JP6970047B2 - Gasket pressing tool for syringe and drug solution administration tool equipped with it - Google Patents

Description

The present invention relates to a gasket presser for a syringe and a drug solution administration tool provided with the gasket presser.

Conventionally, a so-called screwed syringe has been proposed, which is configured to advance a plunger by a screwing action of a screw in order to discharge a relatively high-viscosity chemical solution from a syringe barrel. As a syringe of this type, for example, there is Japanese Patent Publication No. 2005-535415 (Patent Document 1). The screwed syringe of Patent Document 1 is provided with a mechanism for generating a click sound when the plunger is rotated in order to provide the doctor with the degree of rotation of the plunger tactilely or audibly. In this mechanism, a click sound is generated by the impact when the click piece engages with the groove provided in the plunger.

Special Table 2005-535415

In the mechanism of Patent Document 1, the loudness of the click sound generated differs depending on the rotation speed of the plunger, and when the plunger is slowly rotated, almost no click sound is generated.
Recently, endoscopic mucosal resection using local injection of a highly viscous substance has been performed. As the highly viscous substance, hyaluronic acid, which is a drug, is generally used. As the endoscopic mucosal resection, for example, a partial resection of the inner wall of the gastrointestinal tract using an endoscope is performed. In endoscopic mucosal resection, endoscopic manipulation and highly viscous material injection are performed by different operators. Therefore, it is difficult for the endoscope operator to grasp the injection amount of the highly viscous substance. If the drug administering device generates a click sound as described above, the injection amount can be grasped by the click sound. However, in this case, the click sound is preferably generated only at the time of injection, and is required not to be generated at the time of reverse rotation or idling, for example.
An object of the present invention is to press a gasket for a syringe, which can emit a sound of a certain loudness at each predetermined amount of rotation of the plunger during a drug discharge operation, and also produces a sound only when the gasket is pressed and advanced. A tool and a drug solution administration tool equipped with the tool are provided.

Those that achieve the above objectives are as follows.
(1) A gasket presser for a syringe that is used by being attached to a syringe having a barrel and a gasket that is slidable in the barrel.
The gasket pressing tool includes a gasket pressing assembly including a gasket pressing member and a sound generating member, a syringe mounting member having a syringe mounting portion and movably accommodating the gasket pressing assembly, and the syringe mounting. It is equipped with a plunger that allows the tip side to enter the member and press the gasket pressing assembly by rotation.
The sound generating member includes a claw portion that is elastically deformable, the gasket pressing member includes a wall portion that abuts on the claw portion, and the claw portion has a toe portion that protrudes rearward from the wall portion. Prepare,
The plunger is provided with a claw-plucking rib provided on the side surface of the tip portion.
The claw flip rib is located behind the toe portion so that the plunger does not pressably contact the gasket pressing assembly, and the plunger can press the gasket pressing assembly. In the state of being A gasket presser for a syringe that makes a sound by abutting on the wall portion of the claw portion that has been restored after passing through while deforming the claw portion.

(2) The gasket pressing member includes a main body portion that can enter the gasket, a flange provided at the rear end portion, a sound generating member accommodating portion, a wall portion extending in the axial direction, and the sound generating member. The gasket pressing tool for a syringe according to (1) above, which comprises an engaging portion with and a flanger contact portion.
(3) The sound generating member includes a cylindrical main body portion and the claw portion projecting from the inner surface of the tubular main body portion toward the tip end, and the claw portion is fixed to the inner surface of the tubular main body portion. A gasket presser for a syringe according to the above (1) or (2), which comprises a base portion, a curved portion protruding forward from the base portion, and the toe portion facing the rear end direction.
(4) The gasket pressing tool for a syringe according to any one of (1) to (3) above, wherein the toe portion is tapered toward the tip.
(5) The gasket pressing tool for a syringe according to any one of (1) to (4) above, wherein the two claw portions are provided, and the two toe portions are substantially opposite to each other.
(6) The plunger has a shaft portion, a tip base portion having the claw-plucking rib provided at the tip portion of the shaft portion, a columnar protrusion protruding from the tip base portion, and a rear end portion of the shaft portion. The gasket pressing tool for a syringe according to any one of (1) to (5) above, which comprises a handle portion provided in the above.
(7) The gasket pressing tool for a syringe according to any one of (1) to (6) above, wherein the claw flip rib is provided in a plurality.
(8) The claw-plucking ribs are provided in an odd number of three or more, and the claw-plucking ribs are arranged at an equal angle to the central axis of the plunger (1) to (6). ) Syringe gasket presser.
(9) The gasket for a syringe according to any one of (1) to (8) above, wherein the claw flipping rib has a substantially upright surface that comes into contact with the toe portion when the plunger is rotated in the screwing traveling direction. Presser.
(10) The gasket pressing tool for a syringe according to any one of (1) to (9) above, wherein the syringe mounting portion includes a flange accommodating portion capable of accommodating a base end portion having a flange of the syringe.
(11) The syringe mounting member includes a lumen located on the rear end side of the flange accommodating portion, a syringe mounting member side screwing portion is provided on the inner surface of the lumen, and the plunger is a shaft portion of the shaft portion. The gasket pressing tool for a syringe according to (10) above, wherein the outer surface is provided with a screw portion on the side of the syringe mounting member and a screw portion on the shaft side that can be screwed.
(12) The screw portion on the syringe mounting member side is a short spiral protrusion, and the screw portion on the shaft side is a spiral groove into which the spiral protrusion can be screwed into, as described in (11) above. Gasket presser for syringes.

In addition, those that achieve the above objectives are as follows.
(13) The gasket pressing tool for a syringe according to any one of (1) to (12) above, a barrel, a chemical solution filled in the barrel, and the gasket slidably stored in the barrel. A drug solution administration tool comprising a prefilled syringe having a

The gasket pressing tool for a syringe of the present invention is used by being attached to a syringe having a barrel and a gasket slidable in the barrel. The gasket pressing tool for a syringe has a gasket pressing assembly composed of a gasket pressing member and a sound generating member mounted on the gasket pressing member, and a syringe having a syringe mounting portion and movably storing the gasket pressing assembly. It includes a mounting member and a plunger that allows the tip side to enter the syringe mounting member and press the gasket pressing assembly by rotation. The sound generating member has a claw portion that is elastically deformable, the gasket pressing member has a wall portion that abuts on the claw portion, the claw portion has a toe portion that protrudes from the wall portion, and the plunger has a tip portion. It is equipped with a claw-plucking rib provided on the side surface. The claw-plucking rib is located behind the tip of the toe when the plunger does not pressfully contact the gasket pressing assembly, and the claw-plucking rib is in a state where the plunger pressively contacts the gasket-pressing assembly. Is located on the side of the toe, and the rotation of the plunger causes the plunger to move forward and advance the gasket pressing assembly, while the claw-plucking rib abuts on the toe and deforms and passes through the toe. , The sound is generated by the contact of the claw portion restored after passing with the wall portion.

In this gasket pressing tool for syringes, when the plunger is rotated in the forward direction of the plunger in a state where the gasket pressing assembly is in a pressable state, the claw-plucking rib provided at the tip portion of the sound generating member is formed. The tip of the toe is flipped, and the flipped tip of the toe returns due to the restoring force after elastic deformation and collides with the wall of the gasket pressing member. Then, a collision sound is generated at the time of a collision. The collision sound is generated with a constant magnitude regardless of the rotation speed of the plunger, and is surely generated even when the plunger is slowly rotated. Further, since the claw-plucking rib is located behind the toe portion in a state where the plunger does not abut against the gasket pressing assembly so that it can be pressed, even if the plunger is rotated in that state, the claw-plucking rib remains at the toe portion. No sound is generated because it does not come into contact with.

Further, the drug solution administration tool of the present invention includes the above-mentioned gasket pressing tool for a syringe, a barrel, a prefilled syringe having a drug solution filled in the barrel, and a gasket slidably stored in the barrel. , The prefilled syringe is attached to the syringe mounting portion of the gasket pressing tool for the syringe.
According to this drug solution administration tool, the rotation amount of the plunger and the dose amount of the drug solution can be easily grasped by the generated sound.

FIG. 1 is a front view of a drug solution administration tool according to an embodiment of the present invention. FIG. 2 is a cross-sectional view taken along the line AA of FIG. FIG. 3 is a front view of a gasket presser for a syringe according to an embodiment of the present invention to which a syringe is attached. FIG. 4 is a left side view of the gasket presser for a syringe shown in FIG. FIG. 5 is an enlarged bottom view of the gasket pressing tool for a syringe shown in FIG. FIG. 6 is an enlarged cross-sectional view taken along the line BB of FIG. FIG. 7 is a cross-sectional view taken along the line CC of FIG. FIG. 8 is a cross-sectional view taken along the line DD of FIG. FIG. 9 is a perspective view of the gasket pressing tool for a syringe shown in FIG. FIG. 10 is an explanatory diagram for explaining a component used in the gasket pressing tool for a syringe shown in FIG. FIG. 11 is a front view of the gasket pressing assembly used in the gasket pressing tool for syringe shown in FIG. FIG. 12 is a bottom view of the gasket pressing assembly shown in FIG. FIG. 13 is a cross-sectional view taken along the line EE of FIG. FIG. 14 is a front view of the gasket pressing member used in the gasket pressing assembly shown in FIG. FIG. 15 is a cross-sectional view taken along the line FF of FIG. FIG. 16 is a bottom view of the gasket pressing member shown in FIG. FIG. 17 is a perspective view of the gasket pressing member shown in FIG. 14 as viewed from diagonally below. FIG. 18 is a front view of the sound generating member used in the gasket pressing assembly shown in FIG. FIG. 19 is a bottom view of the sound generating member shown in FIG. FIG. 20 is a sectional view taken along line GG of FIG. FIG. 21 is a sideways view of the left side view of the syringe mounting member used in the gasket presser for syringe shown in FIG. FIG. 22 is a bottom view of the syringe mounting member in the state shown in FIG. 21. FIG. 23 is a cross-sectional view taken along the line HH of FIG. 22. FIG. 24 is a perspective view of the gasket pressing member in the state shown in FIG. 21 as viewed from diagonally above. FIG. 25 is a perspective view of the gasket pressing member in the state shown in FIG. 22 as viewed from diagonally below. FIG. 26 is an enlarged front view of the plunger used in the gasket presser for the syringe shown in FIG. FIG. 27 is a left side view of the plunger shown in FIG. 26. FIG. 28 is an enlarged perspective view of the tip end portion of the plunger shown in FIG. 26. FIG. 29 is an explanatory sectional view for explaining the sound generation mechanism of the present invention. FIG. 30 is an explanatory sectional view for explaining the sound generation mechanism of the present invention. FIG. 31 is an explanatory sectional perspective view for explaining the sound generation mechanism of the present invention. FIG. 32 is an explanatory sectional view for explaining the sound generation mechanism of the present invention. FIG. 33 is an explanatory sectional view for explaining the sound generation mechanism of the present invention. FIG. 34 is an explanatory sectional perspective view for explaining the sound generation mechanism of the present invention. FIG. 35 is a front view of a syringe gasket presser according to another embodiment of the present invention to which a syringe is attached. FIG. 36 is a vertical sectional view of the gasket presser for a syringe shown in FIG. 35. FIG. 37 is a perspective view of the gasket pressing tool for a syringe shown in FIG. 35. FIG. 38 is a sideways view of the left side view of the syringe mounting member used in the gasket presser for syringe shown in FIG. 35. FIG. 39 is a bottom view of the syringe mounting member in the state shown in FIG. 38. FIG. 40 is a cross-sectional view taken along the line JJ of FIG. 38. FIG. 41 is a cross-sectional view taken along the line KK of FIG. 39. FIG. 42 is a left side view of the syringe mounting member in the state shown in FIG. 38. FIG. 43 is an enlarged vertical sectional view of a gasket pressing assembly used in the gasket pressing tool for a syringe shown in FIG. 35. FIG. 44 is an explanatory diagram for explaining the components of the gasket pressing assembly used in the gasket pressing tool for the syringe shown in FIG. 35. FIG. 45 is an enlarged bottom view of a gasket pressing member used in the gasket pressing tool for a syringe shown in FIG. 35. FIG. 46 is an enlarged plan view of a joint member used in the gasket presser for a syringe shown in FIG. 35. FIG. 47 is an enlarged front view of the plunger used in the gasket pressing tool for a syringe shown in FIG. 35. FIG. 48 is an enlarged view of the tip end portion of the plunger shown in FIG. 47. FIG. 49 is a vertical sectional view of the drug solution administration tool of another embodiment of the present invention. FIG. 50 is an explanatory diagram for explaining a treatment method using the drug solution administration tool of the present invention. FIG. 51 is an explanatory diagram for explaining a treatment method using the drug solution administration tool of the present invention. FIG. 52 is an explanatory diagram for explaining a treatment method using the drug solution administration tool of the present invention. FIG. 53 is an explanatory diagram for explaining a treatment method using the drug solution administration tool of the present invention. FIG. 54 is an explanatory diagram for explaining a treatment method using the drug solution administration tool of the present invention.

The gasket pressing tool for a syringe and the drug solution administration tool of the present invention will be described with reference to the examples shown in the drawings.
The drug solution administration tool 1 of the present invention is a prefilled syringe having a gasket pressing tool 3 for a syringe, a barrel 20, a drug solution 11 filled in the barrel 20, and a gasket 7 slidably housed in the barrel 20. The prefilled syringe 2 is mounted on the syringe mounting portion 43 of the gasket pressing tool 3 for a syringe.

The gasket pressing tool 3 for a syringe of the present invention is used by being attached to a barrel 20 and a syringe having a gasket 7 slidably housed in the barrel 20.
The gasket pressing tool 3 for a syringe has a gasket pressing assembly 6 including a gasket pressing member 8 and a sound generating member 9, and a syringe mounting assembly 6 having a syringe mounting portion 43 and movably storing the gasket pressing assembly 6. The member 4 is provided with a plunger 5 in which the tip side enters the syringe mounting member 4 and the gasket pressing assembly 6 can be pressed (pressing progress is possible) by rotation (progress due to rotation).

The sound generating member 9 includes claws 92 and 93 that are elastically deformable (specifically, elastically deformable in the circumferential direction with respect to the axis of the gasket pressing member 8). The gasket pressing member 8 includes wall portions 88 and 89 that abut (specifically, abut and press) the claw portions 92 and 93. The claw portions 92 and 93 include toe portions 92a and 93a protruding rearward from the wall portions 88 and 89. The plunger 5 includes a claw-plucking rib 54 provided on the side surface of the tip portion. The claw flip rib 54 is located behind the toe portions 92a and 93a in a state where the plunger 5 (specifically, the tip portion) does not abut against the gasket pressing assembly 6 so as to be able to press (non-pressing state). In a state where the plunger 5 (specifically, the tip portion) abuts the gasket pressing assembly 6 in a pressable state (pressable state), the claw flip rib 54 is located on the side of the toe portions 92a and 93a. do. Due to the rotation of the plunger 5, the plunger 5 advances and the gasket pressing assembly 6 advances, and the claw flipping rib 54 abuts on the toe portions 92a and 93a, deforms the claw portions 92 and 93, and passes through. The claw portions 92 and 93 restored later come into contact with the wall portions 88 and 89 to generate sound.

The drug solution administration tool 1 shown in FIGS. 1 and 2 includes a prefilled syringe 2 and a gasket pressing tool 3 to which the prefilled syringe 2 is attached.
As shown in FIG. 2, the prefilled syringe 2 seals the barrel 20, the chemical solution 11 filled in the barrel 20, the gasket 7 slidably stored in the barrel 20, and the tip of the barrel 20. It is equipped with a seal cap 21 and is not equipped with a so-called plunger. The barrel 20 is provided with a nozzle 22 for discharging a chemical solution at the tip thereof, a collar portion 24 provided to cover the nozzle 22, and a flange 23 protruding outward at the rear end portion.

In the chemical administration tool 1 shown in FIGS. 1 and 2, the gasket pressing assembly 6 is located behind the gasket 7 and is not attached to the gasket 7. By rotating and advancing the plunger 5 during use, the gasket pressing assembly 6 is attached to the gasket 7, as shown in FIGS. 3, 4 to 6. The gasket pressing assembly 6 can also be said to be a gasket mounting member. In addition, in FIG. 3 and later, it is assumed that the syringe 2 omits the chemical solution and the seal cap.

As shown in FIGS. 1 to 9, the drug solution administration tool 1 has a gasket presser 3. As described above, in those shown in FIGS. 3, 4 to 6, the gasket pressing assembly 6 is attached to the gasket 7.
The gasket pressing tool 3 includes a gasket pressing assembly 6, a plunger 5 for pressing the gasket from behind, and a syringe mounting member 4 for mounting the gasket pressing assembly 6 and the plunger 5 on the syringe 2.

As shown in FIGS. 10 to 13, the gasket pressing assembly 6 includes a gasket pressing member 8 and a sound generating member 9 mounted on the gasket pressing member 8. As shown in FIGS. 14 to 17, the gasket pressing member 8 enters the gasket 7 and comes into contact with the inner surface of the gasket, the gasket inner entry portion 80, and the flange portion 81 formed at the rear portion of the gasket inner entry portion 80. And a cylindrical portion 82 extending rearward from the flange portion 81.

The gasket inner entry portion 80 includes a tip closing portion and a tapered diameter-reduced portion extending from the flange portion 81 to the rear end of the tip closing portion. Further, the gasket pressing member 8 includes two deformable portions 83 facing each other provided in the cylindrical portion 82, and an engaging window portion 84 provided in each deformable portion. An engaging portion with the sound generating member 9 is formed by the deformable portion 83 and the engaging window portion 84.

Further, as shown in FIGS. 10 to 17, the gasket pressing member 8 has a sound generating member accommodating portion, wall portions 88 and 89 extending in the axial direction, a plunger contact portion 62, and a columnar recess 85. It is equipped with. As shown in FIG. 16, the gasket pressing member 8 has a cylindrical portion having a columnar recess 85 in the center, and has four partition portions extending laterally from the cylindrical portion. In the gasket pressing member 8, four partition portions form four axially extending spaces. The wall portions 88 and 89 are formed by two partition portions facing each other slightly offset from the central axis of the cylindrical portion formed inside the gasket pressing member. Further, the plunger contact portion 62 is formed by the rear end surface of the cylindrical portion having the columnar recess 85. The columnar recess 85 is a columnar recess extending in the predetermined length direction.

As shown in FIGS. 10 to 13 and 18 to 20, the sound generating member 9 includes a cylindrical main body portion 91 and elastically deformable claw portions 92 and 93 protruding from the inner surface of the tubular main body portion toward the tip end. And an expanded tubular portion 90 extending downward from the tubular main body portion 91. In this embodiment, two claw portions 92 and 93 are provided, and the toe portions 92a and 93a are substantially opposite to each other.

The claw portions 92 and 93 extend from the base portions 92c and 93c connected to the inner surface of the tip portion of the tubular main body portion 91, the curved portions 92b and 93b protruding forward from the base portion 93c, and the curved portions 92b and 93b, and rearward. The toe portions 92a and 93a, which are free ends facing the end direction, are provided. The curved portions 92b and 93b are continuous with the base portions 93c and 93c on one end side and continuous with the toe portions 92a and 93a on the other end side. The tip portions of the claw portions 92 and 93 are composed of curved portions 92b and 93b. The toe portions 92a and 93a and the base portions 93c and 93c are almost opposite to each other.

Further, in this embodiment, the toe portions 92a and 93a are located in the tubular main body portion 91. The claw portions 92 and 93 are such that the toe portions 92a and 93a can be elastically deformed, specifically, curved in a direction close to the base portions 93c and 93c. Further, the ends of the toe portions 92a and 93a are located on the rear end side of the base portions 93c and 93c.

Further, the diameter-expanding cylindrical portion 90 is provided with two deformable portions 63 facing each other and an engaging rib 94 provided in each deformable portion 63. The sound generating member 9 is attached to the gasket pressing member 8 by engaging the engaging rib 94 of the sound generating member 9 with the engaging window portion 84 of the gasket pressing member 8. Further, the enlarged diameter cylindrical portion 90 is provided with a side surface rib 95, and the side surface rib 95 enters into two facing recesses 61 provided on the inner surface of the cylindrical portion 82 of the gasket pressing member 8. Therefore, the rotation of the sound generating member 9 in the gasket pressing member 8 is restricted.

Then, as shown in FIG. 13, in the gasket pressing assembly 6, the tip end portion of the toe portion 93a of the sound generating member 9 is positioned rearward (in other words, protruding) from the lower end of the wall portion 89 of the gasket pressing member 8. )doing. Similarly, the tip of the toe portion 92a of the sound generating member 9 is also positioned rearward (in other words, protruding) from the lower end of the wall portion 88 of the gasket pressing member 8.

Further, as shown in FIG. 12, the toe-side side portions of the claw portions 92 and 93 of the sound generating member 9 abut on the wall portions 88 and 89 of the gasket pressing member 8 and are pressed by the wall portions 88 and 89. As a result, it is slightly curved (elastically deformed) in the directions of the bases 92c and 93c. Further, the claw portions 92 and 93 are housed in the space portions 86 and 87 separated by the partition portion in the gasket pressing member 8.

Further, in this embodiment, as shown in FIGS. 20, 30, and 31, the toe portions 92a and 93a are tapered. Further, the contact surfaces of the wall portions 88 and 89 and the claw portions 92 and 93 are flat surfaces in order to generate good sound. Specifically, the surface of the toe portions 92a and 93a facing the wall portions 88 and 89 (the surface that comes into contact with the claw flip rib 54 when the plunger 5 described later is rotated in the screwing traveling direction) is a flat surface. .. Further, the flat surface of the toe portions 92a and 93a in contact with the claw flipping rib 54 is substantially parallel to the central axis of the sound generating member 9.

Further, the surface of the toe portions 92a, 93a on the base 92c, 93c side (the surface on which the claw flip rib 54 may come into contact when the plunger 6 to be described later is rotated in the screw-retracting direction) is the base toward the tip. The slope is farther from 92c and 93c. Further, as shown in FIG. 20, the claw portions 92 and 93 extend upward from the base portions 92c and 93c, are curved in a U shape at the curved portions 92b and 93b, and the toe portions 93a and 93a are in the rear end direction. It is a free end facing. Further, the predetermined long curved portion side is formed to be slightly thicker than the other portions than the toe portions 92a and 93a. The claw portions 92 and 93 have a rectangular cross section as a whole.

The syringe mounting member 4 includes a syringe mounting portion 43 as shown in FIGS. 1 to 9 and 21 to 25, and in particular, as shown in FIGS. 2 and 7, the gasket pressing assembly 6 can be moved. It is stored in.

Specifically, the syringe mounting member 4 includes a syringe mounting portion 43 in the main body portion 40. The syringe mounting portion 43 houses the flange 23 of the barrel 20 of the syringe 2. In this embodiment, as shown in FIG. 24, the syringe mounting portion 43 is formed by a slit into which the flange 23 of the syringe 2 can be inserted from one major axis side (in other words, vertically inserted). Therefore, when the syringe 2 is mounted on the syringe mounting member 4, one major axis portion and two facing minor axis portions of the flange 23 of the syringe 2 are housed in the syringe mounting member 4, and the other end side thereof. The major axis is exposed. Further, one end of the long diameter portion of the flange housed in the syringe mounting member 4 is exposed from the slit opening 44. In this embodiment, the syringe mounting portion 43 is formed by a vertically long U-shaped slit.

Further, in this embodiment, as shown in FIGS. 21 to 25, the syringe mounting member 4 includes a substantially half-cylinder portion 41 extending toward the tip end side from the main body portion 40 having the syringe mounting portion (flange storage portion) 43. It holds the base end of the mounted syringe 2. Further, the syringe mounting member 4 includes a cylindrical portion 42 extending toward the rear end side from the main body portion 40. Inside the tubular portion 42, a storage portion 47 of the gasket pressing assembly is provided. Further, the syringe mounting member 4 includes a lumen 45 extending rearward from the storage portion 47, and a syringe mounting member side screw portion 46 is provided on the inner surface of the lumen 45. In this embodiment, the syringe mounting member side screw portion 46 is a protrusion, specifically, a short spiral protrusion.

As shown in FIGS. 2 to 8, FIG. 10, and FIGS. 26 to 28, the plunger 5 has a tip end side that enters the syringe mounting member 4 and can press the gasket pressing assembly 6.
Specifically, the plunger 5 includes a shaft portion 51 and a handle 52 provided at the rear end portion of the shaft portion 51. Further, the plunger is provided with a plurality of claw-plucking ribs 54 provided on the side surface of the tip portion.
The shaft portion 51 includes a shaft-side screwing portion 55 that can be screwed with the syringe-mounting member-side screwing portion 46 of the syringe-mounting member 4 provided on the outer surface. In this embodiment, the shaft-side screw portion 55 is a spiral groove in which the protrusion forming the syringe-mounted member-side screw portion 46 enters so that the screw can proceed. When the plunger 5 is rotated in one direction (forward rotation), its tip is advanced in the syringe mounting member, and when it is rotated in the other (reverse rotation), its tip is in the syringe mounting member. ,fall back.

Specifically, as shown in FIGS. 27 and 28, the tip of the shaft portion 51 has an annular contact formed by a tip base 57 having a claw flip rib 54 on the outer surface and a tip surface of the tip base. It is provided with a contact portion 56 and a columnar protrusion 53 having a diameter smaller than the outer diameter of the contact portion while protruding from the tip base portion 57. The columnar protrusion 53 is rotatable into the columnar recess 85 (specifically, the columnar recess) formed in the central portion of the gasket pressing member 8 and is rotatable after the entry.

As shown in FIGS. 6, 28, and 29, the claw-plucking ribs 54 are provided in an odd number of three or more, and the claw-plucking ribs 54 are provided at an equal angle (in other words, with respect to the central axis of the plunger 5). For example, it is preferable that the plungers 5 are arranged so as to be evenly spaced in the circumferential direction. In this embodiment, five claw-plucking ribs 54 are provided and arranged at an equal angle to the central axis of the plunger 5 (equally spaced in the circumferential direction of the axis of the plunger 5).

Further, in this embodiment, the surface of the toe rib 54 that comes into contact with the toe portions 92a and 93a when the plunger 5 is rotated in the screwing traveling direction is formed substantially parallel to the central axis of the plunger 5. The surface is substantially upright from the outer peripheral surface of the tip base portion 57. Further, the surface of the claw flip rib 54 opposite to the upright surface is an inclined surface. Therefore, the claw flip rib 54 becomes thicker toward the lower side (direction of the tip base 57).

The handle 52 is formed at the rear end portion of the shaft portion 51, and is formed by two protrusions extending in the radial direction from the shaft portion 51. The plunger 5 of this embodiment includes an end portion extending rearward from the handle portion 52.

As shown in FIG. 8 and FIG. 30, which is an enlarged view thereof, the toe-plucking rib is in a state where the annular contact portion 56 of the plunger 5 is in a pressable contact with the plunger contact portion 62 of the gasket pressing assembly 6. 54 is located on the side of the toe portions 92a and 93a. Then, due to the rotation of the plunger 5, the plunger 5 advances to advance the gasket pressing assembly 6, and the claw flipping rib 54 abuts on the toe portions 92a and 93a to deform and pass through the claw portions 92 and 93. The sound is generated by the contact of the claw portions 92, 93 restored after passing with the wall portions 88, 89.

Next, the actions of the syringe gasket pressing tool 3 and the drug solution administration tool 1 of this example will be described.
By rotating and advancing the plunger 5, the annular contact portion 56 of the plunger 5 is in a state in which the gasket pressing assembly 6 is in a pressable contact state, that is, the state shown in FIGS. 30 and 31. In this state, the claw flip rib 54 of the plunger 5 is located on the side of the toe portions 92a and 93a.

Then, by rotating the plunger 5, the plunger 5 advances, and the gasket pressing assembly 6 also advances. As the gasket pressing assembly 6 advances, the gasket 7 also advances. Then, as shown in FIG. 32, the claw flipping rib 54 of the plunger 5 comes into contact with the toe portions 92a and 93a of the sound generating member 9, deforms the claw portions 92 and 93, and eventually passes through. Then, after passing, the claw portions 92 and 93 are restored to their original shapes due to their springiness, and at the time of restoration, they strongly abut on the wall portions 88 and 89, and sound is generated.

In particular, in the illustrated embodiment, the wall portion 88 includes a thin-walled rear end portion 88a, and the restored toe portion 92a abuts on the thin-walled rear end portion 88a. Since the rear end of the thin wall is thin, a relatively high sound is generated. Further, in this embodiment, two claw portions 92, 93 and five claw flipping ribs 54 are provided. Therefore, when the plunger 5 rotates, a collision sound of 10 is generated. In other words, every time the plunger 5 is rotated 36 degrees, one collision sound is generated.

Then, in the syringe gasket presser 3 of this embodiment, as shown in FIGS. 33 and 34, the plunger 5 is in a state where the contact portion 56 does not presslessly contact the gasket pressing assembly 6. The claw flipping rib 54 of 5 is located behind the toe portions 92a and 93a of the sound generating member 9. Therefore, even if the plunger 5 is rotated, the toe rib 54 does not abut on the toe portions 92a and 93a, so that no sound is generated.

Further, in the state shown in FIGS. 30 and 29, the plunger 5 is retracted by rotating the plunger 5 in the reverse direction (rotating in the retracting direction). No sound is generated even during this reverse rotation. The chemical solution administration tool 1 of this embodiment is provided with the gasket pressing assembly 6 attached to the gasket 7, as shown in FIG. 7, in other words, the state is the initial state. It may be the one that has become. The plunger 5 may or may not be in contact with the gasket pressing assembly 6.

Next, the chemical solution administration tool 1a and the gasket gasket presser 3a for a syringe of the examples shown in FIGS. 35 to 37 will be described.
The chemical solution administration tool 1a and the gasket pressing tool 3a of this embodiment and the above-mentioned chemical solution administration tool 1a and the gasket pressing tool 3a have the same configuration regarding sound generation, and the differences are the form of the syringe mounting member and the gasket pressing. The structure of the assembly. The same parts are designated by the same reference numerals and the above description shall be referred to.

The syringe mounting member 4a used in the gasket pressing tool 3a of this embodiment includes a syringe mounting portion 43a as shown in FIGS. 37 to 43. Further, similarly to the above-described embodiment, the gasket pressing assembly 6a is movably housed.

Specifically, the syringe mounting member 4a includes a syringe mounting portion 43a for accommodating the flange 23 of the barrel 20 of the syringe 2. In this embodiment, as shown in FIGS. 37 and 42, the syringe mounting portion 43a can insert the flange 23 of the syringe 2 provided in the main body portion 40a from one short diameter side (in other words, can be inserted horizontally). It is formed by a large slit.

Therefore, when the syringe 2 is mounted on the syringe mounting member 4a, one short diameter portion and two facing major diameter portions of the flange 23 of the syringe 2 are housed in the syringe mounting member 4a, and the other end side thereof. The short diameter part is exposed. Further, the end of one of the short diameter portions of the flange housed in the syringe mounting member 4a is exposed from the slit opening 44a. In this embodiment, the syringe mounting portion 43a is formed by a horizontally long U-shaped slit.

Further, also in this embodiment, as shown in FIGS. 37 to 43, the syringe mounting member 4a includes a substantially half-cylinder portion 41a extending toward the tip end side from the syringe mounting portion (flange storage portion) 43a and is mounted. It holds the base end of the syringe 2. Further, the syringe mounting member 4a includes a tubular portion 42a extending toward the rear end side from the syringe mounting portion (flange storage portion) 43a. Inside the tubular portion 42a, a storage portion 47 of the gasket pressing assembly is provided. Further, the syringe mounting member 4a includes a lumen 45 extending rearward from the storage portion 47, and a syringe mounting member side screw portion 46 is provided on the inner surface of the lumen 45. In this embodiment, the syringe mounting member side screw portion 46 is a protrusion, specifically, a short spiral protrusion.

As shown in FIGS. 35, 43, and 44, the gasket pressing assembly 6a of this embodiment includes a gasket pressing member 8a, a sound generating member 9a, and a joint member 15. As shown in FIGS. 36, 43 to 45, the gasket pressing member 8a is formed in the gasket inner entry portion 80 that enters the gasket 7 and comes into contact with the inner surface of the gasket, and the rear portion of the gasket inner entry portion 80. A flange portion 81, an annular portion 82a extending rearward from the flange portion 81, and an annular rib 66 formed at the rear end portion of the annular portion 82a are provided. The annular rib 66 is provided with a notch 67. The gasket inner entry portion 80 includes a tip closing portion and a tapered diameter-reduced portion extending from the flange portion 81 to the rear end of the tip closing portion.

Further, also in the gasket pressing member 8a of this embodiment, as in the above-described embodiment, as shown in FIG. 45, the sound generating member accommodating portion, the wall portions 88 and 89 extending in the axial direction, and the plunger are inside. It is provided with a contact portion 62, a columnar recess 85, a cylindrical portion having a columnar recess 85 in the center, and four partition portions extending laterally from the cylindrical portion. The internal form of the gasket pressing member 8a is the same as that of the gasket pressing member 8 described above.

As shown in FIGS. 43 and 44, the sound generating member 9a of this embodiment includes a tubular main body 90a, claws 92 and 93 protruding toward the tip from the inner surface of the tubular main body 90a, and a tubular main body. A plurality of projecting portions 98 provided on the lower side surface of the portion 90a are provided. The form of the claw portions 92 and 93 is the same as that of the sound generating member 9 described above.

In the gasket pressing member 8a of this embodiment, as described above, the internal form of the gasket pressing member 8a is the same as that of the gasket pressing member 8 described above, and the form of the sound generating member 9a is also the same as that of the sound generating member 9 described above. The sound generation mechanism in the gasket pressing member 8a of this embodiment is the same as that described above.

The gasket pressing assembly 6a of this embodiment includes a joint member 15 arranged at the rear of the gasket pressing member 8a. The gasket pressing member 8a houses the sound generating member 9a, and the joint member 15 is attached to the rear portion of the gasket pressing member 8a which opens. The joint member 15 includes a short cylindrical portion 18 having a disk-shaped bottom surface 18a and a small-diameter cylindrical portion 17 extending rearward from the cylindrical portion 18. The upper end of the cylindrical portion 18 is provided with a rib 19 projecting inward.

The joint member 15 is attached to the gasket pressing member 8a by rotating the rib 19 after entering the notch 67 of the annular rib 66 formed at the rear end of the gasket pressing member 8a. Has been done. Further, the joint member 15 includes a plurality of inclined protrusions 65 extending from the inner surface of the small-diameter cylindrical portion 17 toward the tip end and toward the center of the joint member. The plurality of inclined protrusions 65 are arranged so as to be at an equal angle (equally spaced in the inner peripheral direction of the small cylindrical portion 17) with respect to the central axis of the joint member 15.

The plunger 5a in this embodiment has an annular rib 58 which is a tip portion and is formed on the rear end side of the claw flip rib 54. The inner diameter of the minimum inner diameter formed by the plurality of inclined protrusions 65 of the joint member 15 is slightly larger than the outer diameter of the annular rib 58 of the plunger 5a. Therefore, the joint member 15 has a function of preventing the plunger 5a from coming off.

Further, the plunger 5a in this embodiment has the same tip configuration as the plunger 5 described above, including the claw flip rib 54, and the annular contact portion 56 of the plunger 5a holds the gasket pressing assembly 6a. The claw flip rib 54 is located on the side of the toe portions 92a and 93a in a state of being in contact with the presser. Then, due to the rotation of the plunger 5a, the plunger 5a advances to advance the gasket pressing assembly 6a, and the claw flipping rib 54 abuts on the toe portions 92a and 93a to deform and pass through the claw portions 92 and 93. At the same time, sound is generated by the contact of the claw portions 92 and 93 restored after passing with the wall portions 88 and 89.

In all of the above-described embodiments, the gasket pressing member may be of the type provided by the chemical solution administration tool 1b and the syringe gasket pressing tool 3b of the embodiment shown in FIG. 49. The gasket pressing member 8b in this embodiment has substantially no portion that enters the gasket 7a. Therefore, the gasket pressing assembly 6b also has substantially no portion that enters the gasket 7a. The gasket pressing member 8b is provided with a pressing portion 81b that is in contact with the rear end surface of the gasket 7a and can be pressed at the tip end portion. The drug solution administration tool 1b and the syringe gasket pressing tool 3b of this embodiment also have the same sound generation mechanism as the above-mentioned drug solution administration tool 1, 1a and the syringe gasket pressing tool 3, 3a.

Next, as an example of the treatment method using the drug solution administration tool 1 of the present invention, endoscopic submucosal dissection (ESD; Endoscopic Submucosal Dissection) or endoscopic mucosal resection (EMR) is performed. The case of doing so will be described. First, endoscopic submucosal dissection will be described. This procedure is usually performed by two people.

The first operator injects a sodium hyaluronate solution, and the second operator excises the affected area to confirm the endoscopic image.
The first operator prepares a drug solution administration tool 1 in which a syringe gasket presser 3 is attached to a prefilled syringe 2 filled with a sodium hyaluronate solution 11. When the prepared chemical solution administration tool 1 is in the state shown in FIGS. 1 and 2, the plunger 5 is rotated to mount the gasket pressing assembly 6 in the gasket 7 as shown in FIG. 7. Then, the seal cap 21 is removed from the prefilled syringe 2.

Next, as shown in FIG. 50, the first operator connects the tip of the syringe 2 to the proximal end of the inner catheter 112 of the puncture device 110, and causes the needle 112a to protrude from the outer catheter 114. In that state, the plunger 5 is rotated to perform priming in which the lumens of the inner catheter 112 and the needle 112a are filled with the sodium hyaluronate solution 11. The inner catheter 112 in the puncture device 110 is slidable in the axial direction within a range restricted with respect to the outer catheter 114. A needle 112a is connected to the tip of the medial catheter 112. When the inner catheter 112 is in the retracted position with respect to the outer catheter 114, the needle 112a is housed in the outer catheter 114. When the medial catheter 112 is in an advanced position with respect to the lateral catheter 144, the needle 112a projects from the tip of the lateral catheter 114.

The second surgeon then houses the needle 112a in the lateral catheter 114. Then, the puncture device 110 is inserted into the insertion hole 116a (see FIG. 51) of the endoscope 116. Subsequently, the second operator projects the needle 112a from the tip of the endoscope 116 in the patient's gastrointestinal tract as shown in FIG. 51. Then, it penetrates the mucosa 120 around the lesion 128 and reaches the submucosal layer 121. The second operator informs the first operator that the needle has reached the mucosal layer 121.

The second operator informs the first operator of the number of clicks for injection. The first operator rotates the plunger 5 by the number of transmitted click sounds to inject the sodium hyaluronate solution 11 into the submucosal layer 121. The second operator audibly confirms that a predetermined amount of the sodium hyaluronate solution 11 has been injected by confirming the number of click sounds. The second surgeon confirms the endoscopic image and, if necessary, informs the first surgeon of the number of click sounds for re-injection. The first operator rotates the plunger 5 by the number of transmitted click sounds to inject the sodium hyaluronate solution 11 into the submucosal layer 121. When this operation is performed a required number of times and the lesion 128 is raised to a desired size, the state shown in FIG. 52 is obtained. In this state, the submucosal layer 121 under the lesion 128 is separated from the muscle layer 122.

The second operator informs the first operator that the injection operation of the sodium hyaluronate solution is completed. Upon hearing this, the first operator rotates the plunger 5 in the reverse direction to release the pressurization. As a result, the discharge of the sodium hyaluronate solution 11 from the syringe 2 is stopped.
Next, as shown in FIG. 53, the second operator inserts the peeling device 134 (needle-shaped scalpel or the like) into the forceps hole 116a of the endoscope 116, and surrounds the lesion 128 using the peeling device 134. Cut the mucous membrane 120 into pieces. Subsequently, as shown in FIG. 54, the second operator inserts the gripping device 136 into the forceps hole 116a of the endoscope 116, and uses the gripping device 136 to peel off the mucous membrane 120 having the lesion 128. , The exfoliated mucous membrane 120 is taken out of the body.

On the other hand, when performing endoscopic mucosal resection, the resection device 138 shown by a virtual line in FIG. 53 is used instead of the peeling of the mucosa 120 by the peeling device 134 described above. The excision device 138 has a snare ring 138a (loop-shaped electric knife). The second operator projects the snare ring 138a from the endoscope 116 in the patient's body and hooks the snare ring 138a on the mucous membrane 120 around the raised lesion 128. Then, the snare ring 138a is throttled, a high-frequency current is passed through the snare ring 138a, and the mucous membrane 120 having the lesion 128 is cut. The cut mucosa 120 is collected by the gripping device 136 shown in FIG. 54. Other procedure steps are the same as those for endoscopic submucosal dissection described above.

1 Chemical administration tool 2 Prefilled syringe 3 Syringe gasket presser 4 Syringe mounting member 5 Plunger 6 Gasket pressing assembly 8 Gasket pressing member 9 Sound generating member 20 Barrel 43 Syringe mounting part

Claims (13)

A gasket presser for a syringe used by attaching to a syringe having a barrel and a gasket slidable in the barrel.
The gasket pressing tool includes a gasket pressing assembly including a gasket pressing member and a sound generating member, a syringe mounting member having a syringe mounting portion and movably accommodating the gasket pressing assembly, and the syringe mounting. It is equipped with a plunger that allows the tip side to enter the member and press the gasket pressing assembly by rotation.
The sound generating member includes a claw portion that is elastically deformable, the gasket pressing member includes a wall portion that abuts on the claw portion, and the claw portion has a toe portion that protrudes rearward from the wall portion. Prepare,
The plunger is provided with a claw-plucking rib provided on the side surface of the tip portion.
The claw flip rib is located behind the toe portion so that the plunger does not pressably contact the gasket pressing assembly, and the plunger can press the gasket pressing assembly. In the state of being Gasket pressing for a syringe, which is characterized in that sound is generated by abutting on the wall portion of the claw portion restored after passing, while deforming and passing through the claw portion. Ingredients. The gasket pressing member relates to a main body portion that can enter the gasket, a flange provided at the rear end portion, a sound generating member accommodating portion, a wall portion extending in the axial direction, and the sound generating member. The gasket pressing tool for a syringe according to claim 1, further comprising a joint portion and a plunger contact portion. The sound generating member includes a tubular main body portion and the claw portion protruding from the inner surface of the tubular main body portion toward the tip end, and the claw portion includes a base portion fixed to the inner surface of the tubular main body portion. The gasket pressing tool for a syringe according to claim 1 or 2, further comprising a curved portion protruding forward from the base portion and the toe portion facing the rear end direction. The gasket pressing tool for a syringe according to any one of claims 1 to 3, wherein the toe portion is tapered toward the tip. The gasket pressing tool for a syringe according to any one of claims 1 to 4, wherein the two claw portions are provided, and the two toe portions are substantially opposite to each other. The plunger is provided at a shaft portion, a tip base portion holding the claw-plucking rib provided at the tip portion of the shaft portion, a columnar protrusion protruding from the tip base portion, and a rear end portion of the shaft portion. The gasket pressing tool for a syringe according to any one of claims 1 to 5, further comprising a handle portion. The gasket pressing tool for a syringe according to any one of claims 1 to 6, wherein the claw flip rib is provided. 6. Gasket presser for syringes. The gasket pressing tool for a syringe according to any one of claims 1 to 8, wherein the claw flipping rib has a substantially upright surface that abuts on the toe portion when the plunger is rotated in the screwing traveling direction. The gasket pressing tool for a syringe according to any one of claims 1 to 9, wherein the syringe mounting portion includes a flange accommodating portion capable of accommodating a base end portion having a flange of the syringe. The syringe mounting member includes a lumen located on the rear end side of the flange accommodating portion, a syringe mounting member side screwing portion is provided on the inner surface of the lumen, and the plunger is provided on the outer surface of the shaft portion. The gasket pressing tool for a syringe according to claim 10, further comprising a screw portion on the side of the syringe mounting member and a screw portion on the shaft side that can be screwed. The gasket for a syringe according to claim 11, wherein the syringe mounting member side screw portion is a short spiral protrusion, and the shaft side screw portion is a spiral groove into which the spiral protrusion can be screwed into. Presser. A prefilled syringe having a gasket pressing tool for a syringe according to any one of claims 1 to 12, a barrel, a chemical solution filled in the barrel, and the gasket slidably stored in the barrel. The prefilled syringe is attached to the syringe mounting portion of the gasket pressing tool for a syringe.

Images