KR20100079262A - Container for receiving radio-pharmaceuticals vial - Google Patents

Abstract

PURPOSE: A radiopharmaceutical vial receiving container is provided to lower the times and exposed amount of an operator to the radioactivity sharply by performing the injection process immediately when distributing and injecting the radiopharmaceutical into an injector without moving the radiopharmaceutical to an additional container. CONSTITUTION: A radiopharmaceutical vial receiving container comprises: a top part which is opened to accept the vial having the radiopharmaceutical; a vial storing groove including an elastic support board in the lower part of the vial; a main body(110) which includes a handle for the transportation in the outside; and a cover(120) which covers the opened top of the main body while forming a needle penetration hole coping with the location of the vial; a needle penetration hole stopper(130) which opens and closes the needle penetration hole of the cover from the outside. The vial having the radiopharmaceutical can be kept and transported in the state that the radioactivity is shielded.

Description

Radiopharmaceutical vial container {Container for receiving radio-pharmaceuticals vial}

The present invention relates to a radiopharmaceutical vial container for use in the field of nuclear medicine, and more particularly to a radiopharmaceutical vial container for storage, transport and distribution of radiopharmaceuticals.

Radioactive isotope tomography (Positron Emission Tomography) (hereinafter referred to as "PET") is widely used as a method of early detection of cancer.

The PET test is performed by intravenously administering a radiopharmaceutical (liquid form) such as, for example, fluorine deoxyglucose (2- [F-18] fluoro-2-deoxy-D-glucose, 18 FDG) to the human body. In addition, burns are emitted from specific tissues or organs to be examined.

Herein, the radiopharmaceutical is generally used by dispensing and injecting only a single use amount determined according to the type of radiopharmaceutical into a vial or syringe due to storage difficulty or contact with a contaminant.

However, in the dispensing and dispensing operation of a radiopharmaceutical, in consideration of safety, the vial in which the radiopharmaceutical is injected is stored in a separate container and stored in a separate container to transfer a unit dose from the vial to the syringe whenever necessary. It will be transported to a radiopharmaceutical dispenser.

As a container for storing and transporting a vial containing a radiopharmaceutical as described above, the radiopharmaceutical vial receiving container 10 as shown in FIG. 1 includes a main body 11 containing a vial 20 containing a radiopharmaceutical, and It consists of a cover 14 without a needle through-hole covering the open top of the main body 11, the main body 11 and the cover 14 is made of a radiation shielding material such as tungsten, tungsten alloy or lead, etc. 11) When the radiopharmaceutical is stored and transported in a sealed state with the cover 14 sealed, it is shielded from the outside to prevent the operator's internal exposure from vaporization of the isotope and the external exposure by direct exposure.

The main body 11 has a vial receiving groove 12 for maintaining a proper diameter and depth in the center of the inside to accommodate the vial 20, and has a handle 13 on the outside for convenience in carrying.

Then, in the container 10 carried to the radiopharmaceutical dispensing device to be dispensed, the cover 14 is removed as shown in FIG. 2, and the radiopharmaceutical is removed from the vial 20 accommodated in the container 10. Replaced with a needle through hole cover 15 for dispensing, with the needle through hole cover 15 positioned downwards as shown in FIGS. 3 and 4 and then the radiopharmaceutical dispensing device 30 Of the lid 15 with the needle through-hole being stored in the container housing 31 of The radiopharmaceutical is dispensed and injected into the vial 20 through the hole.

From this, the container 10 replaced with the needle through hole cover 15 can dispense and inject radiopharmaceuticals into the syringe 33 without removing the medicine bottle 20, eliminating operator's hassle. While the operator may reduce the number of exposures to the radiation and the amount of exposure to some extent, even in this case, the operator is exposed to the vial 20 containing the direct radiopharmaceutical every time so that the number of exposures and the amount of exposure of the operator to the radiation is not greatly reduced. There is a problem. In particular, exposure to hands poses a serious threat to operators.

In addition, since the size of the vial receiving groove 12 is constant even though the size of the vial 20 may not be constant because the vial 20 is not always positioned at a predetermined height in the upper portion of the main body 11, the vial receiving groove When the medicine bottle 20 accommodated in the 12 is not easy to be taken out to the outside, and covers the open upper portion of the main body 11 with the cover 14, the medicine bottle 20 moves inside the medicine bottle receiving groove 12. In addition, there is a risk of damage during storage and transport while hitting the inside of the cover 14, while not being placed in a stable state inside the cover 15, the syringe 33 according to the size of the vial 20 There is a problem that the needle is not inserted into the vial 20 to a certain height to minimize the remaining amount of radiopharmaceuticals.

The present invention is to solve the above problems, when dispensing and injecting the radiopharmaceuticals being used for the treatment or diagnostics from the vials to the syringe in the required amount to take the vials without removing them in a separate container to eliminate the operator's hassle While there is no fear of leakage of radiation to the outside, the operator can significantly reduce the number of exposures to radiation and the amount of exposure.It is also easy to take out the vial when it is taken out and transferred to a separate container.The vial is placed in a stable state inside the lid. It is an object of the present invention to provide a radiopharmaceutical vial receiving container which prevents breakage of the syringe and minimizes the remaining amount in the vial while the needle of the syringe is always correctly inserted at a constant height regardless of the vial size.

In order to achieve the above object, the present invention is made of a radiation shielding material, the upper part is opened to accommodate the vials containing the radiopharmaceuticals, and the lower part of the vial to receive the vial inside and keep the lower part in the elastically coupled state A medicine bottle receiving groove having a pedestal, and a main body having a carrying handle for facilitating carrying therein; A needle through-hole corresponding to the position of the vial so that a needle of a syringe made of a radiation shielding material and dispensing the required amount of use from the vial can be inserted into the vial to penetrate from the outside; A cover to cover the top; And a needle through hole stopper configured to open and close the needle through hole of the cover from the outside, and the medicine bottle being retracted by elasticity of the medicine bottle lower elastic support so that the medicine bottle received in the medicine bottle receiving groove can be easily taken out. While placing the upper portion of the main body with the cover while the upper portion of the main body is covered with the cover, the lower vial of the vial is pressed down while keeping the vial in a stable state to shield the vial received therein A radiopharmaceutical vial container for storing and transporting in a state and opening the needle through hole stopper to insert a needle of the syringe into the vial of the vial without dispensing the vial, thereby dispensing a radiopharmaceutical vial. to provide.

Preferably, the needle through-hole stopper may be coupled to the cover can be fixed or separated.

According to the radiopharmaceutical vial container of the present invention having the above configuration, the following effects are obtained.

First, the needle through-hole stopper is transported in a state fixedly coupled to the cover, and the needle through-hole stopper is separated from the cover when dispensing and injecting a radiopharmaceutical which is used for treatment or diagnosis from a vial to a syringe in a necessary amount. By opening the medicine bottle, the medicine bottle is taken out without being transferred to a separate container, which is immediately performed to remove the operator's hassle, and there is no fear of radiation leakage to the outside, thereby effectively reducing the number of exposures to the radioactivity and the amount of exposure. .

Next, by placing the vial at a certain height from the upper portion of the body by the elasticity of the lower vial of the vial has the effect that the vial received in the vial receiving groove is easy to take out to the outside.

In addition, when the upper part of the main body is covered with the cover, the lower vial of the vial is pressed down while the vial is in close contact with the inside of the cover to maintain a stable state to prevent damage during storage and transportation, Irrespective of the size of the vial placed in the state, the needle of the syringe is always inserted exactly into the vial at a constant height, thereby minimizing the remaining amount of the radiopharmaceutical.

Hereinafter, preferred embodiments of the present invention will be described in detail with reference to the accompanying drawings, which are intended to be described in detail so that those skilled in the art can easily implement the present invention. It is not intended that the technical spirit and scope of this invention be limited.

5 is an exploded perspective view of a radiopharmaceutical vial container according to an embodiment of the present invention, Figure 6a to 6c is a cross-sectional view of the process of receiving and combining the vial to the radiopharmaceutical vial container of Figure 5 will be.

Radiopharmaceutical vial container 100 according to an embodiment of the present invention, as shown in Figure 5, the body 110, the lid 120 and the needle through-hole stopper 130.

The main body 110 is made of a radiation shielding material, and opens the upper portion to accommodate the vial 20 containing the radiopharmaceutical. On the inner side of the upper cover coupling screw 114 is formed to be screwed with the cover 120.

The main body 110 is provided with a vial receiving groove 111 formed to maintain an appropriate diameter and depth in the center of the vial 20 to accommodate the vial, and as shown in Figure 6a, It is provided with a lower vial elastic base 112 for supporting the lower portion of the vial receiving groove 111 to maintain the elastically coupled state, and has a carrying handle 115 for facilitating the transfer to the outside.

The lower vial of the medicine bottle 112 is not raised above a certain height in the interior of the vial receiving groove 111, but is installed to be lowered by installing a spring 113 in the lower portion, the spring 113 The medicine bottle 20, which is accommodated in the medicine bottle receiving groove 111, is positioned such that the medicine bottle 20 protrudes to a predetermined height from the upper portion of the main body 110 without being lowered downward by the tweezers. Use to make it easier to take out.

And the open upper part of the main body 110, the needle through-hole stopper 130 is fixed to the cover 120 as shown in Figure 6b, and as shown in Figure 6c, the cover Covered with 120, the vial bottom elastic support 112 is pressed down by the elasticity of the spring 113 while the vial 20 is always in close contact with the cover 120 to keep in a stable state to store without damage And while being able to transport, regardless of the size of the vial 20, the needle of the syringe 33 is always inserted into the vial 20 to be accurately and always at a constant height to minimize the remaining amount of radiopharmaceuticals.

The cover 120 is made of a radiation shielding material, and the cover coupling screw 114 of the main body 110 and the main body coupling screw 126 formed on the outer side of the lower part by screwing the opening of the main body 110. Cover the top.

In addition, the lid 120 forms a needle through-hole 121 around the vial of the vial receiving groove 111 of the inner surface in contact with the vial 20, thereby dispensing the required amount of use from the vial 20. The needle of the syringe 33 to be penetrated from the outside to be inserted into the vial 20.

In addition, the lid 120 surrounds the needle through-hole 121 and forms a vial upper fixing part 122 to surround the upper periphery of the vial 20 to maintain a stable state.

The vial upper fixing portion 122, the vial 20 is received by the elasticity of the spring 113 for supporting the vial lower elastic support 112 to be stored and transported in a more stable state, In addition, the vial 20 always maintains a constant position.

And the outer surface not in contact with the vial 20 of the cover 120, including the periphery of the needle through hole 121, the cone-shaped through hole extended to the upper centering around the needle through hole 121 The part 123 is formed.

A cap fastening inlet 124 is formed inwardly at two opposing portions of an edge of the through hole expansion part 123 formed on an outer surface of the lid 120 that is not in contact with the vial 20. A cap fastening groove 125 is formed in an upper inner side of the expansion part 123.

In addition, the needle through hole stopper 130 is formed of a cylindrical upper end and a conical lower end, and can be coupled to the cover fixed or detachable while opening and closing the needle through hole 121 of the cover 120 from the outside. .

The cylindrical upper end of the needle through hole stopper 130, the upper cover is used as the opening and closing handle is formed on both sides of the bottom cover fastening protrusion 131 through the stopper inlet 124 through the through hole expansion portion 123 At the same time, the through hole closure portion 132, which is the lower end of the conical shape, blocks and shields the through hole expansion portion 123, and the cover fastening protrusion 131 enters the stopper fastening groove 125 by rotation. It is in the locked state to maintain the state coupled to the cover 120.

In addition, in order to separate and separate the needle through-hole stopper 130 to maintain the coupled state from the cover 120, the cover fastening protrusion 131 in the state entered into the stopper fastening groove 125 and hung from both sides to the contrary ) Is lifted up as it is located at the plug fastening inlet 124 by rotation.

Therefore, the needle through-hole stopper 130 is held in a fixed state coupled to the cover 120, so that even if the container is placed upside down is not detached, to carry for distribution in the state blocked the needle through-hole 121 When dispensing, the needle through hole 121 is directed downward, and only the needle through hole stopper 130 is opened, and the needle of the syringe 33 passes through the needle through hole 121. 20) Since it can be inserted into the inside of the syringe to dispense, it is not necessary to open and close the entire cover, so the operation is simple and the radiation exposure can be minimized.

Referring to the use process of the radiopharmaceutical vial container 100 according to the embodiment of the present invention configured as described above in detail as follows.

7A-7C illustrate the process of transporting a radiopharmaceutical vial container containing the vial of FIG. 6B for dispensing in a radiopharmaceutical dispensing device, and FIGS. 8A-8C show a vial received in the vial of FIG. 7C A cross section is shown for dispensing a radiopharmaceutical with a syringe.

The radiopharmaceutical vial container 100 according to the embodiment of the present invention is for dispensing in a transport and radiopharmaceutical dispensing device for dispensing with the needle through hole 121 facing down, FIGS. 7A to 7C. The container is placed upside down through the process as shown in FIG.

And the process of dispensing radiopharmaceuticals by syringe in the vial contained in the container of Figure 7c proceeds as shown in Figures 8a to 8c.

First, in the container 100 accommodated in the container container 31 of the radiopharmaceutical dispensing device, the needle through-hole stopper 130 that remains in the state coupled with the cover 120 is rotated.

By the rotation of the needle through hole stopper 130, the cover fastening protrusion 131 that enters the stopper fastening groove 125 of the cover 120 and is caught on both sides thereof is connected to the stopper fastening inlet 124. When positioned, the needle through hole stopper 130 is lowered and separated from the cover 120.

Next, in the state where the needle through-hole stopper 130 is separated from the cover 120, the container container 31 is lowered so that the needle of the syringe 33 passes through the needle through-hole 121. Inserted into the vial 20 to dispense the radiopharmaceuticals to the syringe (33).

This invention is not limited to the above embodiments, various modifications are possible within the scope of the invention described in the claims, and such modifications are also included within the scope of the invention.

1 is an exploded perspective view of a process for storing and storing a vial in a conventional radiopharmaceutical vial receiving container,

Figure 2 shows an exploded perspective view of the process of replacing the cover with a needle through-hole in order to receive the radiopharmaceutical in the vial contained in the container of Figure 1,

FIG. 3 illustrates a process of storing the container of FIG. 2 in the container housing of the radiopharmaceutical dispensing device.

4 is a cross-sectional view of dispensing a radiopharmaceutical from a vial of a container housed in the radiopharmaceutical dispensing device of FIG. 3 by a syringe,

5 is an exploded perspective view of a radiopharmaceutical vial container according to an embodiment of the present invention,

Figure 6a to 6c shows a cross-section of the process of receiving and combining the vial in the radiopharmaceutical vial container of Figure 5,

7a to 7c illustrate the process when transporting the radiopharmaceutical vial container containing the vial of FIG. 6B for dispensing in the radiopharmaceutical dispensing device,

8A-8C illustrate a cross-sectional view of dispensing a radiopharmaceutical with a syringe in a vial received in the container of FIG. 7C.

<Explanation of symbols for the main parts of the drawings>

10: conventional radiopharmaceutical vial container

11: body 12: vial storage groove

13 handle 14 cover without needle through hole

15: cover with needle through hole 20: vial

30 radioactive medicine dispensing device 31 container container

32: syringe holder 33: syringe

100: radiopharmaceutical vial container according to an embodiment of the present invention

110: body 111: vial storage groove

112: medicine bottle elastic support 113: spring

114: cover coupling screw 115: handle

120: cover 121: needle through hole

122: vial upper fixing portion 123: through hole expansion portion

124: plug fastening inlet 125: plug fastening groove

126: body coupling screw 130: needle through hole stopper

131: cover fastening protrusion 132: through hole closure

Claims (2)

A vial receiving groove made of a radiation shielding material, the vial containing an upper portion opened to receive a vial containing a radiopharmaceutical, a vial lower portion of the vial for holding the vial and keeping the bottom thereof elastically coupled, and carrying A main body having an outside carrying handle for facilitating; A needle through-hole corresponding to the position of the vial so that a needle of a syringe made of a radiation shielding material and dispensing the required amount of use from the vial can be inserted into the vial to penetrate from the outside; A cover to cover the top; And, Consists of a needle through hole stopper for opening and closing the needle through hole of the cover from the outside, The medicine bottle, which is accommodated in the medicine bottle receiving groove, is positioned at a predetermined height from the top of the body by the elasticity of the medicine bottle lower elastic support so that the medicine bottle can be easily taken out. When the cover is pressed, the lower elastic base of the vial is pressed downward to keep the vial in a stable state, and to store, transport, and open the needle through hole stopper while keeping the vial housed in a radiation shielded state. A radiopharmaceutical vial container for inserting a needle into the vial to distribute the radiopharmaceutical. The method of claim 1, The needle through-hole stopper, radiopharmaceutical vial container container characterized in that the coupling can be fixed to or separated from the cover.

Images