JP2006126122A - Radioactive sample holder - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To provide a radioactive sample holder capable of holding in the stable state a syringe wherein a radioactive sample is injected, and coping easily with even a syringe having a different size. <P>SOLUTION: This radioactive sample holder 62 is equipped with a radiation shielding plate 72 having a knob 71 on the upper surface part and comprising a radiation shielding material such as tungsten; a shaft 74 extending in the vertical downward direction from the radiation shielding plate 72; and an approximately-circular holding member 76 mounted on the lower end of the shaft 74, for holding the syringe 24 inserted into a radiation shielding case 40 in the erected state. The holding member 76 holds the syringe 24 by sandwiching a collar part 32 of syringe 24 from the upper and lower sides. <P>COPYRIGHT: (C)2006,JPO&NCIPI

Description

  The present invention relates to a radioactive sample holder that is loaded into a radioactivity measuring apparatus that holds a syringe into which a radioactive sample has been injected and measures the amount of radioactivity of the radioactive sample.

  A method and an apparatus for inspecting the state of a subject have been developed by administering a radioactive sample to a subject and measuring radiation emitted from the radioactive sample concentrated at a specific site.

  In this case, the radioactive sample is usually injected into a syringe from a radioactive sample dispensing device (see Patent Document 1) and administered to the subject through the syringe, but the state of the subject is accurately inspected. For this purpose, it is necessary to inject an accurate amount of radioactive sample into the syringe. Then, the radioactivity measuring apparatus disclosed by the nonpatent literature 1 is developed as an apparatus which measures the radioactivity amount of the radioactive sample inject | poured into the syringe.

  This radioactivity measuring apparatus utilizes the ionization action by the radiation emitted from the radioactive sample. As shown in FIG. 7, the syringe 2 into which the radioactive sample is injected is held in the holder 4 and includes the sensor. Measurement is performed by inserting the holder 4 into the cylindrical detector 6.

  In the holder 4, an engagement member 8 that engages with the opening of the detection unit 6 is disposed at the upper end, and the syringe 2 is held at the lower end of the shaft 10 that extends vertically downward from the engagement member 8. A holding ring 12 is provided and configured. The syringe 2 is held by the holding ring 12 with the needle 18 side down while the flange portion 16 of the cylinder 14 is engaged with the upper surface portion of the holding ring 12.

Japanese Patent Publication No.3-331468 CURIEMETER IGC-7 (Aroca Corporation catalog issued in September 2000)

  By the way, when holding the syringe 2 in the holder 4 with the needle 18 down, there is a concern that the radioactive sample injected into the syringe 2 leaks through the needle 18. Usually, a plurality of syringes 2 of different sizes are prepared according to the amount of radioactive sample to be injected, and in order to hold each syringe 2 on the holding ring 12, the holding ring 12 corresponding to the size is prepared. A plurality of holders 4 having the above must be prepared.

  The present invention has been made to solve the above-described problems, and can hold a syringe into which a radioactive sample has been injected in a stable state, and can easily cope with syringes of different sizes. It is an object of the present invention to provide a radioactive sample holder that can be used.

  In the radioactive sample holder of the present invention, the piston of the syringe is inserted from the horizontal direction into the groove portions formed in the first support portion and the second support portion constituting the holding member, and the collar portion disposed on the cylinder of the syringe is the first. The syringe is held by the holding member in an upright state with the needle side up by being sandwiched by the gap between the first support portion and the second support portion. In this way, the radioactive sample holder that holds the syringe is loaded into the radioactivity measurement device, and the radioactivity is measured.

  The radioactive sample holder of the present invention can hold a syringe into which a radioactive sample has been injected in a stable state, and can make a common radioactive sample holder correspond to different size syringes.

  FIG. 1 is a configuration diagram of a radioactive sample injection measurement system 20 to which a radioactive sample holder of the present invention is applied.

  The radioactive sample injection measurement system 20 is installed on a work table 22, and is provided at a substantially central portion of the work table 22 with a radioactive sample injection device 26 that injects a predetermined amount of radioactive sample into the syringe 24. A radioactivity detector 28 that constitutes a radioactivity measuring device that measures the radioactivity of the radioactive sample injected into the cell, and a measurement display unit 30 that controls the radioactivity detector 28 and measures and displays the detected radioactivity. Prepare. The radioactive sample injection device 26 is controlled by the controller 31.

  Here, as shown in FIG. 2, the syringe 24 includes a cylinder 34 having a flange portion 32, a needle 36 attached to one end of the cylinder 34, and a piston 38 inserted from the other end of the cylinder 34. It is comprised and accommodated in the radiation shielding case 40 formed with lead etc. The radiation shielding case 40 is equipped with a lead glass plate 42 that allows the amount of radioactive sample injected into the syringe 24 to be visually recognized from the outside.

  At the front of the column 44 of the radioactive sample injection device 26, there are a holder 46 for holding the syringe 24 housed in the radiation shielding case 40, and a piston engaging portion 50 with which the flange portion 48 of the piston 38 of the syringe 24 is engaged. Is disposed. The holder 46 and the piston engaging part 50 are movable up and down. A sample container 52 containing a radioactive sample is loaded on the upper portion of the holder 46.

  The lower end of the column 44 accommodates a lead shielding plate 54 that is movable between the upper part of the radioactivity detection unit 28 and the radioactive sample injection device 26. In addition, a lead glass plate 58 that shields radiation from the radioactive sample injection device 26 is disposed at the front portion of the radioactive sample injection device 26 by holding both sides by L-shaped metal plates 56a and 56b containing lead. Is done. The lead glass plate 58 can be moved close to and away from the radioactive sample injection device 26.

  A radioactivity detector 28 is disposed between the lead glass plate 58 and the radioactive sample injection device 26 in a state of being separated from the radioactive sample injection device 26. The radioactivity detection unit 28 includes a cylindrical body 60 that is provided with a radioactivity sensor (not shown) and is accommodated in the work table 22. The cylindrical body 60 holds a syringe 24 into which a radioactive sample is injected, as shown in FIG. A radioactive sample holder 62 is inserted.

  The radioactive sample holder 62 is supported by a stand 64 placed on the work table 22. The stand 64 has a semi-cylindrical body 68 erected on a disc-like support base 66. Cutouts 70 a and 70 b are formed in the substantially central portion of the semi-cylindrical body 68.

  The radioactive sample holder 62 has a knob 71 on its upper surface, is attached to a radiation shielding plate 72 made of a radiation shielding material such as tungsten, and a lower surface portion of the radiation shielding plate 72, and has a cylindrical body whose diameter is the radioactivity detection unit 28. A circular guide plate 73 set substantially equal to the inner diameter of 60, a shaft 74 extending vertically downward from the radiation shielding plate 72, and a lower end portion of the shaft 74. A substantially circular holding member 76 that is set slightly smaller than the inner diameter of the cylindrical body 60 and holds the syringe 24 inserted into the radiation shielding case 40 in an upright state.

  The holding member 76 is disposed above the first support portion 78 via a first support portion 78 that supports the flange portion 32 in the cylinder 34 of the syringe 24 from below and a gap 80 corresponding to the thickness of the flange portion 32. The second support portion 82 supports the flange portion 32 from above, and the groove portion 84 is formed between the first support portion 78 and the second support portion 82. The first support portion 78 forms a stepped portion 86 by projecting a predetermined amount from the second support portion 82.

  The radioactive sample injection measurement system 20 of the present embodiment is basically configured as described above. Next, the injection and measurement procedure of the radioactive sample using the radioactive sample injection measurement system 20 will be described.

  First, after attaching the radiation shielding case 40 to the cylinder 34 of the syringe 24, the holder 46 of the radioactive sample injection device 26 holds the portion of the radiation shielding case 40, and the flange portion 48 of the piston 38 is moved to the piston engaging portion. 50 is engaged. Next, after the lead glass plate 58 is moved to the radioactive sample injection device 26 side and a radiation shielding state is ensured, the operation of injecting the radioactive sample into the syringe 24 is started by operating the controller 31.

  In this case, when the holder 46 holding the syringe 24 and the piston engaging portion 50 are raised, the needle 36 is inserted into the sample container 52 disposed at the top. Next, a predetermined amount of radioactive sample is injected into the cylinder 34 by lowering the piston engaging portion 50 by a predetermined amount according to the injection amount of the radioactive sample instructed by the controller 31.

  After the radioactive sample is injected into the syringe 24, the lead glass plate 58 is separated from the radioactive sample injection device 26, and the syringe 24 with the radiation shielding case 40 attached is removed from the holder 46. Next, the syringe 24 is attached to the radioactive sample holder 62 disposed on the stand 64 on the work table 22.

  In this case, as shown in FIGS. 4 and 5, the radioactive sample holder 62 is held in a state in which the radiation shielding plate 72 is placed on the upper end portion of the semi-cylindrical body 68 constituting the stand 64. Therefore, the operator inserts the syringe 24 removed from the radioactive sample injection device 26 from the opened portion of the semi-cylindrical body 68 with the needle 36 kept upward, and sets the syringe 24 in the radioactive sample holder 62.

  That is, the flange part 32 of the cylinder 34 is placed on the step part 86 of the first support part 78 constituting the holding member 76, and the flange part 32 is placed in the gap 80 between the first support part 78 and the second support part 82. And the piston 38 is inserted into the groove portion 84 formed in the first support portion 78 and the second support portion 82. In this case, since the syringe 24 is set to the radioactive sample holder 62 so that the needle 36 is on the upper side, there is no problem that the radioactive sample in the cylinder 34 leaks. The stand 64 has notches 70a and 70b. When the syringe 24 is attached to the holding member 76 of the radioactive sample holder 62, the semi-cylindrical body 68 of the stand 64 does not interfere with the work. The syringe 24 can be easily set with respect to the stand 64.

  Further, the syringe 24 attached to the radioactive sample holder 62 has the flange portion 32 of the cylinder 34 held from above and below by the first support portion 78 and the second support portion 82, and radiation made of heavy metal attached to the syringe 24. Since the weight of the shielding case 40 is added to the collar portion 32, it is firmly held by the radioactive sample holder 62 with the needle 36 facing up. Further, since the radioactive sample holder 62 is held by the stand 64, the operator can easily hold the syringe 24 on the radioactive sample holder 62 without pressing the radioactive sample holder 62.

  The radioactive sample holder 62 is configured to hold the syringe 24 by inserting the flange portion 32 of the cylinder 34 into the gap 80 between the first support portion 78 and the second support portion 82. Even in the case of other syringes 24 having different sizes, the radioactive sample holder 62 is commonly used as a holding member for a plurality of syringes 24 having different sizes as long as the portion of the piston 38 can be inserted into the groove portion 84. be able to.

  After holding the syringe 24 on the radioactive sample holder 62, the knob 71 is picked to remove the radioactive sample holder 62 from the stand 64 together with the syringe 24, and inserted into the cylindrical body 60 of the radioactivity detection unit 28 from the holding member 76 side. When the radioactive sample holder 62 is inserted into the cylindrical body 60, the guide plate 73 engages with the opening of the cylindrical body 60, and the radiation shielding plate 72 is disposed at the upper end of the cylindrical body 60. It becomes a state that can prevent the invasion of radiation.

  Next, the lead shielding plate 54 disposed at the lower end of the column 44 of the radioactive sample injection device 26 is slid and disposed above the radioactivity detection unit 28, so that radiation from the outside, for example, a radioactive sample injection device is provided. After the radiation intrusion from the radioactive sample remaining in the 26 sample containers 52 can be reliably prevented, the radioactivity amount of the radioactive sample injected into the syringe 24 is measured based on the control of the measurement display unit 30.

  In measuring the amount of radioactivity, the radiation shield case 40 is attached to the syringe 24, and the amount of radioactivity measured is reduced by the amount shielded by the radiation shield case 40. The amount of radioactivity can be estimated with high accuracy by using a correction table prepared in advance based on values obtained when the radioactive sample in the syringe 24 is directly measured without the case 40.

  In the above description, the syringe 24 to which the radiation shielding case 40 is attached is held by the radioactive sample holder 62. However, only the syringe 24 may be directly held by the radioactive sample holder 62.

  In addition, this invention is not limited to embodiment mentioned above, Of course, it can change freely in the range which does not deviate from the main point of this invention.

It is a block diagram of the radioactive sample injection | pouring measurement system to which the radioactive sample holder of this invention is applied. It is a block diagram of a syringe and a radiation shielding case into which a radioactive sample is injected. It is a block diagram of the radioactive sample holder which hold | maintains a syringe, and the stand which hold | maintains a radioactive sample holder. It is a front view of the syringe hold | maintained at the radioactive sample holder through the stand. It is a side view of the syringe hold | maintained at the radioactive sample holder through the stand. It is explanatory drawing which inserts the radioactive sample holder holding the syringe into a radioactivity detection part. It is an isometric view explanatory drawing of the holder which concerns on a prior art.

Explanation of symbols

DESCRIPTION OF SYMBOLS 20 ... Radioactive sample injection | pouring measurement system 24 ... Syringe 26 ... Radioactive sample injection apparatus 28 ... Radioactivity detection part 32 ... Hip part 34 ... Cylinder 36 ... Needle 38 ... Piston 40 ... Radiation shielding case 62 ... Radioactive sample holder 64 ... Stand 72 ... Radiation shielding plate 74 ... shaft 76 ... holding member 78 ... first support part 80 ... gap 82 ... second support part 84 ... groove part 86 ... step part

Claims (3)

In a radioactive sample holder loaded in a radioactivity measuring device that holds a syringe into which a radioactive sample has been injected and measures the amount of radioactivity of the radioactive sample,
A radiation shielding plate,
A shaft extending vertically downward from the radiation shielding plate;
A holding member disposed at the lower end of the shaft and holding the syringe in an upright state with the needle side up;
The holding member is disposed on the upper part of the first support part with a first support part supporting the flange part of the cylinder constituting the syringe from below, and the upper part is A radioactive sample holder comprising: a second support part that is supported from a direction; and a groove part that is formed in the first support part and the second support part and into which a piston constituting the syringe is inserted from a horizontal direction. . The holder according to claim 1,
The radioactive sample holder according to claim 1, wherein the first support part is formed to protrude a predetermined amount in the horizontal direction from the second support part disposed on the upper part. The holder according to claim 1,
The radioactive sample holder, wherein the syringe is held by the holding member in a state where the cylinder is housed in a radiation shielding case.

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