JP2000202024A - Injection apparatus for highly viscoelastic substance - Google Patents

Abstract

PROBLEM TO BE SOLVED: To provide an injection apparatus which is ideal for the injection or injection and application of a highly viscoelastic substance for medical use in vivo after the operation or the like. SOLUTION: This injection apparatus is constituted of a syringe 1 filled with a highly viscoelastic substance such as hyaluronic acid or the like, a tubular applicator 2 to be inserted in vivo and a power assist 3 loaded with the syringe 1. The power assist 3 has a syringe fixing means 5 attached to a body 31, a rod 4 to force a gasket 11 of the syringe 1 by the operation of gripping a lever 34 and an applicator support mechanism 6 to regulate movement in each direction at the base end part of the applicator 2.

Description

DETAILED DESCRIPTION OF THE INVENTION

[0001]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a device for injecting a highly viscoelastic substance, and more particularly, to a medical device for preventing the adhesion of organs and the like after surgery. The present invention relates to a medical device used when injecting a viscoelastic substance.

[0002]

2. Description of the Related Art As an anti-adhesion agent for organs and the like, films of high viscoelastic substances for medical use, for example, hyaluronic acid or cross-linked hyaluronic acid (see WO 97/18244) (hereinafter abbreviated as hyaluronic acids) are used. However, recently, in laparoscopic surgery, a method of using a highly viscoelastic substance as it is without being formed into a film has been studied.

[0003]

However, the above-mentioned hyaluronic acids have extremely high viscosity, so that it is difficult to safely and surely inject them into the body with a syringe. The present invention has been made in view of such circumstances, and its object is to inject or inject or apply a medical high viscoelastic substance into or into an animal body including a human during or after surgery. It is an object of the present invention to provide a simple injection device.

[0004]

According to the present invention, there is provided a device for injecting a highly viscoelastic substance for medical use, which comprises: A syringe filled with a highly viscoelastic substance and sealed at the rear end side by a gasket having a piston function, a tubular applicator attached to the tip of the syringe and inserted into the body, an applicator loaded with the syringe and inserted from the tip And a power assist that holds the syringe in a protruding state, wherein the power assist is attached from a rear end side of the main body, a syringe fixing means attached to the main body and fixing the syringe, and A rod for pushing the gasket of the syringe by gripping operation of the lever, and a base end of the applicator provided on the distal side of the main body. Characterized in that it comprises a applicator support mechanism for restricting the definitive movement in each direction.

[0005] In the injection of a highly viscoelastic substance by the above-described injection device, an applicator is attached to the tip of a syringe filled with the highly viscoelastic substance, and the syringe is loaded with power assist. Then, usually, using a trocar (guide tube) having one end inserted in the body in advance, an applicator projecting from the power assist tip is inserted into the body, and then a highly viscoelastic substance is injected by a gripping operation of a lever. At this time, the syringe fixing means attached to the main body fixes the syringe on the main body, and the rod pushes the gasket of the syringe by the gripping operation of the lever. Also, when the gasket is pushed to supply the high viscoelastic substance from the syringe to the applicator and is injected into the body, the applicator support mechanism is
Restricts movement in each direction at the proximal end of the applicator. That is, the applicator support mechanism prevents the applicator from wobbling and dropping from the syringe.

In the preferred embodiment of the injection device, the applicator support mechanism includes a pillow provided with a groove for sandwiching the applicator, and a pillow inserted into the groove of the pillow in order to securely fix the applicator with a simple structure. And a pressing member for pressing the applied applicator from above.

In the above-described embodiment, the power assist body is formed as a box having an open upper surface and can be opened and closed by a lid, and a pressing pin as a pressing member protrudes from the rear surface on the tip side of the lid. With this arrangement, the syringe can be easily loaded for power assist, and the applicator can be securely fixed. Further, in this aspect, in order to more reliably prevent the applicator from dropping out of the syringe, a large-diameter portion is formed on the proximal end side of the applicator, and the pillow of the applicator support mechanism is provided with a large pillow of the applicator. It is provided at a position sandwiching the distal end side from the diameter portion.

In each of the above embodiments, a pair of flanges are extended symmetrically with respect to the axis of the applicator at the base end of the applicator in order to further securely connect the syringe and the applicator. It is preferable that each flange is configured to be able to be fitted to fitting means provided on the inner peripheral surface of the injection port at the tip of the syringe.

Further, in each of the above-mentioned embodiments, since the tip of the applicator is formed flat, a highly viscoelastic substance can be easily applied to the affected part.

[0010]

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS One embodiment of a device for injecting a highly viscoelastic substance according to the present invention will be described with reference to the drawings. FIG.
It is a perspective view which shows the structure of the principal part of an injection device. FIG.
FIG. 3 is a top view showing the internal structure of the injection device, and FIG. 3 is a side view showing the internal structure of the injection device in a cutaway manner. FIG.
FIG. 5 is a partial perspective view showing an example of a fall prevention structure of an applicator, and FIG. 5 is a partial perspective view showing another example of a fall prevention structure of an applicator. FIG. 6 is a perspective view showing a reference applicator used for applying a highly viscoelastic substance.

The injection device of the present invention is a medical device used for injecting a medical high viscoelastic substance into an animal body, particularly a human body, in laparoscopic surgery. Examples of the above-mentioned high viscoelastic substance include hyaluronic acids as described above. Hyaluronic acids are suitable for preventing adhesion of organs and the like after surgery, and the viscosity thereof is adjusted to about 100 to 400 Pa · s at 25 ° C. (measured value by an EHD rotational viscometer).

As shown in FIG. 1, a syringe (1) filled with a highly viscoelastic substance and sealed at the rear end side by a gasket (11) having a piston function, as shown in FIG. It mainly comprises a tubular applicator (2) mounted on the tip and inserted into the body, and a power assist (3) loaded with the syringe (1) and holding the applicator (2) in a protruding state from the tip.

As shown in FIGS. 1 and 2, the syringe (1) is a cylindrical member formed of a transparent resin material or glass, and an applicator (2) is provided at the tip of the syringe (1). A short tubular injection port (1
2) (see FIG. 4 or FIG. 5) is provided. As shown in FIGS. 2 and 3, a flange (13) for fixing the syringe (1) to a rear end of the syringe (1) by a stopper plate (52) of a syringe fixing means (5) described later. )
Is formed.

The gasket (11) is a cylindrical sealing material which is slidably and liquid-tightly inserted into the cylinder of the syringe (1). The gasket (11) has a hole (recess) on the rear end face with which a tip of a rod (4) described later can engage. When filling the above-mentioned hyaluronic acids, the internal volume of the syringe (1) is about 1 to 15 cc.

Applicator (2) shown in FIGS.
Is a tube made of a material having rigidity and elasticity such that it can be easily operated without being damaged when inserted into a body and injecting a highly viscoelastic substance, typically a plastic tube or a tube having a low carbon content. Composed of stainless steel seamless tubes. In addition, the length of the applicator (2) is usually related to being inserted into the body via a trocar (guide tube).
It is set to about 50 to 500 mm. In addition, the volume in the tube of the applicator (2) is determined by taking into account the remaining amount of the highly viscoelastic substance in the applicator (2), that is, taking into consideration the actual injectable amount,
/ 3 or less, specifically 10cc or less, preferably 0.5cc or less.
About 3 cc is more preferable.

As shown in FIGS. 2 and 3, the proximal end of the applicator (2) more reliably prevents the applicator (2) from falling off in the axial direction of the syringe (1) during the injection operation. Therefore, a large-diameter portion (21) having a diameter that does not pass through the pillow (61) of the applicator support mechanism (6) described later is formed. Furthermore, in the injection of a highly viscoelastic substance, it may be necessary to apply the highly viscoelastic substance to an affected part by an applicator (2) inserted into the body. Therefore, in the present invention, the tip (2c) of the applicator (2) is preferably formed flat, and is preferably processed smoothly so as not to damage the living body.

The syringe (1) on which the applicator (2) is mounted is held by power assist (3). The power assist (3) is, as shown in FIGS.
A main body (31) having an elongated shape and a syringe (1) arranged along the longitudinal direction thereof; a syringe fixing means (5) attached to the main body (31) and fixing the syringe (1); 31) a rod (4) attached from the rear end side and pushing the gasket (11) of the syringe (1) by gripping operation of the lever (34);
An applicator support mechanism (6) is provided at the distal end of (1) and regulates movement in each direction at the base end of the applicator (2).

Each member of the power assist (3) is disinfected and
It is made of the same stainless steel or plastic as described above so that it can be sterilized. Power assist (3)
The main body (31) is, for example, configured as a box having an open top as shown in FIG. Both sides of the main body (31) are partially cut away to facilitate attachment and detachment of the syringe (1). The upper surface of the main body (31) can be opened and closed by a lid (33) pivotally supported on the rear end side of the main body (31).

The lid (33) is configured such that both longitudinal edges are bent and cover the main body (31). In addition, a window for confirming the amount of the highly viscoelastic substance of the syringe (1) is opened in the center of the plate surface of the lid (33). Lid (33)
A pair of sharp claws (72) each having a bent side edge extending downward and a front end folded back to the rear end side are provided on both sides of the front end. Such claws (72) are attached to the body (3
Receiving pins (7) projecting on both side surfaces of the tip of 1) described later.
It is made to catch on 1). In addition, the lid (33)
A pressing pin (6) as a pressing member constituting a part of an applicator support mechanism (6) described later
2) is protruded.

The syringe fixing means (5) is shown in FIGS.
As shown in the figure, two pairs of a pair of left and right leaf springs (51) arranged in a state where the upper part is opened at respective positions corresponding to the front end and the rear end of the syringe (1), and a pair of rear leaf springs (51)
And a pair of front and rear stopper plates (52) arranged further rearward of the main body (31). Each of a pair of leaf springs (51) includes a loaded syringe (1).
, The movement of the syringe (1) in the direction orthogonal to the axis thereof is restricted. Further, the pair of stopper plates (52) sandwich the flange (13) formed at the rear end of the syringe (1), thereby forming the syringe (1).
Is restricted in the axial direction.

As shown in FIGS. 1 and 3, a grip (32) is attached to the rear end of the main body (31) so that the power assist (3) can be easily held. A base end of the injection operation lever (34) is rotatably supported on an upper portion of the grip (32), and the lever (34) is provided with a coil interposed between the lever (34) and the grip (32). It is always urged forward by the spring (35).

On the other hand, as shown in FIG.
Is inserted inside in a state of protruding from the rear end side of the main body (31). As shown in FIGS. 2 and 3, the tip (4c) of the rod (4) is slightly reduced in diameter so as to be able to engage with a hole in the rear end face of the gasket (11). ) Is provided with a flange abutting on the rear end face of the gasket (11). And at the rear end of the rod (4)
When loading the syringe (1), a knob is provided for moving the rod (4) in the pulling-out direction.

The rod (4) can be advanced by operating a lever (34). Specifically, as shown in FIGS. 1 and 3, the horizontal cross-sectional shape of the grip (32) is formed in a U-shape with the side surface on the lever (34) side opened, and the grip (32) is , Provided continuously to the rear end of the main body (31). As shown in FIGS. 2 and 3, a feed plate (36) is provided inside the upper end of the grip (32).
Is provided. The feed plate (36) has a hole slightly larger in diameter than the rod (4), and the rod (4) penetrates through the hole so that the feed plate (36) is formed.
Is mounted inside the upper end of the grip (32) so as to move freely along the rod (4). In addition, the feed plate (36) is constantly biased backward by a compression coil spring (43) disposed between the feed plate (36) and the support block (37) on the rear end side of the main body (31).

On the other hand, a rotary plate (34b) is provided at the base end of the lever (34) via a grip mounting plate, and the rotary plate (34b) is fitted over the grip (32) and is screwed. Be pivoted. In addition, a pin (38) protrudes from an upper portion of the rotating plate (34b).

Therefore, by the operation of the lever (34) in the gripping direction, the rotating plate (34b) rotates by a fixed angle from the rear (the position shown in FIG. 3) to the front with the screw as a fulcrum. The pin (38) pushes the feed plate (36) forward. At this time, the feed plate (36) is slightly inclined, so that the rod (4) is hooked by the periphery of the hole, and the rod (4) is sent forward. Also, lever (3
By the opening operation of 4), the pin (38) returns to the original position, and the opened feed plate (36) is also moved by the spring (43).
The elastic force returns to the original position (the position shown in FIG. 3) along the rod (4).

The rod (4) is restricted from moving backward by a rocking plate (42) as a rod locking means. As shown in FIG. 3, the swing plate (42) is
Suspended on a support plate (41) protruding from 1),
In addition, the compression coil spring (44) inserted between the rear end of the grip (32) and the compression coil spring (44) constantly urges the rearward side, so that it is arranged in a slightly inclined state. Moreover, a hole having a diameter slightly larger than that of the rod (4) is opened in the rocking plate (42), and the rod (4)
Is penetrating. That is, in the inclined state, the rocking plate (42) restricts the rearward movement of the rod (4) due to the rod (4) being caught by the periphery of the hole.

In other words, by repeating the gripping operation of the lever (34), the rod (4) is made to move forward by a fixed distance without successively retreating. Therefore,
By the gripping operation of the lever (34), the gasket (11) is pushed by the rod (4), and the high viscoelastic substance in the syringe (1) can be supplied to the applicator (2) side. The swinging plate (42) releases the hooked rod (4) by an operation of being slightly pushed into the main body (31). Therefore, when returning the rod (4) to the state before the injection, that is, the state where the rod (4) has long protruded from the main body (31), the rocking plate (42) is pushed into the rod (4).
Can be pulled out.

The applicator support mechanism (6) provided on the distal end side of the main body (31) has a function of dropping the applicator (2) from the syringe (1) or wobbling the applicator (2) when injecting a highly viscoelastic substance. This is a mechanism for preventing Specifically, as shown in FIGS. 1 to 3, the applicator support mechanism (6) has a pillow (63) provided with a groove (63) that sandwiches the distal end side of the large diameter portion (21) of the applicator (2). 61) and a pressing member for pressing the applicator (2) inserted through the groove (63) of the pillow from above.

The pillow (61) is a block member housed at the tip of the main body (31), and the groove (63) has a substantially U-shaped cross section and is arranged on the upper end side of the block member. . The inner wall of the groove (63) of the pillow (61) comes into surface contact with the applicator (2) mounted on the pillow (61) to prevent wobble. On the other hand, as the pressing member, a groove (6
Any member can be used as long as it can press the applicator (2) from above 3). For example, a pressing pin (62) protruding from the back surface on the distal end side of the lid (33) can be used. ) Are preferred.

That is, in the illustrated applicator support mechanism (6), the movement of the applicator (2) including the axial direction in each direction is performed by the cooperative holding function of the pillow (61) and the holding pin (62). Suppress. Moreover, even if the applicator (2) moves in the axial direction, the pillow (61) can lock the large-diameter portion (21) of the applicator (2) by its groove (63), and Dropping can be reliably prevented.

As described above, the claw (7) of the lid (33) is provided on the body (31) on the tip side of the pillow (61).
A set of receiving pins (71) for engaging 2) is provided, and each receiving pin (71) is constantly biased forward by a compression coil spring provided inside the main body (31). A pair of flip-up pins (73) that are always negatively urged in a direction (upward) of being protruded by a compression coil spring are provided on the left and right sides of the groove (63) on the upper end surface of the pillow (61).
Therefore, when opening the lid (33), the receiving pin (7
By pulling 1) backward, the lid (33) can be flipped upward by the repulsive force of the flip-up pin (73).

Further, in injecting the highly viscoelastic substance into the body, it is necessary to more reliably prevent the applicator (2) from falling off from the syringe (1). Therefore,
In a preferred embodiment of the present invention, a specific falling-off preventing structure is adopted as a connecting structure between the syringe (1) and the applicator (2). Specifically, as shown in FIG. 4, a pair of flanges (24) projecting symmetrically with respect to the axis of the applicator and having a distal end formed in an arc shape are provided at the base end of the applicator (2). ) Is attached. In addition, the major axis between the distal ends of the flanges (24) has a size that can be inserted into the injection port (12) of the syringe (1), and each flange (24) has an injection port (1) at the distal end of the syringe (1).
It can be fitted to the fitting means provided on the inner peripheral surface of 2).

The above-mentioned fitting means is constituted, for example, by a pair of spiral ridges (15) attached to the inner peripheral surface of the injection port (12) as shown in FIG. Each spiral ridge (15)
Are arranged symmetrically with respect to the axis of the syringe (1), that is, the starting point is shifted by 180 °, and the spiral pitch of each spiral ridge (15) is slightly larger than the thickness of the flange (24). Set to a large value. Therefore, the base end (2d) of the applicator (2) can be attached to the injection port (12) by inserting the flange (24) of the applicator (2) into the injection port (12) of the syringe (1) and rotating it. In addition, the fall of the applicator (2) can be reliably prevented.
In addition, the code | symbol (16) in FIG. 4 is an applicator (2).
Is a tubular portion protruding from the syringe (1) to facilitate the alignment of the tube. The tubular portion (16) is inserted into the base end (2d) when the applicator (2) is mounted.

As another fitting means, there can be mentioned a structure as shown in FIG. The fitting means shown in FIG. 5 is constituted by, for example, a pair of projecting pieces (14) attached to the inner peripheral surface of the injection port (12). Each overhang piece (1
4) are arranged symmetrically with respect to the axis of the syringe (1), and the slit between the projecting pieces (14) is formed slightly larger than the width of the flange (24). Therefore,
Attach the proximal end (2d) of the applicator (2) to the syringe (1)
By inserting the applicator (2) into the injection port (12) and turning it about 90 degrees, the applicator (2) can be reliably prevented from falling off.

The method of using the injection device of the present invention will be described.
In the injection of a high viscoelastic substance using the injection device of the present invention, first, a syringe (1) filled with a high viscoelastic substance
The applicator (2) is attached to the injection port (12) of the above, and is loaded into the power assist (3). In the treatment after the operation, a trocar (guide tube) whose one end is inserted into the body in advance is usually used for power assist (3).
After inserting the applicator (2) protruding from the tip into the body, a highly viscoelastic substance is injected by gripping operation of the lever (34). The operation of the lever (34) is, for example, 1
This is repeated about 0 times, and as a result, the inside of the applicator (2) is filled with the high viscoelastic substance, and the high viscoelastic substance can be discharged from the tip of the applicator (2).

That is, in the injection device of the present invention, during the injection operation described above, the syringe fixing means (5) attached to the main body (31) is placed on the main body (31) so that the syringe (1) does not move. The rod (4), which is fixed and is advanced by the gripping operation of the lever (34), pushes the gasket (11) of the syringe (1) and discharges a certain amount of the highly viscoelastic substance to the applicator (2) side.

On the other hand, when a highly viscoelastic substance is supplied from the syringe (1) to the applicator (2) by pushing the gasket (11), the applicator support mechanism (6) operates at the base end of the applicator (2). Regulate movement in the direction. In other words, the applicator support mechanism (6)
Is the wobble of the applicator (2) and the syringe (1)
From falling off. Therefore, according to the injection device of the present invention, a highly viscoelastic substance such as hyaluronic acid can be safely and reliably injected into the body.

In the present invention, a specific pillow (6
When the applicator support mechanism (6) is composed of 1) and the pressing member, the applicator (2) can be fixed more reliably because the applicator (2) is sandwiched and pressed despite the simple structure. In particular, the body (31) of the power assist (3) can be opened and closed by a lid (33), and a pressing pin (6) is provided on the back surface on the tip side of the lid (33).
In the structure in which 2) is protruded, the syringe (1) can be easily loaded into the power assist (3), and the syringe (1) can be fixed by the entire lid (33), and further more securely. The applicator (2).

Further, in addition to the above-described applicator support mechanism (6), in particular, the main body (3) of the power assist (3)
1) Tip (31f) (see FIG. 1) or lid (33)
A notch is formed at one of the tips of the applicator (2), and the applicator (2) is sandwiched by the notch and the applicator (2) is pressed by the other member not provided with the notch. The movement in each direction on the base end side can be more reliably regulated, and the applicator (2) can be more firmly fixed.

In the case where the pillow (61) is provided at a position sandwiching the distal end side of the large diameter portion (21) of the applicator (2), the applicator (2) may temporarily disengage the syringe (1) during the treatment. ), The large diameter portion (21) of the applicator (2) is caught by the pillow (61), so that the applicator (2) from the body (31)
The danger caused by falling off can be reliably avoided. The flange (2) protruding from the base end (2d) of the applicator (2)
In the case where 4) is provided with a structure that fits into the injection port (12) of the syringe (1), the connection between the syringe (1) and the applicator (2) can be further enhanced, so that higher safety is achieved. Can be secured.

As described above, the injection device of the present invention can safely and reliably inject a high viscoelastic hyaluronic acid in a gel state, not in a film state, for example, in a treatment for preventing adhesion in laparoscopic surgery. Therefore, the affected area can be treated more effectively. In the injection device of the present invention, since the tip of the applicator (2) is formed flat, a highly viscoelastic substance such as hyaluronic acid can be more easily applied to the affected part. Therefore, the present invention exerts extremely excellent effects when injecting and applying a medical high viscoelastic substance into the body.

When the affected part is exposed due to laparotomy,
Alternatively, when simply applying a medical high viscoelastic substance to the skin or subcutaneous, that is, when applying without using a trocar, a simple applicator as shown in FIG. 6 can be used. The applicator shown in FIG. 6 includes a syringe (80) filled with a high-viscosity medical substance and a pusher (81) as a piston inserted from the rear end of the syringe.
And a tubular applicator (82) mounted on the tip of the syringe (80), and the applicator (82)
Is formed flat. When applying a high viscoelastic substance, the flange (81) on the rear end side of the syringe (80) and the pusher (81) are held, and the pusher (81) is held.
Is pressed with a finger to discharge the highly viscoelastic substance while gradually pushing the pusher (81). According to such an applicator, the highly viscoelastic substance can be immediately extruded in a flat state and applied immediately, which is extremely convenient.

[0043]

As described above, according to the high viscoelastic substance injection device of the present invention, the high viscoelastic substance can be injected into the body through the applicator by the gripping operation of the lever. Since the mechanism prevents the applicator from wobbling and falling out of the syringe, a highly viscoelastic substance such as hyaluronic acid can be safely and reliably injected into the body.

[Brief description of the drawings]

FIG. 1 is a perspective view showing the structure of a main part of an injection device.

FIG. 2 is a top view showing the internal structure of the injection device.

FIG. 3 is a side view showing the internal structure of the injection device in a broken state.

FIG. 4 is a partial perspective view showing an example of a structure for preventing the applicator from falling off;

FIG. 5 is a partial perspective view showing another example of the fall prevention structure of the applicator.

FIG. 6 is a perspective view showing a reference applicator used for applying a highly viscoelastic substance.

[Explanation of symbols]

 1: Syringe 11: Gasket 12: Injection port 14: Overhanging piece 15: Spiral ridge 2: Applicator 21: Large diameter section 24: Flange 2c: Tip of applicator 3: Power assist 31: Main body 33: Lid 34: Lever 4 : Rod 5: syringe locking means 51: leaf spring 52: stopper plate 6: applicator support mechanism 61: pillow 62: holding pin (pressing member) 63: groove

Claims (7)

[Claims] 1. A medical device for injecting a high-viscosity material for medical use into a body, wherein a syringe filled with the high-viscosity material and sealed at a rear end side by a gasket (11) having a piston function. (1) a tubular applicator (2) attached to the tip of the syringe and inserted into the body; and a power assist (3) loaded with the syringe (1) and holding the applicator (2) in a protruding state from the tip. The power assist (3) includes a main body (31) in which the syringe (1) is arranged, and a main body (31).
A syringe fixing means (5) attached to the main body (31) and fixing the syringe (1), and a syringe (1) attached from the rear end side of the main body (31) and gripping the lever (34).
A rod (4) for pushing the gasket (11) of the above, and an applicator (2) provided on the tip side of the body (31)
And an applicator support mechanism (6) for restricting movement in each direction at the base end of the injection device. 2. The applicator support mechanism (6) moves a pillow (61) provided with a groove (63) sandwiching the applicator (2) and an applicator (2) inserted through the groove (63) of the pillow upward. The injection device according to claim 1, further comprising: a pressing member configured to press the injection device. 3. The body (31) of the power assist (3).
Is configured as a box with an open top and a lid (3
3. The injection device according to claim 2, wherein the injection device can be opened and closed by 3), and a pressing pin (62) as a pressing member protrudes from a rear surface on a distal end side of the lid (33). 4. A large-diameter portion (21) is formed at the base end side of the applicator (2), and a pillow (61) of the applicator support mechanism (6) is connected to the large-diameter portion (21) of the applicator (2). The injection device according to claim 2 or 3, wherein the injection device is provided at a position sandwiching the distal end side from (21). 5. A pair of flanges (24) project from a base end (2d) of the applicator (2) symmetrically with respect to the axis of the applicator, and each flange (24) is provided with a syringe (1). The fitting means provided on the inner peripheral surface of the injection port (12) at the front end is configured to be fittable.
5. The injection device according to any one of items 1 to 4. 6. The injection device according to claim 1, wherein the tip (2c) of the applicator (2) is formed flat. 7. The injection device according to claim 1, wherein the highly viscoelastic substance is a gel of hyaluronic acids.