CN108529017A - High concentration long-time cyropreservation transport device under a kind of room temperature - Google Patents

Abstract

The present invention relates to high concentration long-time cyropreservation transport devices under a kind of room temperature, including the first shell, the first inner casing is equipped in the inner cavity of first shell, the side wall of first inner casing is equipped with the permeability hole for penetrating shell side wall in first, and the permeable membrane being connect with first inner casing is equipped at the permeability hole.High concentration long-time cyropreservation transport device under the room temperature of the present invention is adapted to transport high concentration cell liquid over long distances, for a long time and cell liquid is not easy to be contaminated by the setting of the first shell and the first inner casing.

Description

High concentration long-time cyropreservation transport device under a kind of room temperature

Technical field

The present invention relates to a kind of cell transportation devices more particularly to one kind transporting preservation in the long period at normal temperatures The preservation transport device of high concentration cell.

Background technology

The method for being presently used for preserving and transporting fresh cells at normal temperatures is that cell and culture solution are sealed in a culture In ware.In order to ensure to provide enough nutritional supports to cell in transportational process, while in order to ensure that cell metabolism is produced Object can effectively be diluted, cell usually with lower concentration distribution in the medium, such as 1 × 10⁵/ml.It transports in this way Defeated cell needs centrifugal concentrating to be re-prepared as suitable concentration after arriving at, or needs to continue to cultivate several It.The former increases process, while cell is easily contaminated, and the processing mode of the latter makes laboratory and clinical manipulation people Member cannot use cell at once.The two, which is required for receiving unit, must have certain laboratory equipment.Therefore it is unfavorable for cell The clinical for the treatment of product directly uses.On the other hand, culture solution oscillation causes cell and culture dish in transportational process in order to prevent Wall, which generates, to be hit and leads to cell death, while leading to protein inactivation in order to avoid generating air bubble in culture solution, general meeting Culture solution is filled in culture dish, excludes residual air.But such way cannot ensure cell in long-time transportational process In continue to obtain air, high concentration carbon dioxide especially therein.Further, since culture solution is in direct contact with culture dish mouth, If having in operation any careless, external bacterium is possible by culture solution micro in sealing-plug and enters test tube It is interior, to generate pollution to invisible spectro cell.

Due to above-mentioned many reasons, after long-distance transportation, the survival rate of cell it is often relatively low (generally 5 0%~ 60% or so) requirement used, cannot be met.And if it is transporting over long distances, for a long time, cell even can be because of survival rate too It is low and can not recover.

It is obvious that at present in the solution to the several critical issues of cell means of transportation, in cell concentration, cell culture Liquid, cannot take into account on the Railway Projects such as rich carbonated air (such as it is above-mentioned in order to ensure that cell was transporting Survival rate in journey, the sufficient culture solution that needs in test tube to prestore is cells with nutrients.However, the addition of culture solution then reduces The concentration of cell.After reaching transport destination, operating personnel also need to use after concentrating cell liquid, not only increase Workload is added, has also increased the possibility of outside contamination).These limitations have seriously affected fresh cells and have grown at room temperature Distance, prolonged transport.Therefore in the case where carrying out clinical cytology treatment on a large scale, current cell transportation resources is badly in need of Obtain revolutionary change.

In view of the above shortcomings, the designer, is actively subject to research and innovation, to found a kind of new structural cell Storage device makes it with more the utility value in industry.

Invention content

In order to solve the above technical problems, the object of the present invention is to provide one kind being suitable for long range, for a long time transport high concentration Cell liquid and cell liquid are not easy high concentration long-time cyropreservation transport device under contaminated room temperature.

High concentration long-time cyropreservation transport device under the room temperature of the present invention, including the first shell, first shell Inner cavity in be equipped with the first inner casing, the side wall of first inner casing is equipped with the permeability hole for penetrating shell side wall in first, described to ooze Through-hole position is equipped with the permeable membrane being connect with first inner casing.

According to the above aspect of the present invention, the present invention has at least the following advantages：High concentration long-time cell is protected under the room temperature of the present invention Transport device, including the first shell and the first inner casing are hidden, permeable membrane is provided on the first inner casing, when specifically used, operating personnel Cell liquid is placed in the first inner casing, culture solution is placed in the first shell.The setting of permeable membrane so that be located in the first shell Culture solution in chamber can be entered in the first inner casing by permeable membrane, to be the cells with nutrients in the first inner casing, this Sample, operating personnel can store the higher cell liquid of concentration, while the setting of external medium in the first inner casing so that highly concentrated The cell liquid of degree will not reduce its survival rate due to long-time transport, and cell liquid can directly make after transporting predeterminated target With without being concentrated.Further, since cell liquid is stored in the first inner casing, it is not directly arranged in culture solution, cell It is separately positioned with culture solution, to reduce its contaminated risk.

In conclusion high concentration long-time cyropreservation transport device is suitable for over long distances, for a long time under the room temperature of the present invention It transports high concentration cell liquid and cell liquid is not easy to be contaminated.

Further, high concentration long-time cyropreservation transport device under room temperature of the invention, the top of first shell End is equipped with the head cover with the first cage connection, and the top of first inner casing is set on the head cover.

Further, high concentration long-time cyropreservation transport device under room temperature of the invention, first shell, first Inner casing is connect by screw thread with the head cover.

Further, high concentration long-time cyropreservation transport device, the head cover include upper cover under room temperature of the invention Body, the lower cover below upper cover body and the first ventilated membrane between upper cover body, lower cover, the upper cover body and lower cover The venthole being connected to the inner cavity of the inner cavity of first shell or the first inner casing is accordingly equipped on body.(venthole be in order to Air or carbon dioxide enter cell liquid or culture solution, and the carbon dioxide and air being otherwise arranged in upper shell cannot propagate into Into lower housing, upper shell just loses effect)

The setting of venthole so that outside air can be entered by venthole and ventilated membrane in the first shell, to Air is provided for the culture solution in the first shell, to increase the air content in culture solution, further increases cell Survival rate.

Further, high concentration long-time cyropreservation transport device under room temperature of the invention, first shell it is upper Side is equipped with second housing.

Further, high concentration long-time cyropreservation transport device under room temperature of the invention, the second housing are interior also Equipped with the second inner casing, the second housing, the second inner casing are connect with head cover, and the side wall of second inner casing, which is equipped with, penetrates the The air hole of shell side wall in two, the second ventilated membrane being connect with the second inner casing is equipped at the air hole, and the venthole is located at The middle part of head cover, and venthole is connected to the inner cavity of the inner cavity of the second inner casing, the first inner casing respectively.

When due to long distance transportation, high concentration long-time cyropreservation transport device is set to more simultaneously under multiple room temperature In closed space, in the holding tank in box body, therefore its air content is less.For this purpose, the setting of second housing so that behaviour A certain amount of air can be stored in second housing in advance by making personnel, to increase the survival rate of cell, be cell liquid it is long when Between store and transport provide possibility.And the setting of the second inner casing so that the gas in the first inner casing can pass through the second inner casing On the second ventilated membrane, venthole and the first ventilated membrane enter in the first inner casing, to further completely cut off extraneous air and the The inner cavity of one inner casing, to avoid cell liquid contaminated.

Further, high concentration long-time cyropreservation transport device under room temperature of the invention, first shell and It is both provided with rubber stopper on the side wall of two shells.

The setting of rubber stopper so that operating personnel can be injected into the first shell culture solution by rubber stopper or to outside second Injected gas in shell, while culture solution or gas are not easy to be contaminated.

Further, high concentration long-time cyropreservation transport device under room temperature of the invention is set in the second housing It is equipped with mixed gas, the mixed gas includes air and carbon dioxide, and the volume ratio of the carbon dioxide and air is 5%~ 10%.

Carbon dioxide and air stoichiometry are most suitable for the growth of cell at 5%.Carbon dioxide can be by being arranged outside second Sodium bicarbonate in shell is formed.

Further, high concentration long-time cyropreservation transport device under room temperature of the invention, first inner casing and The volume ratio of one shell is 1:10~1:50, the volume ratio of the first inner casing and second housing is 1:10~1:50.

Further, high concentration long-time cyropreservation transport device under room temperature of the invention is set in first inner casing It is equipped with cell liquid, culture solution is provided in first shell.

Above description is only the general introduction of technical solution of the present invention, in order to better understand the technical means of the present invention, And can be implemented in accordance with the contents of the specification, below with presently preferred embodiments of the present invention and after coordinating attached drawing to be described in detail such as.

Description of the drawings

Fig. 1 be embodiment one room temperature under high concentration long-time cyropreservation transport device structural schematic diagram；

Fig. 2 be embodiment two room temperature under high concentration long-time cyropreservation transport device structural schematic diagram；

Fig. 3 be embodiment two room temperature under high concentration long-time cyropreservation transport device structural schematic diagram；

Fig. 4 be example IV room temperature under high concentration long-time cyropreservation transport device structural schematic diagram；

Fig. 5 be embodiment five room temperature under high concentration long-time cyropreservation transport device structural schematic diagram；

Fig. 6 be embodiment six room temperature under high concentration long-time cyropreservation transport device structural schematic diagram；

Fig. 7 is cell survival rate curve graph corresponding with a kind of table 1 of embodiment.

In figure, 1：First shell；2：First inner casing；3：Permeable membrane；4：Head cover；5：Upper cover body；6：Lower cover；7：First thoroughly Air film；8：Venthole；9：Rubber stopper；10：Cell liquid；11：Culture solution； 12：Second housing；13：Second inner casing；14：Second thoroughly Air film.

Specific implementation mode

With reference to the accompanying drawings and examples, the specific implementation mode of the present invention is described in further detail.Implement below Example is not limited to the scope of the present invention for illustrating the present invention.

Embodiment one：

Referring to Fig. 1,7, high concentration long-time cyropreservation transport device under the room temperature of the present embodiment, including the first shell 1, The first inner casing 2 is equipped in the inner cavity of first shell, the side wall of the first inner casing is equipped with the permeability hole for penetrating shell side wall in first, oozes Through-hole position is equipped with the permeable membrane 3 being connect with the first inner casing.

Preferably, the top of the first shell is equipped with the head cover 4 with the first cage connection, the top of the first inner casing is set to top It covers.

Preferably, the first shell, the first inner casing are connect by screw thread with head cover.

Preferably, head cover include upper cover body 5, the lower cover 6 below upper cover body and positioned at upper cover body, lower cover it Between the first ventilated membrane 7, the venthole 8 being connected to the inner cavity of the first shell is accordingly equipped in upper cover body and lower cover.

Preferably, being provided with rubber stopper 9 on the side wall of the first shell.

Preferably, being provided with cell liquid 10 in the first inner casing, culture solution 11 is provided in the first shell.

When specifically used, cell liquid is placed in the first inner casing by operating personnel, and culture solution is placed in the first shell.Infiltration The setting of film so that the culture solution in the first shell inner cavity can be entered by permeable membrane in the first inner casing, to for Cells with nutrients in first inner casing, in this way, operating personnel can store the higher cell liquid of concentration in the first inner casing, together When culture solution setting so that the cell liquid of high concentration will not due to long-time transport and reduce its survival rate, cell liquid exists It can be used directly after transporting predeterminated target without being concentrated.Further, since cell liquid is stored in the first inner casing, no It is directly arranged in culture solution, cell is separately positioned with culture solution, to reduce its contaminated risk.

Following table 1 is that 1ml initial concentrations are 4 × 10⁷The NAML-6 of/ml individually trains cell liquid using conventional method It supports behind several days and is filled the case where cell viability and using high concentration long-time cyropreservation transport under the room temperature of the present embodiment Set and place it in the culture solution of 25ml cultivate several days after cell viability the case where compare.The result shows that placing one week Afterwards, the cell of the high concentration preserved using conventional method has already decreased to half, and the cell for using this method to preserve still surpasses Cross 80% survival rate.

Table 1：4X10⁷Survival rate compares at 25 DEG C of cells/ml

Embodiment two：

Referring to Fig. 2, high concentration long-time cyropreservation transport device under the room temperature of the present embodiment, including the first shell 1, The first inner casing 2 is equipped in the inner cavity of one shell, the side wall of the first inner casing is equipped with the permeability hole for penetrating shell side wall in first, infiltration The permeable membrane 3 being connect with the first inner casing is equipped at hole.

Preferably, the top of the first shell is equipped with the head cover 4 with the first cage connection, the top of the first inner casing is set to top It covers.

Preferably, the first shell, the first inner casing are connect by screw thread with head cover.

Preferably, head cover include upper cover body 5, the lower cover 6 below upper cover body and positioned at upper cover body, lower cover it Between the first ventilated membrane 7, the venthole 8 being connected to the inner cavity of the first inner casing is accordingly equipped in upper cover body and lower cover.

Preferably, being provided with rubber stopper 9 on the side wall of the first shell.

Preferably, being provided with cell liquid 10 in the first inner casing, culture solution 11 is provided in the first shell.

The present embodiment venthole is located at the middle part of head cover, has been connected to the inner cavity of air and the first inner casing so that cell liquid Air can be directly absorbed from air.

Embodiment three：

Referring to Fig. 3, high concentration long-time cyropreservation transport device under the room temperature of the present embodiment, including the first shell 1, The first inner casing 2 is equipped in the inner cavity of one shell, the side wall of the first inner casing is equipped with the permeability hole for penetrating shell side wall in first, infiltration The permeable membrane 3 being connect with the first inner casing is equipped at hole.

Preferably, the top of the first shell is equipped with the head cover 4 with the first cage connection, the top of the first inner casing is set to top It covers.

Preferably, the first shell, the first inner casing are connect by screw thread with head cover.

Preferably, head cover include upper cover body 5, the lower cover 6 below upper cover body and positioned at upper cover body, lower cover it Between the first ventilated membrane 7, the venthole 8 being connected to the inner cavity of the first shell is accordingly equipped in upper cover body and lower cover.

The top of first shell is equipped with second housing 12.

Preferably, being both provided with rubber stopper on the side wall of the first shell, second housing.

Preferably, being provided with cell liquid in the first inner casing, culture solution is provided in the first shell.

Embodiment adds second housings, and when due to long distance transportation, high concentration long-time cell is protected under multiple room temperature It hides transport device to be set in more closed space simultaneously, in the holding tank in box body, therefore its air content is less.For This, the setting of second housing so that operating personnel can store a certain amount of air in second housing in advance, to increase cell Survival rate, for cell liquid long-time storage and transport provides possibility.

Example IV：

Referring to Fig. 4, high concentration long-time cyropreservation transport device under the room temperature of the present embodiment, including the first shell 1, The first inner casing 2 is equipped in the inner cavity of one shell, the side wall of the first inner casing is equipped with the permeability hole for penetrating shell side wall in first, infiltration The permeable membrane 3 being connect with the first inner casing is equipped at hole.

Preferably, the top of the first shell is equipped with the head cover 4 with the first cage connection, the top of the first inner casing is set to top It covers.

Preferably, the first shell, the first inner casing are connect by screw thread with head cover.

Preferably, head cover include upper cover body 5, the lower cover 6 below upper cover body and positioned at upper cover body, lower cover it Between the first ventilated membrane 7, the venthole 8 being connected to the inner cavity of the first inner casing is accordingly equipped in upper cover body and lower cover.

The top of first shell is equipped with second housing 9.

Preferably, being both provided with rubber stopper on the side wall of the first shell and second housing.

Preferably, being provided with cell liquid in the first inner casing, culture solution is provided in the first shell.

Compared to embodiment three, the present embodiment venthole is located at the middle part of head cover, has been connected in the first shell and first The inner cavity of shell so that cell liquid directly can absorb air from the first shell.

Embodiment five：

Referring to Fig. 5, high concentration long-time cyropreservation transport device under the room temperature of the present embodiment, including the first shell 1, The first inner casing 2 is equipped in the inner cavity of one shell, the side wall of the first inner casing is equipped with the permeability hole for penetrating shell side wall in first, infiltration The permeable membrane 3 being connect with the first inner casing is equipped at hole.

Preferably, the top of the first shell is equipped with the head cover 4 with the first cage connection, the top of the first inner casing is set to top It covers.

Preferably, the first shell, the first inner casing are connect by screw thread with head cover.

Preferably, head cover include upper cover body 5, the lower cover 6 below upper cover body and positioned at upper cover body, lower cover it Between the first ventilated membrane 7, the venthole 8 being connected to the inner cavity of the first shell is accordingly equipped in upper cover body and lower cover.

The top of first shell is equipped with second housing 9.

The second inner casing 13 is additionally provided in second housing, second housing, the second inner casing are connect with head cover, the side of the second inner casing Wall is equipped with the air hole for penetrating shell side wall in second, is equipped with the second ventilated membrane 14 being connect with the second inner casing at air hole, leads to Stomata is located at the middle part of head cover, and venthole is connected to the inner cavity of the inner cavity of the second inner casing, the first inner casing respectively.

Preferably, being both provided with rubber stopper on the side wall of the first shell and second housing.

Preferably, being provided with cell liquid in the first inner casing, culture solution is provided in the first shell.

Embodiment adds the second inner casing, the second inner casing makes cell liquid be less susceptible to by external contamination.

Preferably, being provided with mixed gas in second housing, mixed gas includes air and carbon dioxide, carbon dioxide Volume ratio with air is 5%~10%.

Carbon dioxide and air stoichiometry are most suitable for the growth of cell at 5%.Carbon dioxide can be by being arranged outside second Sodium bicarbonate in shell is formed.

Preferably, the volume ratio of the first inner casing and the first shell is 1:10~1:50, the first inner casing and second housing Volume ratio is 1:10~1:50.

Embodiment six：

Referring to Fig. 6, high concentration long-time cyropreservation transport device under the room temperature of the present embodiment, including the first shell 1, The first inner casing 2 is equipped in the inner cavity of one shell, the side wall of the first inner casing is equipped with the permeability hole for penetrating shell side wall in first, infiltration The permeable membrane 3 being connect with the first inner casing is equipped at hole.

Preferably, the top of the first shell is equipped with the head cover 4 with the first cage connection, the top of the first inner casing is set to top It covers.

Preferably, the first shell, the first inner casing are connect by screw thread with head cover.

Preferably, head cover include upper cover body 5, the lower cover 6 below upper cover body and positioned at upper cover body, lower cover it Between the first ventilated membrane 7, the venthole 8 being connected to the inner cavity of the first shell is accordingly equipped in upper cover body and lower cover.

It is additionally provided with the second inner casing 13, the second inner casing is connect with head cover, and the side wall of the second inner casing, which is equipped with, penetrates the second inner casing The air hole of side wall is equipped with the second ventilated membrane 14 being connect with the second inner casing at air hole, and venthole is located at the middle part of head cover, and And venthole is connected to the inner cavity of the inner cavity of the second inner casing, the first inner casing respectively.

Preferably, being provided with rubber stopper on the first side wall of outer shell.

Preferably, being provided with cell liquid in the first inner casing, culture solution is provided in the first shell.

Compared to embodiment five, the present embodiment is not provided with second housing.

It is obvious to a person skilled in the art that invention is not limited to the details of the above exemplary embodiments, Er Qie In the case of spirit or essential attributes of the invention, those skilled in the art can realize this in other specific forms Invention.Therefore, in all respects, the present embodiments are to be considered as illustrative and not restrictive, the present invention Protection domain be indicated by the appended claims rather than the foregoing description.

In addition, the above is only a preferred embodiment of the present invention, being not intended to restrict the invention, it is noted that right For those skilled in the art, without departing from the technical principles of the invention, it can also make several Improvement and modification, these improvements and modifications also should be regarded as protection scope of the present invention.Although it will also be appreciated that this specification Be described in terms of embodiments, every embodiment includes only a single technical solution, specification it is this Narrating mode is merely for the sake of clarity, and the skilled in the art should refer to the specification as a whole, in each embodiment Technical solution may also be suitably combined to form that other embodiments which can be understood by those skilled in the art.

Claims (10)

1. high concentration long-time cyropreservation transport device under a kind of room temperature, it is characterised in that：Including the first shell, described first The first inner casing is equipped in the inner cavity of shell, the side wall of first inner casing is equipped with the permeability hole for penetrating shell side wall in first, institute State the permeable membrane for being equipped at permeability hole and being connect with first inner casing.

2. high concentration long-time cyropreservation transport device under room temperature according to claim 1, it is characterised in that：Described The top of one shell is equipped with the head cover with the first cage connection, and the top of first inner casing is set on the head cover.

3. high concentration long-time cyropreservation transport device under room temperature according to claim 2, it is characterised in that：Described One shell, the first inner casing are connect by screw thread with the head cover.

4. high concentration long-time cyropreservation transport device under room temperature according to claim 3, it is characterised in that：The top Lid includes upper cover body, the lower cover below upper cover body and the first ventilated membrane between upper cover body, lower cover, it is described on The venthole being connected to the inner cavity of the inner cavity of first shell or the first inner casing is accordingly equipped on lid and lower cover.

5. high concentration long-time cyropreservation transport device under room temperature according to claim 4, it is characterised in that：Described The top of one shell is equipped with second housing.

6. high concentration long-time cyropreservation transport device under room temperature according to claim 5, it is characterised in that：Described The second inner casing is additionally provided in two shells, the second housing, the second inner casing are connect with head cover, on the side wall of second inner casing Equipped with the air hole for penetrating shell side wall in second, the second ventilated membrane being connect with the second inner casing is equipped at the air hole, it is described Venthole is located at the middle part of head cover, and venthole is connected to the inner cavity of the inner cavity of the second inner casing, the first inner casing respectively.

7. high concentration long-time cyropreservation transport device under room temperature according to claim 6, it is characterised in that：Described It is both provided with rubber stopper on the side wall of one shell and second housing.

8. high concentration long-time cyropreservation transport device under room temperature according to claim 6, it is characterised in that：Described Mixed gas is provided in two shells, the mixed gas includes air and carbon dioxide, the body of the carbon dioxide and air Product is than being 5%~10%.

9. high concentration long-time cyropreservation transport device under room temperature according to claim 1, it is characterised in that：Described The volume ratio of one inner casing and the first shell is 1:10~1:50, the volume ratio of the first inner casing and second housing is 1:10~1:50.

10. high concentration long-time cyropreservation transport device under room temperature according to claim 1, it is characterised in that：It is described It is provided with cell liquid in first inner casing, culture solution is provided in first shell.