JP4154185B2 - Chemical injection system - Google Patents

Description

[0001]
BACKGROUND OF THE INVENTION
The present invention relates to a chemical solution injection system that injects a chemical solution of a syringe unit into a subject using a chemical solution injection device, and particularly to a chemical solution injection system that freely injects a plurality of types of chemical solutions.
[0002]
[Prior art]
CT (Computed Tomography) scanners currently used in the medical field can take a tomographic image of a subject by the application of X-ray imaging, and MRI (Magnetic Resonance Imaging) equipment uses a magnetic resonance effect to obtain a tomographic image of a subject. Can be taken in real time, and the angio apparatus can take a blood vessel image of the subject by applying X-ray imaging.
[0003]
When using the apparatus as described above, a chemical solution such as a contrast medium or physiological saline may be injected into a subject, and a chemical solution injection system that automatically executes this injection has also been put into practical use. Here, a conventional example of such a chemical solution injection system will be described below with reference to FIG.
[0004]
The chemical solution injection system 1 illustrated here includes a number of interchangeable syringe units 10 and one chemical solution injection device 20, and up to two syringe units 10 are attached to the chemical solution injection device 20. The syringe unit 10 includes one cylinder member 11 and one piston member 12, and the cylinder member 11 has a single hole 13 formed in the end surface thereof.
[0005]
The front end surface of the cylinder member 11 is closed and a hollow conduit portion 14 is formed at the center, and the hole portion 13 communicates with the front end of the conduit portion 14. A piston member 12 is slidably inserted into the hole 13 of the cylinder member 11, and a piston flange 15 and a cylinder flange 16 are formed on the outer periphery of the end of the piston member 12 and the cylinder member 11, respectively. .
[0006]
The chemical injection device 20 includes one syringe holding member 21 and two slider mechanisms 22. The syringe holding member 21 includes two pieces that individually hold the cylinder members 11 of the two syringe units 10. The recess 23 is formed. Two slider mechanisms 22 are individually arranged behind each of the two recesses 23, and these slider mechanisms 22 hold and slide the piston member 12 of the syringe unit 10.
[0007]
In addition, this chemical | medical solution injection system 1 also has the pipe member 18 by which the front-end | tip part was collected into one and the terminal part branched into two, and the two terminal parts of this pipe member 18 are 2 pieces. The individual syringe units 10 are individually connected to the conduit portions 14. A catheter is connected to one distal end portion of the tube member 18 by, for example, an extension tube, and this catheter is connected to a subject (not shown).
[0008]
In the above-described configuration, the chemical injection system 1 of the conventional example can inject two types of chemicals from the two syringe units 10 into the subject by one chemical injection device 20. For example, a CT scanner Thus, a contrast medium can be injected into a subject whose tomographic image is to be taken and then boosted with physiological saline.
[0009]
In addition, as the syringe unit 10 used with the above-mentioned chemical | medical solution injection | pouring system 1, the prefilled type which is shipped in the state with which the chemical | medical solution was filled and used only once, and a desired chemical | medical solution is filled and used many times. There are non-prefilled types that can be used.
[0010]
When filling the non-prefilled type syringe unit 10 with a chemical solution, the syringe unit 10 loaded in the chemical solution injection device 20 is connected to a chemical solution tank (not shown) by an extension tube, and the syringe unit 10 is connected to the syringe unit 10 by the chemical solution injection device 20. Inhale the chemical from the chemical tank.
[0011]
However, when the plurality of syringe units 10 are connected to the subject by the branched pipe member 18 as described above, it is difficult to inhale two types of chemical solutions individually from the chemical solution tank into the two syringe units 10. Since it is cumbersome to replace the straight pipe member (not shown) and the branched pipe member 18 at the time of inhalation and injection, the prefilled syringe unit 10 is generally used.
[0012]
In addition, in the case where the plurality of syringe units 10 are connected to the subject by the branched pipe member 18 as described above, in order to prevent one chemical solution from flowing backward to the other syringe unit 10 during injection, It is also practiced that a switching valve is built in the branch portion or that a one-way valve is inserted into the end portion of the pipe member 18 (not shown).
[0013]
[Problems to be solved by the invention]
In the above-described chemical solution injection system 1, two types of chemical solutions can be injected into the subject from the two syringe units 10 by using one chemical solution injection device 20. Although it is necessary to load the syringe unit 10 and connect the end portion of the pipe member 18 to each of the two syringe units 10, such preparation work is complicated.
[0014]
Further, when the switching valve is built in the branch portion of the pipe member 18, the operation of the switching valve is complicated, and when one valve is mounted on the end portion of the pipe member 18, the mounting is complicated. is there. In particular, when the pipe member 18 is connected to each of the two syringe units 10 via one-way valves, the connection operation is required four times, which is extremely complicated and contamination occurs at the connection portion. There is a high possibility of
[0015]
This invention is made | formed in view of the above subjects, and it aims at providing the chemical | medical solution injection | pouring system which can inject | pour a multiple types of chemical | medical solution easily to a test subject.
[0016]
[Means for Solving the Problems]
The chemical solution injection system of the present invention includes a syringe unit and a chemical solution injection device, and the syringe unit includes a first syringe having one cylinder member and n piston members , and one cylinder member. And a second syringe having one piston member, and the chemical liquid injector includes a first syringe adapter, a second syringe adapter, one holding member body, and n slider mechanisms, have.
[0017]
One cylinder member of the first syringe has n holes (n is an integer of 2 or more), and n piston members are individually inserted into the n holes. . One cylinder member of the second syringe is formed with one hole, and one piston member is inserted into this one hole.
[0018]
One holding member main body of the chemical liquid injector includes a first syringe adapter that holds a cylinder member of one first syringe and a second syringe adapter that holds cylinder members of n second syringes. replace freely holding the door, the n of the slider mechanism to slide while holding the n-number of the piston member of the syringe unit individually. For this reason, in the chemical injection system of the present invention, one chemical injection device is equipped with one first syringe or n second syringes , for example, the distal end portion is integrated into one end portion. If one tip portion of the tube member branched into n is connected to the subject, a plurality of types of chemical solutions can be freely injected into the subject.
[0019]
The various components referred to in the present invention do not have to be independent of each other, but a plurality of components are formed as one member, and a certain component is a part of another component. It is also possible that a part of a certain component and a part of another component overlap.
[0020]
DETAILED DESCRIPTION OF THE INVENTION
[Configuration of the embodiment]
An embodiment of the present invention will be described below with reference to FIGS. As shown in FIG. 1, the chemical solution injection system 100 of the present embodiment includes a chemical solution injection device 101, a deformed syringe 200 that is a syringe unit, and a normal syringe 300.
[0021]
The normal syringe 300 has the same structure as the syringe unit 10 described in the conventional example, and one piston member 302 is slidably inserted into one cylinder member 301. In the normal syringe 300, a cylinder flange 303 and a piston flange 304 are formed on the outer circumferences of the ends of the cylinder member 301 and the piston member 302. For example, the syringe 300 is formed in various external shapes for each manufacturer and chemical solution.
[0022]
The deformed syringe 200 has one cylinder member 201, two piston members 202, and one pipe member 203. As shown in FIG. The hole part 205 of the terminal opening is formed in parallel. The piston member 202 includes a piston head 204 and a piston rod 209, and the two piston members 202 are individually inserted into the two holes 205 of the cylinder member 201.
[0023]
Two conduit portions 206 are formed on the distal end surface of the cylinder member 201, and a hole 205 is formed up to the distal ends of these conduit portions 206. A cylinder flange 207 is formed on the outer periphery of the cylinder member 201, and a piston flange 208 is formed on the outer periphery of the piston member 202.
[0024]
As shown in FIG. 1, the pipe member 203 has a distal end portion integrated into one and a distal end portion branched into two, and a one-valve 210 is built in each of the two end portions. Yes. The two end portions of the tube member 203 are individually attached to the two conduit portions 206 of the single cylinder member 201 so as to communicate with the two hole portions 205 individually.
[0025]
The deformed syringe 200 of the present embodiment is manufactured as a prefilled type, and is formed in various outer shapes for each chemical solution, for example. The deformed syringe 200 of this embodiment is shipped in a state where the two holes 205 of the cylinder member 201 are filled with a contrast medium and physiological saline (not shown), and the tube member 203 is connected to the cylinder member 201. ing.
[0026]
As shown in FIG. 4, the chemical liquid injector 101 has an apparatus main body 103 mounted on the upper end of a stand 102, and an operation panel 104 and a liquid crystal display 105 are mounted on the apparatus main body 103. An arm 106 is attached to a side portion of the apparatus main body 103, and an injection head 110 that is a syringe holding member is attached to an upper end of the arm 106.
[0027]
The injection head 110 includes one holding member main body 111, a plurality of types of syringe adapters 120 and 130, and a slider mechanism 140. In the holding member main body 111, a plurality of types of syringe adapters 120 and 130 are exchanged one by one. Can be installed freely.
[0028]
The syringe adapters 120 and 130 are roughly classified into two types corresponding to the deformed syringe 200 and the normal syringe 300. In each of the two types, a plurality of types corresponding to various external shapes of the deformed syringe 200 and the normal syringe 300 are provided. Consists of.
[0029]
The injection head 110 is formed with one box-shaped concave portion 111 in which the syringe adapters 120 and 130 are mounted in front of the upper surface, and convex portions 112 communicating in the vertical direction are formed on the left and right inner surfaces of the concave portion 111. Since it is formed, the concave portions 121 with which the convex portions 112 are slidably engaged in the vertical direction are formed on the left and right outer surfaces of the syringe adapters 120 and 130.
[0030]
In addition, a plurality of convex portions 113 are arranged in the front-rear direction at the center in the left-right direction on the bottom surface of the concave portion 111 of the injection head 110, and the concave portions (not shown) with which these convex portions 113 engage. ) Is formed on the lower surface of the syringe adapters 120 and 130.
[0031]
The syringe adapter 120 is formed with one wide concave portion 122 in which the cylinder member 201 of one odd-shaped syringe 200 is detachably attached, and a concave portion in which the cylinder flange 207 engages with the rear portion of the concave portion 122. A groove 123 is formed. Further, a plurality of convex portions 124 are formed in the front-rear direction at the center in the left-right direction on the upper surface of the concave portion 122, and as shown in FIG. 3, a concave portion 211 with which these convex portions 124 engage is formed. It is formed on the lower surface of the cylinder member 201.
[0032]
The syringe adapter 130 is formed with two narrow recesses 131 on which the cylinder members 301 of the two normal syringes 300 are detachably mounted, and a cylinder flange is formed at the rear of each of these recesses 131. A concave groove 132 with which 303 is engaged is formed.
[0033]
Two slider mechanisms 140 are built in the rear part of one holding member main body 111, and hold and slide the two piston members 202 or the two piston members 302 individually. That is, when two normal syringes 300 are attached to the holding member main body 111 by the syringe adapter 130, the two slider mechanisms 140 individually slide and move the piston members 302 of the two normal syringes 300. Further, when one irregular syringe 300 is attached to the holding member main body 111 by the syringe adapter 120, the two slider mechanisms 140 individually slide and move the two piston members 202 of the one irregular syringe 200.
[0034]
As shown in FIG. 7, the chemical injection device 101 of this embodiment is used in the vicinity of the imaging unit 401 of the CT scanner 400, and is connected to the control unit 402 of the CT scanner 400 as necessary. The control unit 402 includes a computer system, and controls the operation of the imaging unit 401 and displays a tomographic image.
[0035]
[Operation of the embodiment]
In the configuration as described above, in the chemical solution injection system 100 of the present embodiment, as shown in FIG. 1, if necessary, one deformed syringe 200 or two normal syringes 300 are connected to the syringe adapter 120, 130 can be attached.
[0036]
When the syringe adapter 130 is attached to the holding member main body 111 of the chemical liquid injector 101, the chemical liquid injector 101 is completely in the same state as the conventional chemical injector 20. For this reason, two normal syringes 300 are attached to the chemical solution injector 101, and the normal syringe 300 is connected to the subject with an extension tube (not shown), so that two types of chemical solutions can be freely injected into the subject. be able to.
[0037]
On the other hand, as shown in FIG. 2, when the syringe adapter 120 is attached to the holding member main body 111 of the chemical solution injector 101, one deformed syringe 200 can be attached to the syringe adapter 120. In this case, by connecting one distal end portion of the tube member 203 of the deformed syringe 200 to the subject with an extension tube (not shown), two kinds of drug solutions can be freely injected into the subject from the one deformed syringe 200. can do.
[0038]
The deformed syringe 200 and the normal syringe 300 are formed in a plurality of types of external shapes, for example, depending on the type and volume of the chemical solution, but since the syringe adapters 120 and 130 are formed corresponding to the external shapes, Various deformed syringes 200 and various normal syringes 300 can be attached to the member main body 111.
[0039]
[Effect of the embodiment]
In the chemical injection system 100 of the present embodiment, the deformed syringe 200 is formed in a prefilled type filled with a chemical at the time of shipment, and is shipped with the tube member 203 attached to the cylinder member 201. For this reason, if one deformed syringe 200 is attached to one chemical liquid injector 101 as described above, and one distal end portion of the tube member 203 is connected to the subject, a plurality of types of chemical liquids are applied to the subject. Can be injected freely. Therefore, it is not necessary to attach a plurality of deformed syringes 200 to the chemical liquid injector 101 and inject a plurality of end portions of the tube member 203 in order to inject a plurality of types of chemical liquids into a subject, and the operation is simple and the connection portion is made. The possibility of contamination is low.
[0040]
Nevertheless, since the chemical injection device 101 of this embodiment can also be equipped with the normal syringe 300 when the syringe adapter 130 is attached to the holding member main body 111, the existing normal syringe 300 that is widely used in the market is used in the same manner as before. You can also
[0041]
Further, in the deformed syringe 200 of this embodiment, the one-way valve 210 is built in each of the plurality of end portions of the tube member 203, so that the liquid medicine and blood do not flow backward from the subject, and a plurality of the inside of the deformed syringe 200 The chemicals are not mixed.
[0042]
Moreover, the deformed syringe 200 of this embodiment is filled with a high-viscosity contrast agent and a low-viscosity physiological saline as a chemical solution, but the contrast agent is injected into the subject through the linear portion of the tube member 203, The physiological saline is injected at the bent portion of the tube member 203. For this reason, the chemical injection device 101 of this embodiment can inject the contrast medium and physiological saline into the subject while reducing the influence of the viscosity.
[0043]
In the chemical injection device 101 of this embodiment, since the syringe adapters 120 and 130 are held by the holding member main body 111 by the engagement between the convex portions 112 and 113 and the concave portion 121 and the like, the holding member main body can be surely secured with a simple structure. 111 can hold the syringe adapters 120 and 130.
[0044]
Further, since the cylinder flange 207 is engaged with the concave groove 123 and the convex portion 124 is engaged with the concave portion 211, the deformed syringe 200 is held by the syringe adapter 120. Therefore, the syringe adapter 120 can be securely attached to the syringe adapter 120 with a simple structure. The deformed syringe 200 can be held. In particular, as shown in FIG. 3B, since the concave portion 211 of the deformed syringe 200 is formed in the dead space of the cylinder member 201, the space of the deformed syringe 200 is effectively used.
[0045]
[Modification of Embodiment]
The present invention is not limited to the present embodiment, and various modifications are allowed without departing from the scope of the present invention. For example, in the present embodiment, it is assumed that the chemical liquid injector 101 is used in the vicinity of the CT scanner 400, but this can also be used in the vicinity of an MRI apparatus or an angio apparatus.
[0046]
Further, in the present embodiment, it is exemplified that the two piston members 202 are individually inserted into the two holes 205 of the cylinder member 201 of the deformed syringe 200, but for example, three or more holes of the cylinder member It is also possible for the same number of piston members to be inserted individually.
[0047]
Further, in this embodiment, it is exemplified that the one-way valve 210 is incorporated in all of the plurality of end portions of the tube member 203 of the deformed syringe 200. For example, a part of the plurality of end portions of the tube member 203 or one piece It is also possible that the one-way valve 210 is built in the tip portion of the tube member, and that the one-way valve 210 is not built in the pipe member 203.
[0048]
Further, in this embodiment, it is assumed that the deformed syringe 200 is manufactured with a special design and the cylinder member 201 is made of bulk material. For example, as shown in FIG. It is possible to form the deformed syringe 500 by attaching the pipe member 203 after being connected at 501.
[0049]
Furthermore, in this embodiment, the cylinder member 201 of the deformed syringe 200 is formed in a flat oval cylindrical shape, and is illustrated as being attached to the holding member main body 111 by the syringe adapter 120 of the dedicated chemical liquid injector 101. However, as shown in FIG. 7, by forming the cylinder member 511 of the deformed syringe 510 in a structure in which a plurality of normal syringes 300 are connected at the top, the deformed syringe 510 that can be attached to the conventional liquid injector 20 is realized. Is also possible.
[0050]
Further, in this embodiment, the piston member 202 of the deformed syringe 200 includes the piston head 204 and the piston rod 209, and the slider mechanism 140 of the chemical liquid injector 101 holds the piston rod 209. However, it is also possible that the piston member is composed only of the piston head, and the slider mechanism of the chemical liquid injector directly holds the piston head (not shown).
[0051]
Further, in the present embodiment, it is exemplified that the separate tube member 203 is mounted in advance on the cylinder member 201 of the deformed syringe 200. However, the deformed syringe 200 and the tube member 203 are separately manufactured and sold, and an operator on site. It is also possible to connect to.
[0052]
Further, in this embodiment, it is exemplified that the separate tube member 203 is attached to the cylinder member 201 of the deformed syringe 200. However, as shown in FIG. 8, the tube member 522 is built in the cylinder member 521. It is also possible to form the deformed syringe 520 in the structure.
[0053]
Furthermore, in this embodiment, the syringe adapters 120 and 130 exemplify that one deformed syringe 200 and two normal syringes 300 can be freely attached to one holding member main body 111, but as shown in FIG. By forming a chemical liquid injector (not shown) in a structure in which the syringe adapter 120 is mounted on the holding member main body 111, it is possible to realize a chemical liquid injector that uses only the deformed syringe 200.
[0054]
In the present embodiment, the modified syringe 200 and the normal syringe 300 are illustrated as being attached to the holding member main body 111 by the syringe adapters 120 and 130. However, as illustrated in FIG. It is also possible to form the cylinder member 531 of the syringe 530 and attach the deformed syringe 530 directly to the holding member main body 111.
[0055]
In this case, the chemical injection system 100 can directly remove the deformed syringe 530 directly from the holding member main body 111 and can directly remove the normal syringe 300 by the syringe adapter 130. It is also possible to directly remove the syringe 530 and remove the deformed syringe 200 and the normal syringe 300 directly with the syringe adapters 120 and 130.
[0056]
【The invention's effect】
In the chemical injection system of the present invention, if one syringe unit is attached to one chemical injection device and one tip of the tube member is connected to the subject, a plurality of types of chemicals can be freely given to the subject. Since it can be injected, it is not necessary to attach multiple syringe units to the chemical injection device to connect multiple end parts of the pipe member in order to inject multiple types of chemicals to the subject, and the work is simple and connected It is also unlikely that contamination will occur in the area.
[Brief description of the drawings]
FIG. 1 is an exploded perspective view showing a chemical liquid injection system according to an embodiment of the present invention.
FIG. 2 is a perspective view showing a state in which a deformed syringe as a syringe unit is attached to the chemical liquid injector.
3A is a cross-sectional plan view of a deformed syringe, and FIG. 3B is a longitudinal front view thereof.
FIG. 4 is a perspective view showing an appearance of a chemical liquid injector.
FIG. 5 is a perspective view showing an appearance of an MRI apparatus.
FIG. 6 is a perspective view showing a deformed syringe of a first modified example.
FIG. 7 is a perspective view showing a deformed syringe of a second modified example.
FIG. 8 is a perspective view showing a state in which the deformed syringe of the third modified example is attached to the chemical liquid injector.
FIG. 9 is an exploded perspective view showing a chemical liquid injection system according to a fourth modified example.
FIG. 10 is an exploded perspective view showing a conventional chemical injection system.
[Explanation of symbols]
DESCRIPTION OF SYMBOLS 100 Chemical solution injection system 101 Chemical solution injection device 110 Injection head 111 which is a syringe holding member Holding member main body 120, 130 Syringe adapter 140 Slider mechanism 200, 500, 510, 520, 530 Deformed syringe 201, 301, 511, 521 which is a syringe unit , 531 Cylinder member 202, 302 Piston member 203, 522 Pipe member 205 Hole 210 One-way valve 300 Normal syringe which is a syringe unit

Claims (11)

A syringe unit in which a piston member is slidably inserted into a hole portion of the cylinder member, and a chemical liquid injection device that holds the cylinder member and the piston member of the syringe unit separately and moves them relative to each other. A chemical injection system,
The syringe unit includes one cylinder member in which n (n is an integer of 2 or more) holes are formed, and n individually inserted in the n holes in the cylinder member. first syringe, and one of the the one of the cylinder member having a hole portion is formed, one of the piston the are inserted into the hole of the piston member for chromatic and pieces of the piston member, the And n second syringes having members ,
The chemical injection device includes: a first syringe adapter that holds a cylinder member of one of the first syringes; a second syringe adapter that holds cylinder members of n pieces of the second syringes; One holding member main body that exchangeably holds one syringe adapter and the second syringe adapter, and n slider mechanisms that individually hold and slide the n piston members of the syringe unit And having a chemical injection system. A syringe unit in which a piston member is slidably inserted into a hole portion of the cylinder member, and a chemical liquid injection device that holds the cylinder member and the piston member of the syringe unit separately and moves them relative to each other. A chemical injection system,
The syringe unit includes one cylinder member in which n (n is an integer of 2 or more) holes are formed, and n individually inserted in the n holes in the cylinder member. A first syringe having one piston member, one cylinder member in which one hole is formed, and one piston member inserted into the hole of the piston member And n second syringes having:
The chemical injection device includes a syringe adapter that holds n cylinder members of the second syringe, a single holding member main body that holds the syringe adapter and the cylinder member of the first syringe interchangeably. And n slider mechanisms that individually hold and slide the n piston members of the syringe unit. 2. The first syringe also includes a pipe member in which a distal end portion is aggregated into one and an end portion branched into n pieces individually communicates with the n holes. Or the chemical injection system according to 2. According to claim 3, wherein the first syringe of the tube one of the tip portion and the n-number of said distal portion and the one for restricting the movement of the chemical to at least one injection direction valve member is provided Chemical injection system. The chemical | medical solution injection | pouring system of Claim 3 or 4 with which the said tube member and the said cylinder member of the said 1st syringe are integrally formed. A syringe unit of the chemical liquid injection system according to claim 2 ,
one cylinder member in which n holes (n is an integer of 2 or more) are formed and held directly in the holding member main body of the liquid injector without the syringe adapter;
N piston members individually inserted into the n holes of the cylinder member;
A syringe unit. The syringe unit according to claim 6 , further comprising a pipe member in which a distal end portion is gathered into one and an end portion branched into n pieces individually communicates with the n pieces of the hole portions. The syringe unit according to claim 7 , wherein a one-way valve for restricting movement of the chemical solution in an injection direction is provided in at least one of one distal end portion and n end portions of the tube member. The syringe unit according to claim 7 , wherein the tube member and the cylinder member are integrally formed. A chemical injection device for a chemical injection system according to claim 1 ,
A first syringe adapter that holds one cylinder member of the first syringe; a second syringe adapter that holds n cylinder members of the second syringe; the first syringe adapter; Tei has a one holding member main body to be replaced freely holding the second syringe adapter includes n slider mechanism for sliding while holding the n-number of said piston member of the syringe unit individually, the Chemical injection device. A chemical injection device for a chemical injection system according to claim 2 ,
and syringe adapters for holding the cylinder member of said n second syringe, and one of the holding member main body to be replaced freely holding the cylinder member of the cylinder and the adapter first syringe, n of the syringe unit pieces of the piston member and n slider mechanism for sliding holding individually, Tei Ru liquid injector has a.

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