs to bioartificial liver's technical field, more particularly to a kind of three-in-one type bioartificial liver supervises online Survey and heated at constant temperature integrated system.

Background technology

Liver failure is multifactor induction heptocellular death, causes organism metabolic disorder, toxin buildup coagulation function barrier occur Hinder, a kind of clinical syndrome of the symptom such as jaundice, hepatic encephalopathy.China is hepatopathy big country, and hepatic failure patients are numerous, because of current nothing Specific treatment medicine its mortality rate still remains high.Wherein, bioartificial liver system is that the liver patient that declines waits donor livers or itself liver The important auxiliary treatment means in dirty regeneration recovery period.Bioartificial liver system is broadly divided into physics bioartificial liver system, bioartificial liver System and hybrid artificial liver system.This patent belongs to bioartificial liver system field.

Bioartificial liver system mainly includes plasma separator, oxygenator, bioreactor and the part of constant temperature part four.Portion Pipeline connection is complicated between part, and interface is more, complex operation, increases pollution risk.And blood samples of patients purification treatment situation is also needed Specimen is delivered to into clinical laboratory's detection, censorship amount is big, and the waiting time is longer, it is impossible to which the very first time feeds back patient physiological condition.Mesh Front existing bioartificial liver's reactor is heated just with heat booster, can not carry out perseverance to biological artificial liver reactor Temperature heating, plus thermally labile, affect the efficiency of bioartificial liver's reactor.

Preferably bioartificial liver system should possess following characteristics：It is simple system, easy to operate；Can provide suitably for cell Metabolism environment includes suitable dissolved oxygen and pH value, ensures cytoactive；The cell distribution of perfusion is uniform, and cell can be abundant with blood plasma Contact carries out mass exchange.

Utility model content

The purpose of this utility model is reconfiguration system structure, simplifies operation, realizes that blood plasma separation, oxygenator and biology are anti- Answer device three-in-one；Realize that pH regulation and control, heated at constant temperature, cell are uniformly distributed and carry out sufficient mass exchange；There is provided a kind of three to close One formula bioartificial liver monitors on-line and heated at constant temperature integrated system.

For achieving the above object, the three-in-one type bioartificial liver on-line monitoring and heated at constant temperature designed by this utility model Integrated system, including blood input port, blood pump, tremulous pulse kettle, three-in-one bioreactor, venous chambers and the blood time that order is connected Outlet；

The three-in-one bioreactor includes cavity and the first dividing plate being arranged in the cavity and second partition；The The cavity is divided into three separate space from left to right for one dividing plate and second partition, is followed successively by plasma separator, oxygen and is closed Device and reactor；

The plasma separator incites somebody to action both inner spaces, the device room by device room connecting tube with the oxygenator from outside Connecting tube is provided with separation pump；The reactor will both inner chambers by the intercommunicating pore opened up on second partition with the oxygenator Connection；

Left side cavity upper end at the plasma separator is provided with blood/priming fluid and enters

Mouthful, lower end is provided with hemocyte outlet, with located at the blood between the blood/priming fluid entrance and hemocyte outlet The hollow fiber bundle connection of the inside of slurry separator；

The cavity upper end of the mid portion at the oxygenator is provided with oxygen/carbon dioxide entrance, the oxygenator Inside be provided with the permeable fiber membrane tube being connected with the oxygen/carbon dioxide entrance；

Right side cavity at the reactor is provided with nutritional solution/hepatocyte suspension entrance, nutritional solution/hepatocyte Suspension is exported and blood plasma/priming fluid outlet, and the intercommunicating pore and blood plasma/priming fluid are exported with located at the inside of the reactor Hollow fiber film tube connection；

The blood/priming fluid entrance is connected with the outlet of tremulous pulse kettle, and the blood plasma/priming fluid outlet is exported with hemocyte It is connected with the entrance of the venous chambers in the lump；

The integrated system is additionally provided with pipeline heating device.

Further, the inlet end of device room connecting tube is located at the side wall lower ends of the plasma separator, liquid outlet End is positioned at the lower end of the oxygenator；The intercommunicating pore is located at the upper end of second partition.

Further, it is additionally provided with for intercepting the close of blood plasma/priming fluid along its cross-sectional direction inside the oxygenator Envelope supporting plate, the sealed support plate is located at the top of intercommunicating pore；Multiple apertures are offered on the sealed support plate, it is described The upper end of gas fiber membrane tube is fastened in aperture, and the space formed by sealed support plate and oxygenator inner cavity top, with oxygen Gas/carbon dioxide entrance is connected.

The beneficial effect of above-mentioned further scheme is：Permeable fiber membrane tube is fixed on by oxygenator by sealed support plate It is interior, both can ensure that oxygen/carbon dioxide entrance was connected with permeable fiber membrane tube, gas is not intercepted, and obstruct blood can be played again The effect of slurry/priming fluid.

Yet further, two are additionally provided with for intercepting cell and liquid along its cross-sectional direction inside the plasma separator The polyurethane resin supporting plate that body passes through, two polyurethane resin supporting plates are located at respectively plasma separator upper and lower ends and and blood Slurry separator end inner chamber is kept at a distance, and multiple through holes, the hollow fiber bundle are offered on the polyurethane resin supporting plate Two ends be arranged in respectively in the through hole of different polyurethane resin supporting plates, the inlet end of device room connecting tube is located at two Between polyurethane resin supporting plate.Arranging polyurethane resin supporting plate can realize hollow fiber bundle inside plasma separator The purpose of even distribution, rather than blood/priming fluid entrance and hemocyte outlet are all filled in in the end of hollow fiber bundle.

Preferably, the inside reactor is additionally provided with two for intercepting cell and liquid passes through along its cross-sectional direction Polyurethane resin rack plate, two polyurethane resin rack plates be located at respectively reactor upper and lower ends and with reactor end inner chamber Keep at a distance, multiple through holes are offered on polyurethane resin rack plate, the two ends of the hollow fiber film tube are arranged in respectively not In through hole with polyurethane resin rack plate, the intercommunicating pore is located at the top of polyurethane resin rack plate, nutritional solution/hepatocyte Suspension inlet and nutritional solution/hepatocyte suspension outlet are located between two polyurethane resin rack plates.Polyurethane tree is set Fat rack plate can realize hollow fiber film tube in the equally distributed purpose of inside reactor.

Further, the integrated system is also included for the biomonioring device of continuous on-line monitoring biochemical indicator, institute State the upstream reason that biomonioring device includes prison TT＆C system, signal feedback system and is connected with the prison TT＆C system signal of telecommunication Biochemical indicator detecting head and downstream reason biochemical indicator detecting head；The upstream reason biochemical indicator detecting head is input into located at the blood At mouthful, the downstream reason biochemical indicator detecting head is at the blood recovery mouth.

Yet further, on the tremulous pulse kettle, addition is respectively provided with venous chambers, between blood pump and blood input port The arm of medicine or liquid；The heparin arm for injecting heparin is provided between the blood pump and tremulous pulse kettle.

Alternatively, whether there is air in being additionally provided with for monitoring pipeline between the venous chambers and the blood recovery mouth Air monitoring device.

Alternatively, the pipeline heating device is water-bath, and the three-in-one bioreactor is as in water-bath, its It is connected with system using external hanging type.

Preferably, the integrated system also include multiple pressure-detecting devices, be respectively arranged on tremulous pulse kettle, on venous chambers, Between blood input port and blood pump.

The beneficial effects of the utility model are：

1st, it is one by the way that traditional plasma separator, oxygenator and standard biologic reactor are closed into three, makes bioartificial liver Support that system structure is more succinct, simple operation；

2nd, blood is entered after plasma separator, and the blood plasma isolated by hollow fiber bundle directly sequentially enters oxygenator and anti- Device is answered, unnecessary pipeline is reduced；

3rd, the inside complications in oxygenator are provided with permeable fiber film, for reactor enough oxygen is provided, while Carbon dioxide is participated in permeable fiber film timely and appropriate discovery and realize pH regulator, maintain pH environment more stable in bioreactor, energy Suitable metabolism environment is provided for cell, cytoactive is ensured；

4th, by the effect of pipeline heating device so that the cell in bioartificial liver's reactor can carry out constant temperature water bath Heating, homogeneous heating, thermal-stable is good；And pipeline heating device adopts external hanging type, save space so that system structure letter It is single；

5th, by the effect of biomonioring device so that system can be carried out to the pressure of biochemical indicator, blood plasma or blood On-line monitoring.

Description of the drawings

Fig. 1 is the structural representation of this utility model three-in-one type bioartificial liver on-line monitoring and heated at constant temperature integrated system Figure.

Fig. 2 is the structural representation of the three-in-one bioreactor in Fig. 1.

Fig. 3 is the cross section structure diagram of Fig. 2.

Fig. 4 is the dimensional structure diagram of the pipeline heating device in Fig. 1.

Fig. 5 is the cross section structure diagram of Fig. 4.

In figure, three-in-one bioreactor 1, plasma separator 1.1, blood/priming fluid entrance 1.1.1, hemocyte outlet 1.1.2, the standby adding mouth 1.1.3 of plasma separator, the standby outlet 1.1.4 of plasma separator, oxygenator 1.2, oxygen/dioxy Change carbon entrance 1.2.1, adding mouth 1.2.2, the standby adding mouth 1.2.3 of oxygenator, the standby outlet 1.2.4 of oxygenator, reactor 1.3rd, nutritional solution/hepatocyte suspension entrance 1.3.1, nutritional solution/hepatocyte suspension outlet 1.3.2, blood plasma/priming fluid outlet 1.3.3, cavity 1.4, the first dividing plate 1.5, second partition 1.6, blood input port 2, blood pump 3, tremulous pulse kettle 4, pipeline heating device 5th, support 5.1, venous chambers 6, blood recovery mouth 7, hollow fiber bundle 8, permeable fiber membrane tube 9, hollow fiber film tube 10, device room connect Adapter 11, intercommunicating pore 12, biomonioring device 13, prison TT＆C system 13.1, signal feedback system 13.2, upstream reason biochemical indicator Detecting head 13.3, downstream is managed biochemical indicator detecting head 13.4, polyurethane resin supporting plate 14, polyurethane resin rack plate 15, is gathered Ether sulfone filter membrane 16, arm 17, heparin arm 18, air monitoring device 19, pressure-detecting device 20, sealed support plate 21, point From pump 22, Micropump spare interface 23.

Specific embodiment

This utility model is described in further detail below in conjunction with the drawings and specific embodiments.

Three-in-one type bioartificial liver on-line monitoring and heated at constant temperature integrated system as shown in Fig. 1~5, including order phase Blood input port 2 even, blood pump 3, tremulous pulse kettle 4, three-in-one bioreactor 1, venous chambers 6 and blood recovery mouth 7；

Three-in-one bioreactor 1 includes cavity 1.4 and the first dividing plate 1.5 being arranged in cavity 1.4 and second partition 1.6；Cavity 1.4 is divided into three separate space from left to right for first dividing plate 1.5 and second partition 1.6, is followed successively by blood plasma Separator 1.1, oxygenator 1.2 and reactor 1.3；

Plasma separator 1.1 passes through device room connecting tube 11 from outside by both inner spaces with oxygenator 1.2, and device room connects Pipe 11 is provided with separation pump 22；Reactor 1.3 incite somebody to action both with oxygenator 1.2 by the intercommunicating pore 12 opened up on second partition 1.6 Inner space；

The upper end of left side cavity 1.4 at plasma separator 1.1 is provided with blood/priming fluid entrance 1.1.1, and lower end is provided with Hemocyte exports 1.1.2, with located at plasma separator 1.1 between blood/priming fluid entrance 1.1.1 and hemocyte outlet 1.1.2 The hollow fiber bundle 8 of inside connect；

The upper end of cavity 1.4 of the mid portion at oxygenator 1.2 is provided with oxygen/carbon dioxide entrance 1.2.1, and oxygen is closed The inside of device 1.2 is provided with the permeable fiber membrane tube 9 being connected with oxygen/carbon dioxide entrance 1.2.1；

Right side cavity 1.4 at reactor 1.3 is provided with nutritional solution/hepatocyte suspension entrance 1.3.1, nutrition Liquid/hepatocyte suspension outlet 1.3.2 and blood plasma/priming fluid outlet 1.3.3, intercommunicating pore 12 and blood plasma/priming fluid outlet 1.3.3 Connected with the hollow fiber film tube 10 of the inside located at reactor 1.3；

Blood/priming fluid entrance 1.1.1 is connected with the outlet of tremulous pulse kettle 4, and blood plasma/priming fluid exports 1.3.3 and hemocyte Outlet 1.1.2 is connected in the lump with the entrance of venous chambers 6；

Integrated system is additionally provided with pipeline heating device 5.

The inlet end of device room connecting tube 11 is located at the side wall lower ends of plasma separator 1.1, and liquid outlet end is located at oxygenator 1.2 lower end；Intercommunicating pore 12 is located at the upper end of second partition 1.6.

The sealed support plate 21 for intercepting blood plasma/priming fluid is additionally provided with along its cross-sectional direction inside oxygenator 1.2, it is close Envelope supporting plate 21 is located at the top of intercommunicating pore 12；Multiple apertures, the upper end of permeable fiber membrane tube 9 are offered on sealed support plate 21 It is fastened in aperture, and the space formed by sealed support plate 21 and the inner cavity top of oxygenator 1.2, with oxygen/carbon dioxide Entrance 1.2.1 is connected.

Inside plasma separator 1.1 two are additionally provided with for intercepting the poly- ammonia that cell and liquid pass through along its cross-sectional direction Ester resin scaffold plate 14, two polyurethane resin supporting plates 14 are located at respectively the upper and lower ends of plasma separator 1.1 and divide with blood plasma Keep at a distance from the end inner chamber of device 1.1, multiple through holes, the two ends of hollow fiber bundle 8 are offered on polyurethane resin supporting plate 14 It is arranged in respectively in the through hole of different polyurethane resin supporting plates 14, the inlet end of device room connecting tube 11 is located at two polyurethane Between resin scaffold plate 14.

Inside reactor 1.3 two are additionally provided with for intercepting the polyurethane tree that cell and liquid pass through along its cross-sectional direction Fat rack plate 15, two polyurethane resin rack plates 15 be located at respectively the upper and lower ends of reactor 1.3 and with the end of reactor 1.3 in Chamber is kept at a distance, and multiple through holes are offered on polyurethane resin rack plate 15, and the two ends of hollow fiber film tube 10 are arranged in respectively In the through hole of different polyurethane resin rack plates 15, intercommunicating pore 12 is located at the top of polyurethane resin rack plate 15, nutritional solution/liver Cell suspending liquid entrance 1.3.1 and nutritional solution/hepatocyte suspension outlet 1.3.2 be located at two polyurethane resin rack plates 15 it Between.

Left side cavity 1.4 at plasma separator 1.1 be additionally provided between two polyurethane resin supporting plates 14 with The plasma separator standby adding mouth 1.1.3 and plasma separator outlet 1.1.4 of the inner space of plasma separator 1.1；Oxygen is closed The lower end of device 1.2 is provided with oxygenator adding mouth 1.2.4；The inlet end of device room connecting tube 11 and plasma separator outlet 1.1.4 connection；The liquid outlet end of device room connecting tube 11 connects with oxygenator adding mouth 1.2.4.

The upper end of cavity 1.4 of the mid portion at oxygenator 1.2 is additionally provided with the standby adding mouth 1.2.3 of oxygenator, oxygen The standby adding mouth 1.2.3 of clutch is connected with the space of the lower section of sealed support plate 21；Mid portion at oxygenator 1.2 The lower end of cavity 1.4 is provided with the adding mouth 1.2.2 for infusion medicine-feeding.

Permeable fiber membrane tube 9 is tortuous to be arranged, and its upper end connects with oxygen/carbon dioxide entrance 1.2.1, and lower end is closing End.

Blood plasma/priming fluid outlet 1.3.3 is provided with polyethersulfone filter film 16, polyethylene filter membrane or poly ethylene vinyl alcohol and filters Film, its thickness is 100 μm ± 25 μm, and membrane aperture is 0.5 μm ± 0.1 μm.

The Micropump for feeding the nutrient substance such as glucose for communicating therewith is additionally provided with oxygenator adding mouth 1.2.4 standby Interface 23.Integrated system is also included for the biomonioring device 13 of continuous on-line monitoring biochemical indicator, biomonioring device 13 Refer to including prison TT＆C system 13.1, signal feedback system 13.2 and the upstream reason biochemistry being connected with the prison signal of telecommunication of TT＆C system 13.1 Biochemical indicator detecting head 13.4 is managed in mark detecting head 13.3 and downstream；Upstream reason biochemical indicator detecting head 13.3 is located at blood input port At 2, downstream reason biochemical indicator detecting head 13.4 is at blood recovery mouth 7.

Addition medicine or liquid are respectively provided with tremulous pulse kettle 4, on venous chambers 6, between blood pump 3 and blood input port 2 Arm 17；The heparin arm 18 for injecting heparin is provided between blood pump 3 and tremulous pulse kettle 4.

Whether the air monitoring device of air is had in being additionally provided between venous chambers 6 and blood recovery mouth 7 for monitoring pipeline 19。

Pipeline heating device 5 is water-bath, and three-in-one bioreactor 1 is as in water-bath, its adopt external hanging type with System connects.A support 5.1 that can be taken off is may also set up in water-bath, three-in-one bioreactor 1 is put into support during heating 5.1 it is interior.

Integrated system also include multiple pressure-detecting devices 20, be respectively arranged on tremulous pulse kettle 4, on venous chambers 6, blood input Between mouth 2 and blood pump 3.

During using three-in-one bioreactor 1, be first turned on oxygen/carbon dioxide entrance 1.2.1, then open blood/ Priming fluid entrance 1.1.1 and blood plasma/priming fluid outlet 1.3.3, and by blood/priming fluid entrance 1.1.1 saline injections With the three-in-one bioreactor 1 of pre-flush；Blood/priming fluid entrance 1.1.1 is turned off, aseptically will be with hepatocyte Microcarrier suspension makes whole reactor 1.3 be full of micro- load from nutritional solution/hepatocyte suspension entrance 1.3.1 injecting reactors 1.3 Somatic cell suspension；Subsequently the blood of acute hepatic failure pig model is introduced into plasma separator from blood/priming fluid entrance 1.1.1 1.1, blood after hollow fiber bundle 8, from hemocyte outlet 1.1.2 discharge, and remaining blood plasma exists by hemocyte and part blood plasma Separate and the inner chamber of oxygenator 1.2 is entered by device room connecting tube 11 in the presence of pump 22, and reactor 1.3 is entered by intercommunicating pore 12 Inner chamber, last menses slurry/priming fluid outlet 1.3.3 discharges reactor 1.3；Hemocyte and portion that hemocyte outlet 1.1.2 is discharged Divide the blood plasma that blood plasma is discharged with blood plasma/priming fluid outlet 1.3.3 to be fed back in pig body after mixing, form a treatment and loop back Road.Over the course for the treatment of, to the inner chamber insufflation gas of oxygenator 1.2, gas is from permeable fiber for oxygen/carbon dioxide entrance 1.2.1 The upper end of membrane tube 9 is entered in permeable fiber membrane tube 9, because permeable fiber membrane tube 9 is placed in the inner chamber of oxygenator 1.2, so as to ensure one In the case of fixed dissolved oxygen, pH (carbon dioxide regulation), the circulation treatment of blood plasma can be maintained up to dozens of hour, terminate to control Treat, Kaplan-Meier survival analysises show that this treatment can significantly extend the time-to-live of animal subject.

Treatment starts, and after the blood of liver failure patient is drawn in vitro, enters three-in-one by blood/priming fluid entrance 1.1.1 Formula bioartificial liver monitors on-line and heated at constant temperature integrated system, and blood is entered in three-in-one bioreactor 1 and detoxified, and has been detoxified It is back in patient or laboratory animal body by blood recovery mouth 7.

During treatment is carried out, biochemical indicator detecting head 13.3, downstream is managed using the upstream at its two ends by biomonioring device 13 Reason biochemical indicator detecting head 13.4 monitors respectively blood plasma bilirubin, ammonia, creatinine, the carbamide of the three-in-one bioreactor 1 of turnover The change of the biochemical indicators such as nitrogen, liver enzyme, albumin, hemoglobin, erythrocyte, leukocyte, prison TT＆C system 13.1 is obtained immediately With process institute Monitoring Data, and whole system is fed back by signal feedback system 13.2 implement control.

After treatment end, used consumptive material is processed；By polyethersulfone filter film 16, transducer potector etc. from artificial liver Remove on machine equipment and the discarded step according to hospital facility is discarded.

Claims (10)

1. a kind of three-in-one type bioartificial liver monitors on-line and heated at constant temperature integrated system, it is characterised in that：Including order phase Blood input port (2) even, blood pump (3), tremulous pulse kettle (4), three-in-one bioreactor (1), venous chambers (6) and blood recovery mouth (7)；

The three-in-one bioreactor (1) includes cavity (1.4) and the first dividing plate being arranged in the cavity (1.4) And second partition (1.6) (1.5)；First dividing plate (1.5) and second partition (1.6) by the cavity (1.4) be divided into from a left side to Three right separate space, are followed successively by plasma separator (1.1), oxygenator (1.2) and reactor (1.3)；

The plasma separator (1.1) is connected both inner chambers from outside by device room connecting tube (11) with the oxygenator (1.2) Logical, device room connecting tube (11) is provided with separation pump (22)；The reactor (1.3) is with the oxygenator (1.2) by The intercommunicating pore (12) opened up on two dividing plates (1.6) will both inner spaces；

Blood/priming fluid entrance (1.1.1) is provided with positioned at left side cavity (1.4) upper end at the plasma separator (1.1) place, under End is provided with hemocyte outlet (1.1.2), and the blood/priming fluid entrance (1.1.1) and hemocyte export between (1.1.2) to set Hollow fiber bundle (8) in the inside of the plasma separator (1.1) is connected；

Cavity (1.4) upper end positioned at the mid portion at the oxygenator (1.2) place is provided with oxygen/carbon dioxide entrance (1.2.1), the inside of the oxygenator (1.2) is provided with the ventilative fibre being connected with the oxygen/carbon dioxide entrance (1.2.1) Dimension membrane tube (9)；

Right side cavity (1.4) positioned at the reactor (1.3) place be provided with nutritional solution/hepatocyte suspension entrance (1.3.1), Nutritional solution/hepatocyte suspension outlet (1.3.2) and blood plasma/priming fluid outlet (1.3.3), the intercommunicating pore (12) and blood plasma/ Priming fluid exports (1.3.3) with located at the connection of the hollow fiber film tube (10) of the inside of the reactor (1.3)；

The blood/priming fluid entrance (1.1.1) is connected with the outlet of tremulous pulse kettle (4), the blood plasma/priming fluid outlet (1.3.3) it is connected with the entrance of the venous chambers (6) in the lump with hemocyte outlet (1.1.2)；

The integrated system is additionally provided with pipeline heating device (5).

2. three-in-one type bioartificial liver according to claim 1 monitors on-line and heated at constant temperature integrated system, its feature It is：The inlet end of device room connecting tube (11) is located at the side wall lower ends of the plasma separator (1.1), liquid outlet end position In the lower end of the oxygenator (1.2)；Upper end of the intercommunicating pore (12) positioned at second partition (1.6).

3. three-in-one type bioartificial liver according to claim 2 monitors on-line and heated at constant temperature integrated system, its feature It is：The sealed support plate for intercepting blood plasma/priming fluid is additionally provided with inside the oxygenator (1.2) along its cross-sectional direction (21), top of the sealed support plate (21) positioned at intercommunicating pore (12)；Offer on the sealed support plate (21) multiple little Hole, the upper end of the permeable fiber membrane tube (9) is fastened in aperture, and by sealed support plate (21) and oxygenator (1.2) The space that top of chamber is formed, is connected with oxygen/carbon dioxide entrance (1.2.1).

4. the three-in-one type bioartificial liver according to Claims 2 or 3 monitors on-line and heated at constant temperature integrated system, and it is special Levy and be：The plasma separator (1.1) is internal to be additionally provided with two for intercepting cell and liquid passes through along its cross-sectional direction Polyurethane resin supporting plate (14), two polyurethane resin supporting plates (14) are located at respectively plasma separator (1.1) upper and lower two Hold and keep at a distance with plasma separator (1.1) end inner chamber, offer on the polyurethane resin supporting plate (14) multiple logical Hole, the two ends of the hollow fiber bundle (8) are arranged in respectively in the through hole of different polyurethane resin supporting plates (14), the device room The inlet end of connecting tube (11) is located between two polyurethane resin supporting plates (14).

5. the three-in-one type bioartificial liver according to Claims 2 or 3 monitors on-line and heated at constant temperature integrated system, and it is special Levy and be：The reactor (1.3) is internal to be additionally provided with two for intercepting cell and that liquid passes through is poly- along its cross-sectional direction Urethane resin scaffold piece (15), two polyurethane resin rack plates (15) be located at respectively reactor (1.3) upper and lower ends and with it is anti- Answer device (1.3) end inner chamber to keep at a distance, multiple through holes, the hollow-fibre membrane are offered on polyurethane resin rack plate (15) The two ends of pipe (10) are arranged in respectively in the through hole of different polyurethane resin rack plates (15), and the intercommunicating pore (12) is positioned at poly- ammonia The top of ester resin scaffold piece (15), nutritional solution/hepatocyte suspension entrance (1.3.1) and nutritional solution/hepatocyte suspension go out Mouth (1.3.2) is located between two polyurethane resin rack plates (15).

6. three-in-one type bioartificial liver according to claim 1 monitors on-line and heated at constant temperature integrated system, its feature It is：The integrated system is also included for the biomonioring device (13) of continuous on-line monitoring biochemical indicator, the biochemical prison Survey device (13) and supervise TT＆C system (13.1) telecommunications including prison TT＆C system (13.1), signal feedback system (13.2) and with described Number connection upstream reason biochemical indicator detecting head (13.3) and downstream manage biochemical indicator detecting head (13.4)；The upstream reason is biochemical , located at the blood input port (2) place, downstream reason biochemical indicator detecting head (13.4) is located at institute for index detecting head (13.3) State blood recovery mouth (7) place.

7. three-in-one type bioartificial liver according to claim 1 monitors on-line and heated at constant temperature integrated system, its feature It is：Addition medicine is respectively provided with the tremulous pulse kettle (4), on venous chambers (6), between blood pump (3) and blood input port (2) The arm (17) of thing or liquid；The heparin arm (18) for injecting heparin is provided between the blood pump (3) and tremulous pulse kettle (4).

8. three-in-one type bioartificial liver according to claim 1 monitors on-line and heated at constant temperature integrated system, its feature It is：Whether the air of air is had in being additionally provided with for monitoring pipeline between the venous chambers (6) and the blood recovery mouth (7) Monitoring device (19).

9. three-in-one type bioartificial liver according to claim 1 monitors on-line and heated at constant temperature integrated system, its feature It is：The pipeline heating device (5) is water-bath, and the three-in-one bioreactor (1), as in water-bath, it is adopted External hanging type is connected with system.

10. three-in-one type bioartificial liver according to claim 1 monitors on-line and heated at constant temperature integrated system, its feature It is：The integrated system also include multiple pressure-detecting devices (20), be respectively arranged on tremulous pulse kettle (4), on venous chambers (6), Between blood input port (2) and blood pump (3).