JP6829865B2 - Canister set for container for cryopreservation of living cells - Google Patents

Description

The present invention relates to a canister used by storing it in a container for cryopreservation of living cells such as mammalian eggs, embryos, sperms, and ovaries.

In recent years, in the field of reproductive medicine, cryopreservation of eggs and embryos has played an important role as a core technology for IVF treatment. In Japan alone, there are more than 200,000 cases per year. In recent years, the vitrification preservation method developed and put into practical use in IVF treatment has become widespread and established as the standard method. The vitrification method has also been proposed to be applied to the ovarian freezing method. Specifically, a reproductive tissue including at least an ovary is removed from a female individual human mammal, held at 15 to 0 ° C., and then frozen by a vitrification method.

Then, in the vitrified and frozen living cells as described above, the cell-carrying tool in which the living cells are held is put into the storage portion of the canister. Then, the canister containing the cell holding tool is stored and stored in a container for cryopreservation of living cells into which a liquefied refrigerant (specifically, liquid nitrogen) is injected. Then, when the living cells are needed, for example, when IVF is executed, the canister that stores the living cell holding tool holding the living cells of the target individual is taken out from the container for cryopreserving the living cells. Then, since the living cell holding tool holding the living cells of an individual different from the target individual is also stored in the canister, the one of the target individual is selected from among them and extracted. Then, the canister is put into the container for cryopreservation of living cells again.

The conventional canister is provided with a tubular storage portion having a height corresponding to the depth of the container for cryopreserving living cells. Therefore, since it has a considerable depth, it is difficult to take out the living cell-carrying tool stored in the bottom.
Japanese Patent Application Laid-Open No. 2005-156136 (Patent Document 1) discloses a canister unit for a liquid gas refrigerant storage container used for cryopreserving semen or fertilized eggs. This canister unit includes a square tubular canister main body, one or more square tubular inner boxes that can be fitted to the main body, and a gripping tool for gripping the inner box. The inner box is divided into a plurality of storage portions by a partition member, and codes indicating the positions of rows and columns of the divisions are formed at or near the upper end side portions of the inner box side plates on two adjacent surfaces. It is a middle box.

JP-A-2005-156136

The container for cryopreservation of living cells is filled with a considerable amount of liquefied refrigerant (usually liquid nitrogen) and houses the living cells inside. Therefore, it is desirable to store the living cells in an institution that uses them (for example, a hospital). However, in order to store the living cells of many individual cases, it is necessary for the storage institution to secure a storage place for storing a large amount of living cell cryopreservation containers.
In the above-mentioned Patent Document 1, the number of living cell carriers that can be stored in one canister is large, which is effective. However, by removing one canister, many living cell carriers will also be taken out.
Therefore, according to the present invention, it is possible to store a large number of living cell-bearing tools in a container for cryopreserving living cells, and to reduce the number of removal of living cell-bearing tools that are not to be used. It provides a canister set for a container.

Those that achieve the above objectives are as follows.
(1) A canister set for a living cell cryopreservation container having a storage space capable of storing a liquefied gas refrigerant and a canister, and the canister set can be stored in the storage space of the storage container. A first canister and a second canister having a tubular storage portion and a suspension shaft portion whose lower end portion is fixed to the tubular storage portion and whose upper end portion is provided with a suspension portion to an opening of the storage container. In the first canister, the tubular storage portion is housed in the storage space of the storage container, and the suspension portion is suspended from the opening of the storage container. The lower end of the tubular storage portion is located near the bottom of the storage space, and the second canister is such that the tubular storage portion is stored in the storage space of the storage container and the tubular storage portion is stored. In a state where the suspended portion is suspended from the opening of the storage container, the lower end portion of the tubular storage portion can be positioned above the tubular storage portion of the first canister. The suspension shaft portion of the second canister is shorter than the suspension shaft portion of the first canister, and the suspension portion of the first canister and the suspension portion of the second canister can be distinguished from each other. Canister set for living cell cryopreservation containers with different possible morphologies.
(2) The distance from the suspension portion of the second canister to the lower end of the tubular storage portion is shorter than the distance from the suspension portion of the first canister to the upper end of the tubular storage portion. The canister set according to (1) above.
(3) The suspension portion of the first canister and the suspension portion of the second canister are formed by a bent portion provided at the upper end portion of the suspension shaft portion, and the suspension portion of the first canister is , The suspension portion of the first form, and the suspension portion of the second canister is a suspension portion of the second form in which the form of the bent portion is different from that of the first form and is identifiable (1). ) Or the canister set according to (2).
(4) A grip portion of the first form is provided at the end of the suspension portion of the first canister, and the suspension portion of the second canister has a grip portion of the second form different from the first form. The canister set according to any one of (1) to (3) above, which is provided with.
(5) In the above (4), one of the grip portion of the first form and the grip portion of the second form is a grip portion extending in a substantially vertical direction, and the other is a grip portion extending in a substantially horizontal direction. Described canister set.
(6) The canister set is provided with a plurality of substantially semi-cylindrical canes that can be completely stored in the tubular storage portion and can be suspended in the opening of the tubular storage portion (1) to (5). ) Canister set described in any of.
(7) The cane includes a tubular member holding portion and a bottomed tubular member held by the holding portion, and the bottomed tubular member has an upper end opening and holds living cells inside. The canister set according to (6) above, which can store the living cell-bearing tool.
(8) The cane includes an upper tubular member whose lower end can be attached to the opening of the bottomed tubular member and whose upper end is closed, and the cane holds the upper tubular member. The canister set according to (7) above, which includes a possible tubular member holding portion.
(9) to the bottom of the cylindrical housing portion of the canister, the canister set according to any of the above opening for the flow of liquefied gas refrigerant is provided (1) to (8).
(10) The distance H1 from the suspension portion of the second canister to the lower end of the tubular storage portion is 5 to 25 mm from the distance H2 from the suspension portion of the first canister to the upper end of the tubular storage portion. The canister set according to any one of (1) to (9) above, which is short.

The canister set for the biological cell cryopreservation container of the present invention can be stored in the storage space of the biological cell cryopreservation container, and the tubular storage portion and the lower end portion are fixed to the tubular storage portion. A first canister and a second canister having a suspension shaft portion having a suspension portion to an opening of a storage container at an upper end portion thereof are provided. Then, in the first canister, in a state where the tubular storage portion is stored in the storage space of the storage container and the suspension portion is suspended from the opening of the storage container, the lower end portion of the tubular storage portion is It is located near the bottom of the storage space, and the second canister is in a state where the tubular storage part is stored in the storage space of the storage container and the suspension part is suspended from the opening of the storage container. , The lower end of the tubular storage portion can be positioned above the tubular storage portion of the first canister, and the suspension shaft portion of the second canister is the suspension shaft portion of the first canister. It is shorter, and the suspension of the first canister and the suspension of the second canister have different identifiable forms.
According to this canister set, it can be stored in the storage space of the biological cell cryopreservation container so that the tubular storage part of the first canister is located at the bottom and the tubular storage part of the second canister is located at the top. Is. For this reason, since the vertically two-stage tubular storage portion is stored in the storage space, a large number of canisters can be stored in one container for cryopreservation of living cells. In addition, the tubular storage portion of each canister does not have an excessive length, and it is easy to take out the living cell holding tool stored inside. Further, since the suspension portion of the first canister and the suspension portion of the second canister have different identifiable forms, the first canister in which the tubular storage portion is located in the lower stage and the tubular storage portion in the upper stage are provided. The located second canister can be identified by the form of the suspension. Therefore, it is easy to select the canister to be taken out.

FIG. 1 is a front view of an embodiment of a canister set for a container for cryopreservation of living cells of the present invention. FIG. 2 is a vertical cross-sectional view of the first canister of the canister set shown in FIG. FIG. 3 is a right side view of the first canister of the canister set shown in FIG. FIG. 4 is a plan view of the first canister of the canister set shown in FIG. FIG. 5 is a vertical cross-sectional view of the second canister of the canister set shown in FIG. FIG. 6 is a right side view of the second canister of the canister set shown in FIG. FIG. 7 is a plan view of the second canister of the canister set shown in FIG. FIG. 8 is a plan view of a container for cryopreserving living cells in a state in which a plurality of canister sets of the present invention are stored. FIG. 9 is a cross-sectional view taken along the line AA of FIG. FIG. 10 is an explanatory view showing a state in which the cane is housed in the canister of the canister set of the present invention. FIG. 11 is an explanatory diagram for explaining the components of the cane used in the canister set of the present invention. FIG. 12 is a front view of the cane in a state where the bottomed tubular member and the upper tubular member are attached to the cane main body shown in FIG. FIG. 13 is a left side view of the cane shown in FIG.

The canister set for the container for cryopreservation of living cells of the present invention will be described with reference to the examples shown in the drawings.
The canister set 1 of the present invention is used for a living cell cryopreservation container 10 having a storage space 12 capable of storing a cryogenic liquefied gas refrigerant 14 and canisters 2 and 3.
The canister set 1 of the present invention can be stored in the storage space 12 of the storage container 10, and the tubular storage portions 21 and 31 and the lower end portions are fixed to the tubular storage portions 21 and 31. A first canister 2 and a second canister 3 having suspension shaft portions 22 and 32 having suspension portions 24 and 34 to the opening of the storage container 10 are provided at the upper end portion. In the first canister 2, the tubular storage portion 21 is stored in the storage space 12 of the storage container 10, and the suspension portion 24 is suspended from the opening 16 of the storage container 10. The lower end of the storage space 12 is located near the bottom of the storage space 12. In the second canister 3, the tubular storage portion 31 is stored in the storage space 12 of the storage container 10, and the suspension portion 34 is suspended from the opening 16 of the storage container 10. The lower end of the canister 2 can be positioned above the tubular storage portion 21 of the first canister 2. The suspension shaft portion 32 of the second canister 3 is shorter than the suspension shaft portion 22 of the first canister 2. Further, the suspension portion 24 of the first canister 2 and the suspension portion 34 of the second canister 3 have different identifiable forms.

The canister set 1 of the present invention comprises a first canister 2 and a second canister 3 having different shapes.
As shown in FIGS. 1 to 4, the first canister 2 can be stored in the storage space 12 of the storage container 10, and the tubular storage portion 21 and the lower end portion are the upper side surfaces of the tubular storage portion 21. A suspension shaft portion 22 fixed to the vehicle is provided.
Cylindrical housing portion 21 is formed in a cylindrical shape, the bottom surface is formed Ri by the bottom plate having a plurality of openings. Therefore, the liquefied gas refrigerant (usually liquid nitrogen) can flow into the inside 20 of the tubular storage portion 21 from the bottom surface. The side surface of the tubular storage portion 21 does not have an opening .

The suspension shaft portion 22 connects the suspension portion 24 provided at the upper end portion, the fixing portion 25 provided at the lower end portion and fixed to the upper side surface of the tubular storage portion 21, and the suspension portion 24 and the fixing portion 25. The shaft body 26 is provided. In the canister 2 of this embodiment, the suspension shaft portion 22 includes a hollow shaft body 26. The base end portion of the suspension portion 24 is inserted and fixed in the tip end portion of the hollow shaft main body 26. Further, the fixing portion 25 is inserted and fixed in the rear end portion of the hollow shaft main body 26. The suspension portion, the fixing portion, and the shaft body may be integrally formed. When a hollow shaft body is used, it is preferable to use a material having low thermal conductivity (for example, ceramics) as the forming material. Furthermore, those that are not easily plastically deformed are preferable.

Then, the fixing portion 25 is fixed to the tubular storage portion 21, and includes a first straight portion that extends slightly beyond the upper end of the tubular storage portion 21 and a first bent portion that bends by approximately 90 degrees. A second straight portion extending substantially horizontally from the first bent portion, a second bent portion that bends approximately 90 degrees at the end of the second straight portion, and a substantially vertical direction from the second bent portion. It is provided with a third straight portion extending upward. Then, the upper end end of the third straight line portion is inserted into and fixed in the hollow shaft main body 26.
The suspension portion 24 of the first canister 2 is formed by a bent portion provided at the upper end portion of the suspension shaft portion 22. The suspension portion 34 of the second canister 3 and the suspension portion 24, which will be described later, have different forms of bent portions, and both can be easily distinguished.

The suspension portion 24 of this embodiment is inserted and fixed in the tip portion of the hollow shaft main body 26, and has an angle slightly larger than 90 degrees with the first straight portion extending to a position beyond the upper end of the hollow shaft main body 26 having a predetermined length. Diagonally at the end of the first bent portion, the second straight portion extending slightly diagonally above the first bent portion and upward of the fixed portion 25, and the end of the second straight portion. A second bent portion that bends downward and toward the center of the tubular storage portion 21, a third straight portion that extends diagonally downward from the second bent portion toward the center of the tubular storage portion 21, and a third. At the end of the straight portion of, a third bent portion that bends in the horizontal direction, a fourth straight portion that extends substantially horizontally from the third bent portion, and an end of the fourth straight portion. It is provided with a fourth bent portion that bends upward in the vertical direction and a fifth straight portion that extends upward in the vertical direction from the fourth bent portion and forms the tip portion of the suspension portion. The fifth straight line portion constitutes the grip portion 27 of the first canister 2.

In particular, in this embodiment, the grip portion 27 has a larger diameter than the other portions of the suspension portion 24 by fitting the cap-shaped member on the fifth straight portion. As the cap-shaped member, it is preferable to use a material having low thermal conductivity (for example, ceramics). Then, in this embodiment, the end portion (grip portion 27) of the suspension portion 24 is located above the tubular storage portion 21. More specifically, as shown in FIG. 4, it is located above the central portion of the line connecting the center of the tubular storage portion 21 and the fixed portion 25. By doing so, by recognizing the grip portion 27, it can be easily inferred that there is a tubular storage portion below the grip portion 27.
The second canister 3 has a tubular storage portion 31 in a state where the tubular storage portion 31 is stored in the storage space 12 of the storage container 10 and the suspension portion 34 is suspended in the opening 16 of the storage container 10. The lower end of the 31 can be positioned above the tubular storage portion 21 of the first canister 2.

As shown in FIGS. 1, 5 to 7, the second canister 3 can be stored in the storage space 12 of the storage container 10, and has a tubular storage portion 31 and a tubular storage portion 31 at the lower end. A suspension shaft portion 32 fixed to the upper side surface of the vehicle is provided.
Cylindrical housing portion 31 is formed in a cylindrical shape, the bottom surface is formed Ri by the bottom plate having a plurality of openings. Therefore, the liquefied gas refrigerant (usually liquid nitrogen) can flow into the inside 30 of the tubular storage portion 31 from the bottom surface. The side surface of the tubular storage portion 31 does not have an opening .

The suspension shaft portion 32 connects the suspension portion 34 provided at the upper end portion, the fixing portion 35 provided at the lower end portion and fixed to the upper side surface of the tubular storage portion 31, and the suspension portion 34 and the fixing portion 35. The shaft body 36 is provided. In the canister 3 of this embodiment, the suspension shaft portion 32 includes a hollow shaft body 36. The base end of the suspension 34 is inserted and fixed in the tip of the hollow shaft body 36. Further, the fixing portion 35 is inserted and fixed in the rear end portion of the hollow shaft main body 36. The suspension portion, the fixing portion, and the shaft body may be integrally formed. When a hollow shaft body is used, it is preferable to use a material having low thermal conductivity (for example, ceramics) as the forming material. Furthermore, those that are not easily plastically deformed are preferable.

Then, the fixing portion 35 is fixed to the tubular storage portion 31, and includes a first straight portion that extends slightly beyond the upper end of the tubular storage portion 31 and a first bent portion that bends by approximately 90 degrees. A second straight portion extending substantially horizontally from the first bent portion, a second bent portion that bends approximately 90 degrees at the end of the second straight portion, and a substantially vertical direction from the second bent portion. It is provided with a third straight portion extending upward. Then, the upper end end of the third straight line portion is inserted into and fixed in the hollow shaft main body 36.
The suspension portion 34 of the second canister 3 is formed by a bent portion provided at the upper end portion of the suspension shaft portion 32. The suspension portion 24 of the first canister 2 and the suspension portion 34 described above have different forms of bent portions, and both can be easily distinguished from each other.

The suspension portion 34 of this embodiment is inserted into the tip portion of the hollow shaft main body 36, is fixed, and has a first straight portion extending to a position beyond the upper end of the hollow shaft main body 36 having a predetermined length and a first straight portion that is bent by approximately 90 degrees. At the bent portion of 1, the second straight portion extending in the substantially horizontal direction from the first bent portion, and the end portion of the second straight portion, the bending is abbreviated diagonally downward and toward the center of the tubular storage portion 31. Horizontal direction at the second bent portion, a short third straight portion extending diagonally downward from the second bent portion toward the center of the tubular storage portion 31, and the end of the third straight portion. It is provided with a fourth bent portion that bends in a substantially horizontal direction and a fourth straight portion that extends substantially horizontally from the fourth bent portion. The fourth straight line portion constitutes the grip portion 37 of the second canister 3.

In particular, in this embodiment, the grip portion 37 has a larger diameter than the other portions of the suspension portion 34 by fitting the cap-shaped member on the third straight portion. As the cap-shaped member, it is preferable to use a material having low thermal conductivity (for example, ceramics). Then, in this embodiment, the end portion (grip portion 37) of the suspension portion 34 is located above the tubular storage portion 31. More specifically, as shown in FIG. 7, it is located above the central portion of the line connecting the center of the tubular storage portion 31 and the fixed portion 35. By doing so, by recognizing the grip portion 37, it can be easily inferred that there is a tubular storage portion below the grip portion 37.

In the canister set 1 of this embodiment, the distance H1 from the suspension portion 34 of the second canister 3 to the lower end of the tubular storage portion 31 is from the suspension portion 24 of the first canister 2 to the upper end of the tubular storage portion 21. It is shorter than the distance H2 of. The difference between H1 and H2 is preferably 5 to 25 mm, particularly preferably 7 to 20 mm. Further, H1 is preferably 360 to 430 mm, and H2 is preferably 370 to 440 mm. Further, the height of the tubular storage portion of the first canister 2 and the second canister 3 is preferably 130 mm to 170 mm. It is preferable that the heights of the tubular storage portions of the first canister 2 and the second canister 3 are substantially the same. Further, the distance H3 from the suspension portion 24 of the first canister 2 to the lower end of the tubular storage portion 21 is preferably 500 mm to 600 mm. Further, the outer diameters of the tubular storage portions 21 and 31 are preferably 50 mm to 90 mm, particularly preferably 60 to 80 mm.

Then, in the canister 1 of the above-described embodiment, as described above, the grip portion 27 of the first form is provided at the end of the suspension portion 24 of the first canister 2, and the suspension portion of the second canister 3 is provided. As described above, the 34 has a grip portion 37 of a second form different from the first form. In particular, in the above-described embodiment, one of the grip portion 27 of the first form and the grip portion 37 of the second form is a grip portion extending in a substantially vertical direction, and the other is a grip portion extending in a substantially horizontal direction. ing. Specifically, in the above-described embodiment, the grip portion 27 of the first canister 2 is a grip portion extending in a substantially vertical direction, and the grip portion 37 of the second canister 3 is a grip portion extending in a substantially horizontal direction. It has become.

Then, in the canister set 1 of this embodiment, as shown in FIGS. 9 and 10, the tubular storage portions 21 and 31 of the first canister 2 and the second canister 3 can be completely stored and the tubular storage portion 21, It is provided with a plurality of substantially semi-cylindrical canes 5 that can be suspended in the opening of 31.

As shown in FIGS. 11 to 13, the cane 5 includes a cane main body 51 having a tubular member holding portion 53 and a bottomed tubular member 6 held by the holding portion 53. The cane main body 51 is formed in a substantially semi-cylindrical shape, and is provided with a plurality of liquefied gas flow openings 54. Further, the cane 5 of the embodiment shown in FIG. 11 includes two tubular member holding portions 53, one of which is located at the lower part of the cane main body and the other slightly from the axial center portion of the cane main body. It is located above. The tubular member holding portion 53 is formed by two opposing curved portions extending in the axial direction of the predetermined length cane main body and curved in the central direction of the cane main body. Further, the ends of the two opposing curved portions are separated from each other. At the lower end of the cane body, a bottom portion 55 bent toward the center of the cane body is provided. At the upper end of the cane body, a suspension portion 52 bent to the outside of the cane body is provided.

As shown in FIGS. 11 to 13, the cane 5 includes a cane main body 51, and a storage member for a living cell holding tool (not shown) composed of a bottomed tubular member 6 and an upper tubular member 7. Note that FIGS. 9 and 10 show a state in which the upper tubular member 7 is not attached.
The bottomed tubular member 6 includes a tubular portion (cylindrical portion) 61 extending in a predetermined major axis direction, a bottom portion 65, and an upper end opening 63 that opens diagonally, and possesses living cells holding living cells inside. It is designed to store tools (not shown). The upper tubular member 7 includes a tubular portion (cylindrical portion) 62 extending in a predetermined major axis direction, an upper closing portion 66, and a lower end opening 64 that opens diagonally. The lower end opening 64 of the upper tubular member 7 can be attached to the opening 63 of the bottomed tubular member 6.
Then, as shown in FIGS. 11 to 13, the bottomed tubular member 6 is held by the two tubular member holding portions 53 of the cane 5, and the upper tubular member 7 is attached to the cane 5. , It is held by the tubular member holding portion 53 on the upper side of the cane 5. Further, as shown in FIGS. 12 and 13, when both the bottomed tubular member 6 and the upper tubular member 7 are attached to the cane 5, the openings of both are considerably small, but completely. It does not block and maintains a slight opening.

Then, as shown in FIG. 10, the total length of the cane 5 is shorter than the total length of the tubular storage portions 21 and 31 of the canisters 2 and 3. Therefore, when the cane 5 is stored in the tubular storage portions 21 and 31 in a state where the bottom portion 55 is in contact with the bottom plates 23 and 33 of the tubular storage portions 21 and 31, the upper end of the cane 5 (suspension portion 52). However, it is not exposed. Further, as shown in FIG. 10, the suspension portion 52 of the cane 5 may be stored in the tubular storage portions 21 and 31 so as to be suspended on the opening edges of the tubular storage portions 21 and 31. In this case, the bottom portion 55 of the cane 5 does not abut on the bottom plates 23, 33 of the tubular storage portions 21, 31. The total length of the cane 5 is preferably 12 mm to 15 mm. Further, the total length of the cane is preferably 2 to 10 mm shorter than the depth of the tubular storage portions 21 and 31 of the canisters 2 and 3.

Then, as shown in FIGS. 8 and 9, the canister set 1 of the present invention is used by storing it in the living cell cryopreservation container 10. The illustrated living cell cryopreservation container 10 includes a container body 11 having a storage space 12 inside, and an opening forming member 13 attached to the opening of the container body 11. The opening forming member 13 includes an annular protrusion 13a whose inner edge protrudes upward, and the suspension portions 24 and 34 of the first canister 2 and the second canister 3 described above are attached to the annular protrusion 13a. It can be suspended. In the living cell cryopreservation container 10, a predetermined length is a small diameter portion extending from the opening of the storage space 12 with substantially the same inner diameter, and an enlarged diameter portion having a wider inner diameter is provided below the small diameter portion. Has been done. This enlarged diameter portion is a portion for accommodating the tubular accommodating portions 21 and 31 of the first canister 2 and the second canister 3. Further, the living cell cryopreservation container 10 is provided with a bulging portion 15 protruding from the bottom surface of the storage space 12, and restricts excessive movement of the tubular storage portion 21 of the first canister 2.

The canister set 1 composed of the first canister 2 and the second canister 3 is housed in the living cell cryopreservation container 10 as shown in FIGS. 8 and 9. Further, the suspension portions 24 and 34 of the first canister 2 and the second canister 3 are exposed from the storage space 12 of the living cell cryopreservation container 10, and as described above, are exposed to the annular protrusion 13a of the opening forming member 13. It is suspended. Specifically, the tubular storage portion 21 of the first canister 2 is suspended so as not to come into contact with the bottom surface of the storage space 12 of the biological cell cryopreservation container 10, and the second canister 3 is the first canister. It is suspended so as to be on the tubular storage portion 21 of 2. Further, in those shown in FIGS. 8 and 9, four canister sets 1 are stored and suspended in the living cell cryopreservation container 10, but four canister sets can be further stored and suspended. Therefore, it is possible to store twice as many canisters as when using a normal canister.

In the illustrated living cell cryopreservation container 10, the container body 11 includes an outer layer portion 41, an inner layer portion 42 forming a storage space 12, and a heat insulating layer 43 filled between the outer layer portion 41 and the inner layer portion 42. Have. At the time of storage, a lid member (shown) is fitted in the opening of the living cell cryopreservation container 10, the opening is closed, and the suspension portions 24 and 34 are not exposed to the outside. It becomes.

1 Canister set 2 1st canister 3 2nd canister 5 Cane 21, 31 Cylindrical storage 24, 34 Suspension 27, 37 Grip

Claims (10)

A canister set for a container for cryopreservation of living cells having a storage space capable of storing a liquefied gas refrigerant and a canister.
The canister set can be stored in the storage space of the storage container, and the tubular storage portion and the lower end portion are fixed to the tubular storage portion, and the opening portion of the storage container is at the upper end portion. A first canister and a second canister having a suspension shaft portion provided with a suspension portion to the
In the first canister, the tubular storage portion is stored in the storage space of the storage container, and the suspension portion is suspended from the opening of the storage container. The lower end of the storage space is located near the bottom of the storage space.
The second canister has the tubular storage portion in a state where the tubular storage portion is stored in the storage space of the storage container and the suspension portion is suspended from the opening of the storage container. The lower end of the canister can be positioned above the tubular storage portion of the first canister, and the suspension shaft portion of the second canister is from the suspension shaft portion of the first canister. It ’s short,
Further, a canister set for a container for cryopreservation of living cells, wherein the suspension portion of the first canister and the suspension portion of the second canister have different identifiable forms. Claim that the distance from the suspension portion of the second canister to the lower end of the tubular storage portion is shorter than the distance from the suspension portion of the first canister to the upper end of the tubular storage portion. The canister set according to 1. The suspension portion of the first canister and the suspension portion of the second canister are formed by a bent portion provided at the upper end portion of the suspension shaft portion, and the suspension portion of the first canister is the first. According to claim 1 or 2, the suspension portion of the second canister is a suspension portion of a second form in which the form of the bent portion is different from that of the first form and is identifiable. Described canister set. A grip portion of the first form is provided at the end of the suspension portion of the first canister, and a grip portion of the second form different from the first form is provided at the suspension portion of the second canister. The canister set according to any one of claims 1 to 3. The canister set according to claim 4, wherein one of the grip portion of the first form and the grip portion of the second form is a grip portion extending in a substantially vertical direction, and the other is a grip portion extending in a substantially horizontal direction. .. The canister set according to any one of claims 1 to 5, wherein the canister set includes a plurality of substantially semi-cylindrical canes that can be completely stored in the tubular storage portion and can be suspended in the opening of the tubular storage portion. Canister set. The cane includes a tubular member holding portion and a bottomed tubular member held by the holding portion, and the bottomed tubular member has an upper end opening and is a living cell having a living cell inside. The canister set according to claim 6, wherein the holding tool can be stored. The cane includes an upper tubular member whose lower end can be attached to the opening of the bottomed tubular member and whose upper end is closed, and the cane is a cylinder capable of holding the upper tubular member. The canister set according to claim 7, further comprising a shape member holding portion. Wherein the bottom surface of the tubular housing part of the canister, the canister set according to any of claims 1 to 8 openings for the flow of liquefied gas refrigerant is provided. The distance H1 from the suspension portion of the second canister to the lower end of the tubular storage portion is 5 to 25 mm shorter than the distance H2 from the suspension portion of the first canister to the upper end of the tubular storage portion. The canister set according to any one of claims 1 to 9.

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