JP2003325162A - Apparatus for transporting cell - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To provide an apparatus for transporting cells transporting a small number of the cells in a good state without being contaminated with various germs and without killing the cells. <P>SOLUTION: The apparatus A for transporting the cells has at least a transportation vessel 10. Furthermore, the transportation vessel 10 is a heat insulating vessel separable into the interior 11 provided with a humidification vat 13, a heater 14 and a sensor mechanism having an O<SB>2</SB>sensor, a CO<SB>2</SB>sensor, an N<SB>2</SB>sensor, a temperature sensor, a humidity sensor, etc., and the exterior 12. The internal inner surface of the transportation vessel 10 is a material having high antimicrobial properties or kept in a sterilized state. <P>COPYRIGHT: (C)2004,JPO

Description

Detailed Description of the Invention

[0001]

TECHNICAL FIELD The present invention relates to a cell carrier. More specifically, the present invention relates to a cell transfer device suitable for transferring a small number of cells.

[0002]

2. Description of the Related Art The twenty-first century is called the century of life, and many companies have entered research and development in the field of life science. In addition, public research subsidies are strategically invested in, and many research and development efforts are being made vigorously. Particularly, in the field of regenerative medicine, clinical application and preclinical tests have been carried out for some organs and tissues such as skin, cartilage, and bone tissue.

In the field of life science including regenerative medicine, it is necessary to cultivate necessary cells and tissues in a large amount and homogeneously without being affected by other bacteria, and the cultured cells. It is necessary to aseptically transport it to a facility that requires such items. In particular, in the field of regenerative medicine, aseptic transportation is indispensable also in terms of preventing infectious diseases after surgery in order to return cultured cells and the like to the human body. For transporting the cultured cells, it is conceivable to use an organ transport container similar to a cooler box for transporting an organ donated by an organ donor (hereinafter referred to as donated organ) in organ transplantation. However, when an organ transport container that transports an organ composed of a large number of cells is used for transporting cultured cells, a small number of cells may die during transport.

However, in the field of life sciences including regenerative medicine, since a small number of cells are originally targeted for transportation, cell death during transportation is a serious problem. Therefore, in the field of life science including regenerative medicine, the advent of a cell transport device capable of avoiding cell death during transport is eagerly awaited.

[0005]

SUMMARY OF THE INVENTION The present invention has been made in view of the above problems of the prior art, and it is an object of the present invention to provide a cell carrier capable of carrying a good condition without killing a small number of cells. Has an aim.

[0006]

The cell transfer device of the present invention is a cell transfer device having at least a transfer container, wherein the transfer container is separable into an outside and a sterilized inside. The inner surface is characterized by being made of a highly antibacterial material.

In the cell transfer device of the present invention, the transfer container is an adiabatic container, a humidifying means for supplying humidity to the inside, a heating means for keeping the inside temperature properly, and an internal state are detected. And a sensor mechanism for

Further, in the cell carrier of the present invention,
The transport container is preferably separable into a top part and a bottom part.

Further, in the cell transport device of the present invention, it is preferable that a monitor device for monitoring the detection value of the sensor mechanism is detachably provided.

Further, in the cell transfer device of the present invention, a gas supply device for supplying gas to the transfer container, a gas exhaust device for exhausting gas from the transfer container, and a control device are detachably provided, and It is preferable that the control device controls the heating means, the gas supply device, and the gas exhaust device based on the detection value of the sensor mechanism.

[0011] Here, the sensor mechanism includes a O ₂ sensor for measuring the O ₂ concentration, and CO ₂ sensor for measuring the CO ₂ concentration, a temperature sensor for measuring the temperature, and a humidity sensor for measuring the humidity of at least Be prepared.

[0012]

Since the cell carrier of the present invention is constructed as described above, a small number of cells are not contaminated by various bacteria,
It can also be transported without being killed.

Further, according to the preferred embodiment of the present invention, it is possible to monitor changes in the concentration, temperature, humidity and the like of the atmospheric gas in the transfer container during transfer.

Furthermore, according to another preferred embodiment of the present invention, the concentration, temperature, humidity, etc. of the atmospheric gas in the transfer container during transfer can be maintained in an optimum state.

[0015]

BEST MODE FOR CARRYING OUT THE INVENTION Hereinafter, the present invention will be described based on the embodiments with reference to the accompanying drawings, but the present invention is not limited to such embodiments.

FIG. 1 is a schematic diagram showing a cell transport device according to an embodiment of the present invention.

As shown in FIG. 1, the cell transfer device A includes a transfer container 10, a gas supply device 20 for supplying gas to the transfer container 10, a gas exhaust device 30 for exhausting gas from the transfer container 10, and a monitor. The device 40 and the control device 50 are provided as main components.

The transport container 10 is a heat-insulating container having a double structure consisting of the outside and the inside, and the inside inner surface is made of a material having a high antibacterial property.
For example, it is a copper alloy. Further, the inside is separable into a bottom portion 11 and an upper portion 12. As a result, it is possible to carry the cells into and out of the transport container 10, and prevent the transported cells from being contaminated with various bacteria. As for the structure of the double structure that allows the transport container 10 to be airtightly and vertically separable, known various separable airtight double structures can be preferably used.

Further, the transfer container 10 is provided with a humidifying means such as a humidifying pad 13 for keeping the inside of the container 10 at an appropriate humidity.
Heating means for maintaining the temperature in the container 10 at an appropriate temperature, for example, the heater 14, a sensor mechanism 60 for measuring the gas concentration, temperature, humidity, etc. in the container 10, and a connecting portion 15 with the gas supply device 20, A connecting portion 16 with the gas exhaust device 30,
A power supply terminal 17 to the heater 14 is provided. Here, in order to prevent invasion of germs into the container 10, the disinfection filters 15a and 16a are attached to the connection part 16 with the gas supply device 20 and the connection part 17 with the gas exhaust device 30 (FIG. 2).

The sensor mechanism 60, although not shown, measures the O ₂ sensor for measuring the O ₂ concentration, and CO ₂ sensor for measuring the CO ₂ concentration, a temperature sensor for measuring the temperature, the humidity humidity At least a sensor is provided. Then, the output from each of these sensors is sent to the external output socket 62 that is hermetically attached to the transport container 10 by the collective cable 61.

The humidifying pad 13 and the heater 14
Since various well-known humidifying pads, heaters, and heater power supplies can be suitably used as the power supply 17 and the power supply 17, a detailed description of the configuration will be omitted.

The gas supply device 20 is, as shown in FIG.
And O ₂ gas supplied O ₂ gas supply mechanism 21, the CO ₂ gas supply mechanism 22 for supplying a CO ₂ gas, and N ₂ gas supply mechanism 23 for supplying N ₂ gas, the gas supply mechanism 21,2
A gas supply pump 24 for supplying the mixed gas from 2, 23 into the container 10 and a connecting gas pipe 25 are provided. The connection portion of the gas pipe 25 with the transfer container 10 is configured to be easily attachable to and detachable from the connection portion 15 on the container 10 side. A known simple attachment / detachment mechanism can be preferably used for such a configuration.

The O ₂ gas supply mechanism 21, the O ₂ gas pressure supply source (e.g., a portable O ₂ gas cylinder) and 21a, the O ₂ gas flow rate control valve for controlling the O ₂ gas amount from the O ₂ gas pressure supply source 21a 21b and a valve controller 21c for controlling the O ₂ control valve 21b.

CO₂The gas supply mechanism 22 uses CO₂Gas high pressure
Source (eg portable CO₂Gas cylinder) 22a, C
O₂CO from the gas high pressure supply source 22a₂Control the amount of gas
CO ₂Gas flow control valve 22b and CO₂Control valve 22b
Control valve controller 22c
It

The N ₂ gas supply mechanism 23, N ₂ gas pressure supply source (e.g., a portable N ₂ gas cylinder) and 23a, the N ₂ gas flow rate control valve for controlling the N ₂ gas amount from the N ₂ gas pressure supply source 23a 23b and a valve controller 23c for controlling the N ₂ control valve 23b.

The gas supply pump 24 is a connecting gas pipe 25.
O ₂ gas supply mechanism 21, CO ₂ gas supply mechanism 22
And the mixed gas supplied from the N ₂ gas supply mechanism 23 is supplied into the container 10 through the connecting gas pipe 25. The gas supply pump 24 is an oil-free pressurizing pump that can pressurize to, for example, several atmospheres. Further, in order to rapidly fill the inside of the incubator with a desired gas component, it is also desirable to use a buffer tank such as an accumulator together.

The gas exhaust device 30 includes a gas exhaust pump 31.
And a gas exhaust pipe 32. The gas exhaust pump 31 can be decompressed to, for example, a fraction of atmospheric pressure and is close to a kind of oil-free vacuum pump. Further, in order to rapidly reduce the pressure inside the incubator, it is also desirable to use a buffer tank such as a vacuum tank together. Also, the gas exhaust pipe 3
The connection portion of the second transport container 10 is the connection portion 1 on the container 10 side.
6 is a structure that can be easily attached and detached. A known simple attachment / detachment mechanism can be preferably used for such a configuration.

The monitor device 40 is, for example, a CRT display, and the sensor mechanism 60 is input from an output collecting cable 63 connected to the external output socket 62.
Measurements from, i.e. O ₂ concentration from the O ₂ sensor, CO ₂
The CO ₂ concentration from the sensor, the temperature from the temperature sensor, the humidity from the humidity sensor, etc. are displayed.

The control device 50 is, for example, a one-chip microcomputer, and based on the measured value from the sensor mechanism 60 input from the output collecting cable 63, the heater power source 7
0, the gas supply device 20, the gas exhaust device 30, etc. are controlled to maintain the gas concentration, temperature and humidity in the transfer container 10 at predetermined values.

As described above, according to the cell carrier A of this embodiment, a small number of cells are not contaminated by various bacteria,
It can also be transported without being killed. Moreover, since the gas concentration, temperature, humidity and the like in the transfer container 10 can be monitored by the monitor device 40 as needed, it is possible to quickly respond to a change in the transfer container 10. Furthermore, since the controller 50 can control the heater power supply 70, the gas supply device 20, the gas exhaust device 30, and the like to maintain the gas concentration, temperature, and humidity in the transfer container 10 at predetermined values, optimal cells can be obtained. It is possible to carry for a long time under various conditions.

[0031]

As described in detail above, according to the cell transporting apparatus of the present invention, it is possible to transport a small number of cells without being contaminated by various bacteria and without being killed.

Further, according to the preferred embodiment of the cell transporting apparatus of the present invention, it is possible to obtain an excellent effect that it is possible to monitor changes in the concentration, temperature, humidity and the like of the atmospheric gas in the transporting container during transportation.

Further, according to another preferable mode of the cell transporting apparatus of the present invention, it is possible to obtain an excellent effect that the concentration, temperature, humidity and the like of the atmospheric gas in the transporting container during transporting can be maintained in an optimum state. .

[Brief description of drawings]

FIG. 1 is a schematic view of a cell transfer device according to an embodiment of the present invention.

FIG. 2 is a schematic view of a gas supply device and a gas exhaust device of the cell transfer device.

[Explanation of symbols]

10 Transport Container 11 Bottom 12 Upper 13 Humidification Pad 14 Heater 20 Gas Supply Device 21 O ₂ Gas Supply Mechanism 22 CO ₂ Gas Supply Mechanism 23 N ₂ Gas Supply Mechanism 24 Gas Supply Pump 30 Gas Exhaust Device 31 Gas Exhaust Pump 40 Monitor Device 50 Controller 60 Sensor mechanism A Cell carrier

   ─────────────────────────────────────────────────── ─── Continued front page    (72) Inventor Eiichi Yagi             1-1 Kawasaki-cho, Akashi-shi Kawasaki Heavy Industries Stock Association             Inside the company Akashi factory (72) Inventor Sadao Kubo             1-1 Kawasaki-cho, Akashi-shi Kawasaki Heavy Industries Stock Association             Inside the company Akashi factory F-term (reference) 4B029 AA08 BB11 CC02 GB04 GB08

Claims (6)

[Claims] 1. A cell transfer device having at least a transfer container, wherein the transfer container is separable into an outside and a sterilized inside, and the inside inner surface is made of a material having a high antibacterial property. A cell transport device characterized by the above. 2. The transport container is a heat-insulating container, and has a humidifying means for supplying humidity to the inside, a heating means for appropriately maintaining the inside temperature, and a sensor mechanism for detecting the inside condition. The cell carrier device according to claim 1, wherein 3. The cell transfer device according to claim 1, wherein the transfer container is separable into a top part and a bottom part. 4. The cell transfer device according to claim 2, further comprising a monitor device that is detachably attached to monitor a detection value of the sensor mechanism. 5. A gas supply device that supplies gas to the transfer container, a gas exhaust device that exhausts gas from the transfer container, and a control device are detachably provided, and the control device detects the sensor mechanism. Based on the value
The cell transfer device according to claim 2, wherein the heating means, the gas supply device, and the gas exhaust device are controlled. Wherein said sensor mechanism, O ₂ and sensor O ₂ for measuring the concentration, and CO ₂ sensor for measuring the CO ₂ concentration, including at least a temperature sensor for measuring the temperature, and a humidity sensor for measuring the humidity The cell carrier device according to claim 2, wherein