KR100669236B1 - Hot-cell for production or distribution of radiopharmaceuticals - Google Patents

Abstract

The present invention relates to a hot cell for the production or distribution of radiopharmaceuticals, and it is an object of the present invention to provide a hot cell for the production or distribution of radiopharmaceuticals that can prevent the leakage of radioactivity and at the same time block the incorporation of foreign substances.

To this end, the present invention is an inner cell installed inside the outer cell and the outer cell, a high-pressure air supply device for supplying high-pressure air to the inner cell, the inner exhaust air from the inner cell to the outer cell and to suck the air inside the outer cell It is configured to include an air suction device to provide a hot cell for the production or distribution of radiopharmaceuticals, characterized in that the outer cell and the inner cell to form a buffer zone which is a pressure lower than the outer and inner cells of the outer cell. do.

As the radioactive leakage is prevented by the production or distribution hot cell of the radiopharmaceutical according to the present invention, it is possible to produce and distribute the radiopharmaceutical which effectively blocks the infiltration of foreign substances.

Radiopharmaceuticals, Half Life, Hot Cell, Negative Pressure, Positive Pressure, Buffer Zone

Description

Hot-cell for production or distribution of radiopharmaceuticals

1 is a plan view schematically showing an embodiment of a hot cell for the production or distribution of radiopharmaceuticals according to the present invention.

* Description of the symbols for the main parts of the drawings *

1: external cell 3: internal cell

5: buffer area

The present invention relates to a hot cell for the production or distribution of radiopharmaceuticals.

In general, in a facility that handles radioactive materials, that is, radioactivity, the outer wall is composed of a shield made of lead, etc., in order to block the leakage of radiation to the outside. Maintenance (negative pressure design) makes it difficult to move materials from inside to outside.

On the other hand, in the manufacturing facilities of pharmaceuticals, since pharmaceuticals are substances that act directly on the human body both inside and outside the human body, various clean facilities are introduced to minimize side effects that may be caused by the incorporation of foreign substances in the manufacturing process. Is kept higher than the external pressure (positive pressure design) to prevent foreign substances from entering the facility from outside.

The above two items are prescribed by the Atomic Energy Law and the Pharmacist Law respectively. Radiopharmaceuticals, which are both radioactive materials and pharmaceuticals, must satisfy the above two pressure conditions in terms of safety and satisfaction of regulations. However, the two pressure conditions are in conflict with each other.

Conventionally, air curtains are formed at a predetermined distance from the hot cells around the hot cells, which are the work spaces in which external leakage of radiation is blocked, to form a local high pressure region. Since the air inside is lower in pressure relative to the air curtain part, the above pressure condition is satisfied for the first time.

However, the negative pressure region between the hot cell and the air curtain is substantially the same atmospheric pressure as the atmosphere outside the air curtain. The air curtain is formed by the injected high pressure air. As a problem, it was not easy to meet the two pressure conditions, in particular the sound pressure design requirements. In addition, the air curtain is not only large in size but also expensive to manufacture, which is uneconomical.

The present invention has been made in view of the above-mentioned problems of the prior art, and a treatment facility for radiopharmaceuticals capable of reliably satisfying the above two pressure conditions, specifically, a hot cell for producing or distributing radiopharmaceuticals It is to provide.

In order to achieve the above object, the present invention is an outer cell formed of a shield to block the leakage of radiation to the outside, the inner cell is installed inside the outer cell, high pressure air supply for supplying high-pressure air to the inner cell And an air intake device for sucking the air inside the outer cell from the inner cell and the outer cell from the inner cell to the outer cell. It provides a hot cell for the production or distribution of radiopharmaceuticals, characterized in that to form a buffer zone which is a pressure lower than the inside of the cell.

Hereinafter, exemplary embodiments of the present invention will be described with reference to the accompanying drawings. 1 is a plan view schematically showing an embodiment to which the present invention is applied.

The hot cell for producing or distributing a radiopharmaceutical according to the present invention has an outer cell 1 formed of a shield made of a material such as lead to block the outflow of radiation as a basic structure of the hot cell, and the inside of the outer cell 1. The inner cell 3 is provided.

In order to maintain the inner cell 3 in a high pressure state, a high-pressure air supply device 7 for supplying high-pressure air is installed in connection with the inner cell 3 and sucks the air in the outer cell 1 so that the inner cell ( 3) The air intake device 9 is installed in connection with the outer cell 1 to maintain the space outside the inside of the outer cell 1 at a low pressure. The inner cell 3 has a high pressure air supply device ( The internal exhaust hole 11 is installed so that the high pressure air supplied from 7) flows into the air suction device 9.

Here, the high pressure refers to a pressure higher than the pressure of the space outside the inner cell 3 and inside the outer cell 1, whereas the low pressure refers to the pressure inside the inner cell 3 and the outside of the outer cell 1. It means lower pressure than lower pressure. The space outside the inner cell 3 and inside the outer cell 1 means a space maintaining a low pressure between the outside of the outer cell 1 and the inside of the inner cell 3 that are relatively high pressure. Will be called the buffer zone (5).

Even if the pressure inside the inner cell 3 is lower than the pressure outside the outer cell 1, the sound pressure design conditions that the pressure inside the facility should be kept lower than the outside pressure due to the presence of the buffer zone 5 Both pressure conditions of positive pressure design condition that pressure should be kept higher than external pressure can be satisfied. However, considering that the pressure outside the outer cell 1 will normally correspond to atmospheric pressure, it would be appropriate for the pressure inside the inner cell 3 to be either atmospheric or higher than atmospheric.

In addition, the internal exhaust hole 11 not only serves as a passage through which the air supplied from the high pressure air supply device 7 escapes to the air intake device 9, but also is formed in an appropriate shape and size so that the pressure in the internal cell 3 is increased. In order to be maintained at this titration line, it will act as a kind of relief valve that pulls a part of the high pressure air through the buffer zone 5 toward the air intake device 9.

When the hot cell is configured as described above, a filtration device 13 for preventing external leakage of radioactivity may be installed in the inner exhaust hole 11, and when the filtration device is installed to be in contact with the outside of the hot cell, the filtration includes radioactivity. There is no need to worry about the problem of additional shielding for the device.

In addition, the shield may be formed by stacking lead bricks, but a separate panel may be formed by forming a blank wall in the middle and filling lead in the blank space therein. This will minimize the gaps with poor shielding.

On the other hand, since the radiopharmaceutical production or distribution operation is to be made in the inner cell (3), the outer cell (1) and the inner cell (3) of the hot cell for production or distribution of radiopharmaceuticals configured as described above, respectively, the door 15 , 17) can be installed to supply the necessary equipment and materials into the inner cell (3). In addition, the production or distribution of radiopharmaceuticals should be automated to minimize the exposure of the human body as much as possible. However, since there may be an unavoidable situation or process in which a person should participate in the work, the external cell 1 and the internal cell 3 may be Each lead glass (19, 21) is installed and the manipulator (23) that can be operated from the outside is installed to configure the necessary work while looking inside through the lead glass (19, 21).

As described above, the hot cell for the production or distribution of radiopharmaceuticals according to the present invention, unlike the prior art, the inner cell (3) in which the production or distribution of radiopharmaceuticals is actually performed, the pressure inside the facility should be kept lower than the external pressure. It satisfactorily satisfies both the pressure design conditions, namely the negative pressure design condition and the positive pressure design condition that the pressure inside the facility should be kept higher than the external pressure.                     

Radiopharmaceuticals generally use a short-lived nuclide in order to minimize adverse effects on the human body, but in situations where the above pressure conditions must be satisfied regardless of the type of nuclide, a hot cell according to the present invention may be used. Could be.

According to the hot cell for the production or distribution of radiopharmaceuticals according to the present invention, due to the presence of a high-pressure inner cell and a low-pressure buffer zone installed inside the outer cell to maintain the pressure inside the facility lower than the external pressure It is possible to reliably satisfy the two pressure conditions of the negative pressure design condition and the positive pressure design condition to maintain the pressure inside the facility higher than the external pressure. It is effective to secure drug manufacturing facilities.

Claims (6)

An outer cell formed of a shield to block leakage of radiation to the outside; An inner cell installed inside the outer cell; A high pressure air supply device for supplying high pressure air to the inner cell; An inner exhaust hole leading from the inner cell to the outer cell; It is configured to include an air suction device for sucking the air inside the outer cell to form a buffer zone between the outer cell and the inner cell is a space having a lower pressure than the outer side of the outer cell and the inner side of the inner cell. Hot cell for production or distribution of radiopharmaceuticals. The method of claim 1, The radiopharmaceutical is a hot cell for producing or distributing a radiopharmaceutical, characterized in that the radiopharmaceutical using a short-lived nuclide. The method of claim 1, The shield is a hot cell for the production or distribution of radiopharmaceutical, characterized in that the lead material. The method of claim 3, The shield is a hot cell for the production or distribution of radiopharmaceutical, characterized in that formed by filling lead in a separate panel. delete delete

Images