JPH09178899A - Eluent inflow structure and eluent inflow member for radioactive nucleide eluting device - Google Patents

Abstract

PROBLEM TO BE SOLVED: To attain the sterilization of an effluent with a simple structure and prevent the outflow of physiological salt solution by its back flow by liquid- tightly and airtightly mounting a membrane-like filter on the circumferential wall part of the space chamber of a needle support body. SOLUTION: A membrane-like filter 76 is liquid-tightly and airtightly mounted on the circumferential wall part of the space chamber 44 of a needle support body 70 by a groove 82 and an O-ring 84 so as to partition the space chamber 44 into an upper chamber 78 and a lower chamber 80. By using a polytetrafluorethylene resin for this filter 76, the filter can pass air but not pass eluent. The support body 70 integrally connects a bent needle fixing body 36 to a solution inflow needle fixing body 42 in such a manner as not to be removable. Thus, this eluent inflow member surely sterilizes the external air entering a physiological salt solution vial, and prevents the outflow of the physiological salt solution even when it flows backward. Further, the member can be made compact.

Description

Detailed Description of the Invention

[0001]

TECHNICAL FIELD The present invention relates to a radionuclide having a radionuclide elution column and an eluent inflow pipe having an eluent inflow needle on one end side and the other end connected to the radionuclide elution column. The present invention relates to an eluent inflow structure and an inflow member to the eluent inflow needle in an elution device.

[0002]

2. Description of the Related Art Sodium pertechnetate ( ^99m Tc)
As a radionuclide eluting device used when manufacturing a radiopharmaceutical such as an injection solution in a medical field, the one shown in FIG. 3 is known. In FIG. 3, reference numeral 2 denotes a plastic container body, and 4 denotes a plastic lid body that is detachably attached to the container body 2 and closes the upper end opening of the container body 2. The lid 4 is provided with a physiological saline solution vial insertion recess 6 and a sterile vacuum vial insertion recess 8. Further, in the figure, 10 is a radionuclide elution column arranged in the container body 2, 12 is a physiological saline solution flow pipe (eluent inflow pipe), and 14 is an eluate flow pipe (eluent outflow pipe). The physiological saline flow pipe 12 has a physiological saline inflow needle (eluent inflow needle) 16 protruding at the bottom of the physiological saline vial insertion recess 6 of the lid 4 at one end side, and the other end side is a radionuclide elution column. It is connected to 10. Eluent flow pipe 14
Has an eluate outflow needle 18 protruding at the bottom of the sterile vacuum vial insertion recess 8 of the lid 4 at one end side, and the other end side is connected to the radionuclide elution column 10. In addition, around the column 10 in the container body 2, a block made of lead, tungsten, or lead and tungsten having a column housing portion as a radiation shielding metal is loaded.

When a radiopharmaceutical is prepared using the radionuclide elution device shown in FIG. 3, after inserting the saline solution vial 20 into the saline solution vial insertion recess 6, the sterile vacuum vial is inserted into the sterile vacuum vial insertion recess 8. Insert 22. Then, since the inside of the sterile depressurized vial 22 is depressurized, the physiological saline solution in the physiological saline solution vial 20 is sucked from the physiological saline solution inflow needle 16 and enters the column 10 through the physiological saline solution flow pipe 12. The radionuclide is eluted in the physiological saline in the column 10. Then column 10
The eluate that has flowed out of the column passes through the eluate flow pipe 14 and enters the sterile vacuum vial 22 from the eluate outflow needle 18. Then, the radiopharmaceutical is obtained by mixing the obtained radionuclide with a pharmaceutically acceptable carrier.

Conventionally, the member shown in FIG. 4 has been used as a member for injecting an eluent (physiological saline) into a physiological saline inflow needle in the radionuclide elution device shown in FIG. In the inflow member of FIG. 4, 30 is a needle support. The needle support body 30 includes a vent needle fixing body 36 having an upper wall portion 32 and a tubular insertion portion 34 continuously provided on the lower side thereof, and an upper wall portion 38 and a cylinder continuously provided on the lower side thereof. And an eluent inflow needle fixing body 42 having a circular eluent flow section 40, and the upper wall 3 of the eluent inflow needle fixing body 42 in the insertion portion 34 of the vent needle fixing body 36.
In the state in which 8 is inserted, both of these fixed bodies 36 and 42 are detachably connected with a space chamber 44 formed therebetween.

The upper wall portion 3 of the eluent inflow needle fixing body 42
Four shallow grooves 46 along the axial direction are formed at equal intervals on the outer surface of 8, and an air circulation hole 48 for communicating the inside of the space chamber 44 with the outside of the needle support 30 is formed by these grooves 46. 30 is formed. Inside the space chamber 44, a porous filter 50 made of a ceramic sintered body is arranged so as to close the passage in the space chamber 44 in the vertical direction.
The filter 50 is arranged for the purpose of removing bacteria and dust of the passing external air (described later).

In the figure, 52 is a vent needle and 54 is an eluent inflow needle. The vent needle 52 has openings 56 and 58 on the front end side and the base end side, is fixed to the vent needle fixing body 36 in a state of penetrating the vent needle fixing body 36, and the front end side is the vent needle fixing body 36. And the base end side opening 58 is opened above the filter 50 in the space chamber 44. The eluent inflow needle 54 has openings 60 and 62 on the front end side and the proximal end side, and the eluent inflow needle fixing body 42 is provided.
Is fixed to the eluent inflow needle fixing body 42 in a state of penetrating through the vent needle fixing body 36 and the vent needle fixing body 36 and the filter 50, and the tip side is bent to the vent needle fixing body 3
6, the base end side opening portion 62 projects above 6 and the eluent circulation portion 4
It is an opening in 0.

When the above-described radionuclide is eluted using the member of this example, the vent lid 52 and the eluent inflow needle 54 are pierced into the elastic lid of the physiological saline solution vial so that the tips of both needles 52, 54 are physiologic. Insert into saline vial. As a result, the physiological saline solution flows into the eluent inflow needle 54 through the opening 60, flows out through the opening 62, and is then introduced into the radionuclide elution column. In addition, outside air enters the space chamber 44 through the air circulation hole 48, is further introduced into the physiological saline vial through the opening 56 through the filter 50 and the vent needle 52, and thereby balances the pressure inside and outside the elution system. Be properly maintained.

[0008]

However, the eluent inflow member shown in FIG. 4 has the following problems. (1) A porous filter 50 made of a ceramic sintered body is used to remove bacteria and dust from the external air entering the saline solution vial. However, since the filter 50 is porous, it is actually used. It has almost no sterilizing ability, and bacteria enter the saline solution vial. Therefore, conventionally, a disinfection filter is further arranged in front of the eluate outflow needle of the eluent outflow pipe, and the radionuclide eluate is filtered by this filter before being filled in a sterile vacuum vial. The structure of the elution system (radionuclide elution column and eluent inflow pipe and eluent outflow pipe connected thereto) becomes complicated.

(2) When the physiological saline vial is pressurized during elution, the physiological saline may flow into the vent needle 52 through the opening 56 and flow out through the opening 58 (of the physiological saline solution). Backflow). In such a case, since the filter 50 is porous in the member shown in FIG. 4, the physiological saline solution flows out through the filter 50 to the outside through the air circulation hole 48.

The present invention has been made in view of the above circumstances, and it is possible to surely sterilize the external air entering a saline solution vial and, even when a reverse flow of the physiological saline solution occurs, An object is to provide an eluent inflow structure and an eluent inflow member capable of preventing the saline solution from flowing out.

[0011]

In order to achieve the above object, the present invention has a radionuclide elution column and an eluent inflow needle at one end, and the other end is connected to the radionuclide elution column. A structure for injecting an eluent into the eluent inflow needle in a radionuclide elution device including a liquid inflow pipe, wherein a vent needle fixing body and an eluent inflow needle fixing body disposed substantially below the vent needle fixing body are connected. And a needle support having a space chamber inside, and a membrane-shaped sterilization gas filter in which air can pass and an eluent cannot pass, and the space chamber of the needle support is divided into an upper chamber and a lower chamber. A membrane filter that is liquid-tightly and airtightly attached to the peripheral wall portion of the space chamber so as to be partitioned, and has an opening portion at the tip end side and the base end side, and the vent needle fixing body in a state of penetrating the vent needle fixing body Fixed to In addition, the eluent inflow needle fixing body has a vent needle with the tip side protruding above the vent needle fixing body and the base end side opening portion opening to the upper chamber of the space chamber, and an opening portion on the tip side. The eluent inflow needle is fixed to the eluent inflow needle fixing body in a state of penetrating through, and the eluent inflow needle penetrating through the vent needle fixing body and having a tip side protruding above the vent needle fixing body is provided. Provided is an eluent inflow structure of a radionuclide eluting device, wherein an air circulation hole that communicates the lower chamber of the chamber with the outside of the needle support is formed in the needle support.

Further, the present invention is a radionuclide elution device comprising a radionuclide elution column, and an eluent inflow pipe having an eluent inflow needle at one end side and the other end being connected to the radionuclide elution column. In the eluent inflow member to the eluent inflow needle in, the vent needle fixing body having a cylindrical insertion portion continuously provided on the upper wall portion and the lower side thereof, and the upper wall portion and the lower side thereof. An eluent inflow needle fixing body having a continuous tubular eluent circulation part is provided, and both of these are fixed with the upper wall of the eluent inflow needle fixing body inserted in the insertion part of the vent needle fixing body. A needle support body in which the body is connected in a state of forming a space chamber therebetween, and a membrane-shaped sterilization gas filter in which air can pass but an eluent cannot pass, and the space chamber of the needle support body is Partition into upper chamber and lower chamber As described above, the membrane filter is attached to the peripheral wall of the space chamber in a liquid-tight and air-tight manner, and has openings on the distal end side and the proximal end side, and is fixed to the vent needle fixing body while penetrating the vent needle fixing body. In addition, the tip side projects upward from the vent needle fixing body, the base end side opening has a vent needle that opens to the upper chamber of the space chamber, and the opening side at the tip side and the base side, the eluent The eluent is fixed to the inflow needle fixing body while penetrating the inflow needle fixing body, penetrates through the vent needle fixing body, the tip side projects above the vent needle fixing body, and the base end side opening portion is the elution liquid. An eluent inflow needle opened in the eluent flow section of the liquid inflow needle fixing body, and an air circulation hole for communicating the lower chamber of the space chamber and the outside of the needle support to the needle support. That have been made to provide an eluent inlet member radionuclide dissolution apparatus according to claim.

In the eluent inflow structure and the eluent inflow member of the present invention, a membrane filter is liquid-tightly and airtightly attached to the peripheral wall of the space of the needle support to partition the space into an upper chamber and a lower chamber. An external air circulation hole is provided so as to communicate with the lower chamber, and the base end side opening of the vent needle is opened to the upper chamber. Therefore, the external air always passes through the filter before entering the physiological saline solution vial, and the membrane filter has a high sterilizing ability, so that the external air can be sterilized well. Further, even when the physiological saline solution flows backward and flows into the upper chamber, the eluent cannot pass through the filter, so that the physiological saline solution does not flow into the lower chamber and flow out from the air circulation hole.

In the present invention, the material for the bent needle fixed body and the eluent inflow needle fixed body is not particularly limited, but is preferably a material having excellent heat resistance and pressure resistance. Examples of such a material include heat-resistant polyolefins such as heat-resistant polyethylene and heat-resistant polypropylene, polytetrafluoroethylene resin, and tetrafluoroethylene-6.
Fluorinated propylene copolymer resin, 4-fluoroethylene-perfluoroalkyl vinyl ether copolymer resin, 4-fluoroethylene-ethylene copolymer resin, polytrifluoroethylene chloride resin, fluororesin such as polyvinylidene fluoride, nylon 11, nylon Polyamide resins such as 12 and the like, polyacetal resins, heat resistant ABS resins, polycarbonate resins and the like are mentioned, and heat resistant polypropylene is particularly suitable in terms of safety, moldability and cost. Further, the materials of the vent needle and the eluent inflow needle are not limited, but they are preferably made of stainless steel because they are used for elution of radionuclides.

In the present invention, the joining of the vent needle and the fixed body of the vent needle and the joining of the eluent inflow needle and the fixed body of the eluent inflow needle can be performed by integral molding. That is, as a joining means between the needle and the fixed body, the fixed body is provided with a through hole whose inner diameter is substantially equal to the outer diameter of the needle, and after inserting the needle into this through hole,
There is also a means for adhering the needle and the peripheral wall of the through hole with an adhesive. However, with this means, since the bonded portion is extremely brittle, when the bonded portion is loaded, the bonded portion may be damaged and the elution system may be open to the atmosphere. Furthermore, the manufacturing process of the elution system of the radionuclide elution device includes a sterilization process in which the radionuclide elution column and the eluent flow pipe connected to it are exposed to the high temperature, high pressure steam or gas required for sterilization. There is also a problem that the adhesive is required to have heat resistance and pressure resistance, and therefore it is difficult to select the adhesive. On the other hand, this problem does not occur when the needle and the fixed body are integrally molded. In this case, integral molding means insert molding by injection molding. That is, after inserting the end of the needle into the mold in advance, resin is injected into the mold to mold the fixed body, thereby joining the needle and the fixed body. This ensures a high level of tightness at the joint between the needle and the fixed body, and improves the tightness of the radionuclide elution system.

As the membrane filter, for example, a filter made of polytetrafluoroethylene resin (PTFE), polycarbonate, polyvinylidene fluoride (PVDF) or the like can be used, and polytetrafluoroethylene resin is particularly preferable. It is preferable in terms of heat resistance, pressure resistance, safety, moldability, cost and the like.

In the present invention, when the joint between the vent needle fixing body and the eluent inflow needle fixing body on the needle support is above the membrane filter, the joint is made liquid-tight by using an O-ring. It is preferable to seal. Accordingly, when the physiological saline solution flows backward and flows into the upper chamber, it is possible to reliably prevent the physiological saline solution from flowing out of the needle support body from the joint portion.

There is no limitation on the material of the O-ring, and it is possible to use, for example, nitrile rubber, styrene butadiene rubber, silicone rubber, fluororubber, acrylic rubber, chloroprene rubber, ethylene propylene rubber, butyl rubber or the like. Considering that the O-ring is subjected to high temperature and high pressure by high-pressure steam sterilization (eg 121 ° C., 20 minutes), fluororubber (eg product name Viton),
Those made of silicone rubber, acrylic rubber and ethylene propylene rubber can be particularly preferably used.

Further, in the present invention, in the needle support, it is preferable that the vent needle fixing body and the eluent inflow needle fixing body are integrally connected in a non-detachable manner. That is, in the conventional member shown in FIG. 4, since a porous filter made of a ceramic sintered body having a large volume is used as the filter and both fixing bodies are detachable, the member is inevitably large in size. there were. On the other hand, when a membrane filter having a small volume is used as the filter and both fixed bodies are integrally connected in a non-detachable manner, the member can be made compact.

The inflow structure and the inflow member according to the present invention can be diverted to other uses that require aseptic inflow of liquid into a column or the like. Examples of such other uses include uses in analyzers, medical devices, and the like. Therefore, the present invention also provides the following inflow structure and inflow member. The material of the inflow structure and the fixed body of the inflow member are the same as described above.

(A) The vent needle fixing body and the liquid inflow needle fixing body arranged substantially below the vent needle fixing body are connected to each other,
A needle support having a space chamber inside, and a membrane-shaped gas filter for sterilization through which air can pass but liquid cannot pass, so that the space chamber of the needle support is partitioned into an upper chamber and a lower chamber. A membrane filter that is liquid-tightly and airtightly attached to the peripheral wall of the space chamber, and has openings on the distal end side and the proximal end side, and is fixed to the vent needle fixing body while penetrating the vent needle fixing body. In addition, the tip side has a vent needle projecting above the vent needle fixing body, and the base end side opening has a vent needle opening to the upper chamber of the space chamber, and an opening at the tip side, penetrating the liquid inflow needle fixing body. The liquid inflow needle fixed to the liquid inflow needle fixing body in a state of being provided, and having the liquid inflow needle penetrating the vent needle fixing body and having a tip side protruding above the vent needle fixing body, Liquid inflow structure characterized in that the air passage hole which communicates the outside of the lower side chamber and the needle support is formed in the needle support.

(B) Bent needle fixing body provided with an upper wall portion and a cylindrical insertion portion continuously provided on the lower side thereof, and a cylindrical liquid circulation portion continuously provided on the upper wall portion and the lower side thereof. And a liquid inflow needle fixing body provided with, and both fixed bodies are connected with the upper wall portion of the liquid inflow needle fixing body inserted in the insertion portion of the vent needle fixing body with a space chamber formed therebetween. A needle support, which is a membrane filter for sterilization, in which air can pass but liquid cannot pass, and the space chamber of the needle support is divided into an upper chamber and a lower chamber. A membrane filter that is liquid-tightly and airtightly attached to the peripheral wall portion, has an opening on the distal end side and the proximal end side, and is fixed to the vent needle fixed body while penetrating the vent needle fixed body, The tip side protrudes above the vent needle fixing body. And the liquid inflow needle fixing body having a vent needle having a base end side opening to the upper chamber of the space chamber and an opening on the tip side and the base end side and penetrating the liquid inflow needle fixing body. The liquid inlet needle is fixed to the vent needle fixing body and the tip side protrudes above the vent needle fixing body through the vent needle fixing body, and the proximal side opening is opened in the liquid flowing portion of the liquid flowing needle fixing body. A liquid inflow member, comprising: an air circulation hole that is formed in the needle support and that connects the lower chamber of the space chamber and the outside of the needle support.

[0023]

1 is a sectional view showing an embodiment of an eluent inflow member according to the present invention. In FIG.
The same components as those in FIG. 4 are designated by the same reference numerals and the description thereof will be omitted. Needle support 70 in the member of this example
The vent needle fixing body 36 and the eluent inflow needle fixing body 42 are irremovably integrally connected to each other.
That is, a concave portion 72 is formed on the vent needle fixing body 36, and a convex portion 74 is formed on the eluent inflow needle fixing body 42. By fitting the convex portion 74 into the concave portion 72, the eluting fluid inflow needle fixing body is changed from the vent needle fixing body 36. 42 does not come off. In this case, the fixed bodies 36 and 42 are made of heat-resistant polypropylene, and the needles 52 and 54 are made of stainless steel.
The connection with 4 is made by integral molding.

Reference numeral 76 in the drawing denotes a membrane filter which is liquid-tightly and airtightly attached to the peripheral wall of the space chamber 44 so as to partition the space chamber 44 of the needle support 70 into an upper chamber 78 and a lower chamber 80. The air is permeable and the eluent is impermeable. The outer periphery of the filter 76 is inserted into a groove 82 formed at the joint between the bent needle fixed body 36 and the eluent inflow needle fixed body 42, and the groove 8 is further inserted.
Fluorine rubber (trade name Viton) on the filter 76 in 2
By inserting the O-ring 84 consisting of
It is liquid-tightly and airtightly attached to the peripheral wall portion of No. 4. The O-ring 84 liquid-tightly seals the joint between the vent needle fixing body 36 and the eluent inflow needle fixing body 42 located above the filter 76.

Upper wall portion 3 of needle fixing body 42 for inflow of eluent
8 has one through hole 86 formed therein, and one shallow groove 88 is formed on the inner surface of the insertion portion 34 of the vent needle fixing body 36. The through hole 86 and the shallow groove 88 form the space chamber 44. An air circulation hole 90 that connects the lower chamber 80 and the outside of the needle support 70 is formed in the needle support 70. In addition, the proximal end opening 58 of the vent needle 52
Is open to the upper chamber 78 of the space chamber 44.

The procedure for eluting the above-mentioned radionuclide using the member of this example is the same as that of the member of FIG. 4, but when the member of this example is used, the external air entering the saline vial is used. The bacteria can be sterilized reliably, and even if a backflow of the physiological saline occurs, it is possible to prevent the physiological saline from flowing out. In addition, the sealing property of the elution system is improved and It is possible to prevent outflow of the physiological saline solution from the joint portion and to make the member compact.

[0027]

EXAMPLE FIG. 2 is a sectional view showing an elution system of a radionuclide elution device using the eluent inflow member 70 shown in FIG.
In FIG. 2, the same components as those in FIG. 1 are designated by the same reference numerals and the description thereof will be omitted. Eluent flow pipe for this elution system 1
Both 2 and 14 are formed of a stainless steel tube and a synthetic resin member. That is, the physiological saline solution flow pipe 12 includes the eluent inflow member 70 shown in FIG.
A column connection plug 98 inserted into the column 10 in which the stainless steel pipe 92 is fixed and the heat-resistant polypropylene connecting plug 94 detachably connected to the eluent inflow member 70 and the stainless steel pipe 96 are fixed.
And a silicone rubber tube 100 connecting the stainless steel tubes 92 and 96. The eluate flow pipe 14 is provided with a needle fixing plug 1 made of heat-resistant polypropylene to which an eluate outflow needle 18 is fixed.
02, a stainless steel tube 104 is fixed, and a heat-resistant polypropylene connecting plug 106 detachably connected to the needle fixing plug 102, and a stainless steel tube 108 are fixed, and a column connecting plug 110 inserted into the column 10 is connected. And stainless steel tube 104,
And a silicone rubber tube 112 connecting 108.

The column connecting plugs 98, 110 are synthetic resin plug bodies 1 to be inserted into the openings of the column 10.
20, the plug body 120 is integrally joined to the stainless steel pipes 96 and 108, and the O-ring 122 that is pressed against the column inner peripheral wall is disposed on the outer peripheral portion of the plug body 120. . Column 10 and eluent flow tube 12 or 1 using the plug of this example
When 4 and 4 are connected, extremely high hermeticity is obtained at the connecting portion.

In the radionuclide elution device using the elution system shown in FIG. 2, and in the elution system shown in FIG. 2, the eluent inflow member 30 shown in FIG. A radionuclide elution device that is used and uses a needle fixing plug connecting plug 98, 110 formed by integral molding and a needle fixing plug connecting plug joined with a metal eluent flow pipe 96, 110 by an adhesive instead of the needle fixing plug connecting plug 98, 110 In the elution system shown in FIG. 2, the eluent inflow member 3 shown in FIG.
0 in the radionuclide elution device and the elution system shown in FIG. 2, in place of the needle fixing plug connecting plugs 98 and 110 formed by integral molding, metal eluent flow pipes 96 and 1
Radiopharmaceuticals were respectively prepared using 10 and a radionuclide elution device using a needle fixing plug connecting plug joined by an adhesive. In this case, alumina was adsorbed with the parent nuclide molybdate ( ⁹⁹ Mo), and the daughter nuclide sodium pertechnetate (
^99m Tc) was eluted in physiological saline. In this case, the amount of physiological saline solution in the physiological saline solution vial was 10.5 ml.

The results of measuring the amount of eluate and the elution time are shown in Tables 1 and 2. In Tables 1 and 2, the device No. Indicates the following: 1-3: Radionuclide elution device using the elution system shown in FIG. 2 (Example of the present invention) 4-6: In the elution system shown in FIG. The eluent inflow member 30 shown is used, and instead of the needle fixing plug connecting plugs 98 and 110 integrally formed, a needle fixing plug connecting plug joined to the metal eluent flow pipes 96 and 110 with an adhesive is used. Radionuclide elution device (Comparative Example) 7 to 9: Radionuclide elution device using the eluent inflow member 30 shown in FIG. 4 in place of the eluent inflow member 70 formed by integral molding in the elution system shown in FIG. (Comparative Example) 10 to 12: In the elution system shown in FIG. 2, in place of the needle fixing plug connecting plugs 98 and 110 integrally formed, the metal eluent flow tubes 96 and 110 are connected by an adhesive. Radionuclide dissolution apparatus using a needle locking plug coupling plug which is (invention example)

[0031]

[Table 1]

[Table 2]

From Tables 1 and 2, when the eluent inflow structure of the present invention is used, the sealing property of the elution system of the radionuclide is improved, the physiological saline solution is prevented from remaining in the column, and the nuclide elution rate is improved. Was confirmed.

[0033]

According to the eluent inflow structure and eluent inflow member of the radionuclide elution device according to the present invention, the external air entering the physiological saline vial can be surely sterilized, and the eluate Aseptic sterilization can be achieved with a simple structure, and it is possible to prevent the physiological saline solution from flowing out even when backflow of the physiological saline solution occurs.

[Brief description of the drawings]

FIG. 1 is a sectional view showing an embodiment of an eluent inflow member according to the present invention.

FIG. 2 is a sectional view showing an elution system of a radionuclide elution device using the eluent inflow member shown in FIG.

FIG. 3 is a cross-sectional view showing an example of a conventional radionuclide elution device.

FIG. 4 is a sectional view showing an example of a conventional eluent inflow member.

[Explanation of symbols]

 32 upper wall part 34 insertion part 36 vent needle fixed body 38 upper wall part 40 eluent flow passage part 42 eluent inflow needle fixed body 44 space chamber 52 vent needle 54 eluent inflow needle 56 opening 58 opening 60 opening 62 opening Part 70 Needle support 76 Membrane filter 78 Upper chamber 80 Lower chamber 84 O-ring 90 Air flow hole

Claims (10)

[Claims] 1. An eluent in a radionuclide elution device comprising: a radionuclide elution column; and an eluent inflow pipe having an eluent inflow needle on one end side and the other end connected to the radionuclide elution column. A structure for injecting an eluent into an inflow needle, in which a vent needle fixing body and an eluent inflow needle fixing body disposed substantially below the vent needle fixing body are connected to each other, and a needle support having an internal space chamber and air are A membranous gas filter for sterilization that allows passage of an eluent and is liquid-tight and air-tight on the peripheral wall of the space chamber so as to partition the space chamber of the needle support into an upper chamber and a lower chamber. The attached membranous filter, which has openings at the front end side and the base end side, is fixed to the vent needle fixing body while penetrating the vent needle fixing body, and the tip side is the vent needle fixing body. Of the vent needle with the opening on the proximal end opening to the upper chamber of the space chamber and the opening on the tip side that penetrates the eluent inlet needle fixing body and fixes the eluent inlet needle The eluent inflow needle is fixed to the body and penetrates through the vent needle fixing body and has a tip side protruding above the vent needle fixing body, and the lower chamber of the space chamber and the outside of the needle support. An eluent inflow structure of the radionuclide elution device, wherein an air circulation hole communicating with each other is formed in the needle support. 2. The eluent according to claim 1, wherein in the needle support, a joint between the vent needle fixing body and the eluent inflow needle fixing body existing above the membrane filter is liquid-tightly sealed by using an O-ring. Inflow structure. 3. The eluent inflow structure according to claim 1, wherein in the needle support, the vent needle fixing body and the eluent inflow needle fixing body are integrally connected in a non-detachable manner. 4. The eluent inflow structure according to claim 1, 2 or 3, wherein the membrane filter is made of polytetrafluoroethylene resin. 5. The eluent in a radionuclide elution device comprising a radionuclide elution column, and an eluent inflow pipe having an eluent inflow needle at one end side and the other end being connected to the radionuclide elution column. An eluent inflowing member into the inflow needle, which is a vent needle fixing body provided with an upper wall portion and a cylindrical insertion portion continuously provided on the lower side thereof, and a continuously connected upper wall portion and the lower side thereof. An eluent inflow needle fixing body having a tubular eluent circulation part is provided, and both of these fixing bodies are interposed between the eluent inflow needle fixing body and the upper wall portion of the eluent inflow needle fixing body inserted in the insertion portion of the vent needle fixing body. A needle support, which is connected in a state of forming a space chamber, and a membrane-shaped gas filter for sterilization that allows air to pass through and an eluent not to pass through. The space room so as to be partitioned from the side room A membrane filter that is liquid-tightly and airtightly attached to the peripheral wall, and has openings on the distal end side and the proximal end side, and is fixed to the vent needle fixing body in a state of penetrating the vent needle fixing body, The eluent inflow needle fixing body has a vent needle with the tip side protruding above the vent needle fixing body and the base end side opening portion opening to the upper chamber of the space chamber, and the eluent inflow needle fixing body having openings on the tip side and the base end side. It is fixed to the eluent inflow needle fixing body in a penetrating state, penetrates through the vent needle fixing body, the tip side projects above the vent needle fixing body, and the base end side opening part is the eluent inflow needle fixing body. And an eluent inflow needle that is open in the eluent flow section, and an air circulation hole that connects the lower chamber of the space chamber and the outside of the needle support is formed in the needle support. Eluent inlet member radionuclide dissolution and wherein the. 6. The eluent according to claim 5, wherein in the needle support, the joint between the vent needle fixing body and the eluent inflow needle fixing body existing above the membrane filter is liquid-tightly sealed by using an O-ring. Inflow member. 7. The eluent inflow member according to claim 5, wherein in the needle support, the vent needle fixing member and the eluent inflow needle fixing member are integrally connected in a non-detachable manner. 8. The eluent inflow structure according to claim 5, 6 or 7, wherein the membrane filter is made of polytetrafluoroethylene resin. 9. A vent needle fixing body and a liquid inflow needle fixing body arranged substantially below the vent needle fixing body are connected to each other, and a needle support having a space chamber therein and air can pass but liquid cannot pass. A membrane-shaped sterilization gas filter, which is liquid-tightly and airtightly attached to a peripheral wall portion of the needle support so as to partition the space chamber of the needle support into an upper chamber and a lower chamber, and a tip. Has an opening on the side and the proximal end side, and is fixed to the vent needle fixing body in a state of penetrating the vent needle fixing body, the tip side projects above the vent needle fixing body, and the base end side opening portion is The vent needle is open to the upper chamber of the space chamber, and has an opening on the tip side, and is fixed to the liquid inflow needle fixing body while penetrating the liquid inflow needle fixing body, and also the vent needle fixing The liquid inflow needle having a tip side protruding through the body and protruding above the vent needle fixing body is provided, and an air circulation hole for communicating the lower chamber of the space chamber and the outside of the needle support is provided in the needle support. A liquid inflow structure characterized by being formed. 10. A vent needle fixing body having an upper wall portion and a cylindrical insertion portion continuously provided on a lower side thereof, and a cylindrical liquid circulation portion continuously provided on the upper wall portion and a lower side thereof. With the liquid inflow needle fixing body provided, both of these fixed bodies are connected with the upper wall portion of the liquid inflow needle fixing body inserted in the insertion portion of the vent needle fixed body with a space chamber formed therebetween. And a membrane-like gas filter for sterilization through which air can pass but liquid cannot pass, and a peripheral wall of the space chamber that divides the space chamber of the needle support into an upper chamber and a lower chamber. The membrane filter is attached liquid-tightly and air-tightly to the part, and has openings on the tip side and the base end side, and is fixed to the vent needle fixing body while penetrating the vent needle fixing body, Side is above the bent needle fixing body The liquid inflow needle fixing body, which has a vent needle having an opening at the base end side opening to the upper chamber of the space chamber and an opening at the front end side and the base end side, and which penetrates the liquid inflow needle fixing body The liquid inlet needle is fixed to the vent needle fixing body and the tip side protrudes above the vent needle fixing body through the vent needle fixing body, and the proximal side opening is opened in the liquid flowing portion of the liquid flowing needle fixing body. A liquid inflow member, comprising: an air circulation hole that is formed in the needle support and that communicates the lower chamber of the space chamber with the outside of the needle support.