JP7029005B1 - catheter - Google Patents

Abstract

PROBLEM TO BE SOLVED: To exert an effect of a chemical solution on a wider range of parts. SOLUTION: A catheter 100 for liquid injection including a proximal end P and a distal end D is formed with a plurality of first side holes 16 constituting a flow path of a first liquid flowing from the inside to the outside. A first lumen 15 is provided, and in the first lumen, a first obstruction portion 61 that inhibits the outflow of the first liquid is formed on the distal end side of the first side hole. The first side hole is formed so as to be separated from each other in the longitudinal LD of the catheter. [Selection diagram] Fig. 2

Description

The present invention relates to a catheter in which a side hole is formed.

Patent Document 1 describes a multi-lumen catheter assembly comprising a first lumen and a second lumen. The multi-lumen catheter assembly includes a unitary catheter, a first end tube, a second end tube, a hub, a first extension tube, and a second extension tube. The first end tube and the second end tube have a plurality of side holes near the ends in addition to the end holes at each end. The side hole also provides a flow path for the fluid flowing from the outer portion to the inner portion of the first and second terminal tubes and the fluid flowing from the inner portion to the outer portion.

Japanese Patent Publication No. 2005-510301

FIG. 1, which is a cross-sectional view of the spine, will be used to describe how a liquid such as an anesthetic or an analgesic is injected into the epidural space for pain treatment. First, an epidural needle composed of a double needle consisting of an epidural needle made of a stainless steel tube and an inner needle made of a stainless steel rod is punctured into the epidural space. Then, the inner mantle core rod reaching the epidural space is removed, and the catheter 100 for liquid injection is inserted into the desired part of the epidural space through the mantle tube needle. Subsequently, the mantle tube needle is removed while leaving the catheter 100, and the catheter 100 is indwelled. Then, the liquid is injected through the catheter 100.

When a drug solution such as an anesthetic is injected only into the indwelling site of the catheter 100, the effect of the drug solution affects only the nerve at the indwelling site. However, it is not possible to increase the amount of the drug solution because it is harmful to the patient if the amount of the drug solution is injected over the entire site. Therefore, it is desirable to apply the effect of the drug solution to a wider range of parts without increasing the amount of the drug solution.

The catheter according to one aspect of the present invention is a catheter for injecting a liquid having a proximal end and a distal end, and has a plurality of first side holes constituting a flow path of the first liquid flowing from the inside to the outside. The first lumen is formed, and in the first lumen, a first obstruction portion that inhibits the outflow of the first liquid is formed on the distal end side of the first side hole. , The first side hole is formed so as to be separated from each other in the length direction of the catheter.

As a result, the chemical solution can be reliably flowed out from each side hole, and the effect of the chemical solution can be exerted on a wider range of parts.

It is a schematic cross-sectional view of the spine. It is a schematic side view of the catheter which concerns on 1st Embodiment. It is a schematic explanatory drawing of the catheter which concerns on 2nd Embodiment. It is a schematic explanatory drawing of the catheter which concerns on 3rd Embodiment. It is a schematic explanatory drawing of the catheter which concerns on 4th Embodiment.

Hereinafter, exemplary embodiments for carrying out the present invention will be described in detail with reference to the drawings. However, the dimensions, materials, shapes and relative positions of the components described in the following embodiments can be arbitrarily set and can be changed according to the configuration of the apparatus to which the present invention is applied or various conditions. Further, unless otherwise specified, the scope of the present invention is not limited to the embodiments specifically described below.

[First Embodiment]
FIG. 2 shows the side surface of a liquid injection catheter 100 having a proximal end P and a distal end D, where FIG. 2A shows A- of a third region 3A in which a plurality of third side holes 36 are formed. A cross section is shown. Further, FIG. 2B shows a BB cross section of the second region 2B in which the plurality of second side holes 26 are formed, and FIG. 2C shows C of the first region 1C in which the plurality of first side holes 16 are formed. -C cross section is shown. Further, FIG. 2D shows the obstruction 60 as seen from the distal end D side. In FIG. 2, a part of the catheter body 50 is not shown.

The catheter 100 includes a catheter body 50, a first extension tube 10, a second extension tube 20, a third extension tube 30, and a hub 40. The hub 40 has a pair of wings 41 to secure the catheter 100 to the patient. The wing 41 extends horizontally from the substantially central portion of the hub 40.

Further, the catheter 100 has a first connector 11 connected to the first extension tube 10, a second connector 21 connected to the second extension tube 20, and a third connector connected to the third extension tube 30. It is provided with a connector 31. The first connector 11, the second connector 21, and the third connector 31 are provided at the proximal end P of the catheter 100, and are provided with a syringe filled with a liquid such as an anesthetic solution (for example, xylocaine), a fluid circuit, or the like. Be connected. As an example, the syringe connected to the first connector 11 is filled with the first liquid, the syringe connected to the second connector 21 is filled with the second liquid, and the syringe connected to the third connector 31 is filled with the third liquid. Is filled. The first liquid, the second liquid, and the third liquid may be the same liquid. However, at least one of the first liquid, the second liquid, and the third liquid may be different chemical solutions. For example, anesthetic and cooling water may be infused into the patient.

As shown in FIGS. 2A to 2C, the catheter body 50 is formed with a third lumen 35, a second lumen 25, and a first lumen 15. The third lumen 35, the second lumen 25, and the first lumen 15 extend side by side with each other. That is, the third lumen 35 extends alongside the first lumen 15 and the second lumen 25, and is separated by a partition wall so as not to communicate with the first lumen 15 and the second lumen 25. Has been done. Further, the second lumen 25 extends alongside the first lumen 15 and is separated from the first lumen 15 by a partition wall so as not to communicate with the fluid.

The third lumen 35, the second lumen 25, and the first lumen 15 all have a substantially fan-shaped cross-sectional shape. However, the third lumen 35, the second lumen 25, and the first lumen 15 may have other cross-sectional shapes such as a circular shape, an elliptical shape, a polygonal shape, or a teardrop shape. Further, the first lumen 15 is larger than the third lumen 35 and the second lumen 25. As an example, in the cross section shown in FIG. 2A, the width W1 of the first lumen 15 is about 1.63 mm, and the width W2 of the second lumen 25 and the third lumen 35 is about 1.17 mm. As an example, in the length direction LD of the catheter 100, the length of the catheter body 50 is about 30 cm. However, the length of the catheter body 50 may be selected in the range of about 20 cm to about 70 cm. Further, the diameter of the catheter body 50 gradually decreases toward the distal end D. Specifically, the diameter of the catheter body 50 gradually decreases from about 2.54 mm to about 1.98 mm toward the distal end D.

The third extension tube 30 communicates fluidly with the third lumen 35, and the third lumen 35 is formed with a plurality of third side holes 36 constituting a flow path of the third liquid flowing from the inside to the outside. There is. Further, the second extension tube 20 is in fluid communication with the second lumen 25, and a plurality of second side holes 26 forming a flow path of the second liquid flowing from the inside to the outside are formed in the second lumen 25. Has been done. The first extension tube 10 is in fluid communication with the first lumen 15, and a plurality of first side holes 16 constituting a flow path of the first liquid flowing from the inside to the outside are formed in the first lumen 15. Has been done. As an example, the first side hole 16, the second side hole 26, and the third side hole 36 can be formed by punching.

The third side holes 36 are formed at positions where the third side holes 36 are separated from each other in the length direction LD so as to be separated from each other in the length direction LD. The third side hole 36 is formed at a position closer to the proximal end P than the second side hole 26. Further, in FIG. 2, the third side holes 36 are arranged linearly side by side in the length direction LD. Further, the second side holes 26 are formed at positions where the second side holes 26 are separated from each other in the length direction LD so as to be separated from each other in the length direction LD. The second side hole 26 is formed at a position closer to the proximal end P than the first side hole 16. Further, in FIG. 2, the second side holes 26 are arranged linearly side by side in the length direction LD.

Further, the first side holes 16 are formed at positions where the first side holes 16 are separated from each other in the length direction LD so as to be separated from each other in the length direction LD. The first side hole 16 is formed at a position closer to the distal end D than the second side hole 26. Further, in FIG. 2, the first side holes 16 are arranged linearly side by side in the length direction LD. As an example, the distance between the side holes is 1 cm to 5 mm. The first side hole 16, the second side hole 26, and the third side hole 36 are arranged at equal intervals. In addition, if the possibility that the distribution of the chemical solution is biased is not taken into consideration, the side holes may be formed at irregular intervals. Further, in the first side hole 16, the second side hole 26, and the third side hole 36, a plurality of side holes may be arranged in two or three rows, and the plurality of side holes are arranged in a zigzag pattern. It may be in a staggered arrangement.

As an example, the first side hole 16, the second side hole 26, and the third side hole 36 are each formed from 5 to 10 pieces, and in the example of FIG. 2, 5 pieces are formed. However, the first side hole 16, the second side hole 26, and the third side hole 36 may be formed from two to four, or six or more. Further, the first side hole 16, the second side hole 26, and the third side hole 36 have a circular shape. However, the first side hole 16, the second side hole 26, and the third side hole 36 may have other shapes such as a fan shape, an elliptical shape, a polygonal shape, or a teardrop shape.

As an example, the first region 1C in which the first side hole 16 is formed is provided at a position 1 cm away from the distal end D. Further, the first region 1C, the second region 2B in which the second side hole 26 is formed, and the third region 3A in which the third side hole 36 is formed are each 5 cm in the length direction of the catheter 100. It has a length of about 10 cm. Although the first region 1C and the second region 2B, and the second region 2B and the third region 3A are adjacent to each other, a space may be provided between the regions. Further, a side hole non-forming region 4D is provided at a position closer to the proximal end P than the side hole forming region in which the first side hole 16, the second side hole 26, and the third side hole 36 are formed. ing. The side hole forming region including the first region 1C, the second region 2B, and the third region 3A is longer than the side hole non-forming region 4D in the length direction LD. As an example, the length of the side hole forming region 4D is 10 cm to 15 cm, and the length of the side hole forming region is 20 cm to 30 cm.

Further, the first side hole 16, the second side hole 26, and the third side hole 36 are formed at different positions in the length direction LD. That is, the third region 3A in which the third side hole 36 is formed, the second region 2B in which the second side hole 26 is formed, and the first region 1C in which the first side hole 16 is formed. The positions differ in the length direction LD. That is, the third region 3A, the second region 2B, and the first region 1C are set so as not to overlap each other. As a result, the effect of the drug solution can be exerted on the sites at different positions in the cranio-caudal direction at the same time. For example, an anesthetic solution can be injected into the epidural space to exert an analgesic effect on both the thoracic and lumbar nerves. In addition, it can exert an analgesic effect on the nerves of the cervical spine, thoracic spine and lumbar spine.

In addition, it is possible to search for an injection position where the effect of the drug solution (for example, analgesic effect) is high. For example, the analgesic effects of injection through the first lumen 15, injection through the second lumen 25, and injection through the third lumen 35 can be compared. This makes it possible to grasp the injection position having a higher analgesic effect. In addition, pain control or pain management can be performed. That is, the injection amount at the injection position where the effect of the drug solution is high can be selectively increased or decreased. Then, even when the site where the patient feels pain changes with time, the injection amount can be adjusted according to the injection position of the site where the patient feels pain.

Further, the first side hole 16, the second side hole 26, and the third side hole 36 are formed so as to open in different directions in the circumferential direction. Specifically, the third side hole 36 is opened in the upper part in FIG. 2, the second side hole 26 is opened in the lower part in FIG. 2, and the first side hole 16 is opened in the middle side in FIG. ing. As a result, the positions where the side holes are formed are dispersed, so that a decrease in the strength of the catheter body 50 can be suppressed. Further, since the drug solution can be injected in a plurality of different directions toward the periphery of the catheter body 50, it is possible to suppress the bias of the distribution of the drug solution.

In addition, the catheter 100 includes an occlusion portion 60 that inhibits the outflow of liquid. In the example of FIG. 2, the distal end D of the catheter 100 is sealed. Specifically, as shown in FIG. 2D, a first obstruction portion 61 that inhibits the outflow of the first liquid is formed in the first lumen 15. The first obstruction portion 61 is formed at a position closer to the distal end D than the first side hole 16. Further, in the second lumen 25, a second obstruction portion 62 that inhibits the outflow of the second liquid is formed. The second obstruction portion 62 is formed at a position closer to the distal end D than the second side hole 26. Further, the third lumen 35 is formed with a third obstruction portion 63 that inhibits the outflow of the third liquid. The third obstruction portion 63 is formed at a position closer to the distal end D than the third side hole 36.

As an example, the obstruction 60 can be formed by welding each lumen. Alternatively, a lid-like member that serves as the closure 60 may be adhered to the distal end D. Further, the formation position of each obstruction portion is not limited to the vicinity of the distal end D or the distal end D. For example, the second closed portion 62 may be formed in the vicinity of the second region 2B or between the first region 1C and the second region 2B. Further, the third closed portion 63 may be formed in the vicinity of the third region 3A or between the second region 2B and the third region 3A. The first closed portion 61, the second closed portion 62, and the third closed portion 63 may integrally form the closed portion 60. However, by forming the obstruction portion 60 at the distal end D, it becomes easy to visually confirm the liquid that passes through the obstruction portion 60 and leaks from the distal end D. Further, the first closed portion 61, the second closed portion 62, and the third closed portion 63 may be separate bodies. By forming each closed portion, the drug solution can be reliably injected from the side holes formed at different positions corresponding to each of the lumens, as compared with the case where the drug solution flows out from the opening at the tip.

According to the catheter 100 of the first embodiment, the drug solution can be reliably discharged from each side hole, and the effect of the drug solution can be exerted on a wider range of sites. In addition, the drug solution can be injected into multiple sites in the cranio-caudal direction of the patient. In addition, it is possible to grasp the injection position where the effect of the chemical solution is high. The closed portion 60 is configured to completely inhibit the outflow of the liquid, but at least one of the closed portions may be configured with a filter or the like that slightly permeates the drug solution. Even in this case, as a result of inhibiting the outflow of the drug solution that permeates each obstruction, most of the drug solution flows out from each side hole, so that the effect of the drug solution can be exerted on a wide range of sites.

[Second Embodiment]
The second embodiment will be described with reference to FIG. In the second embodiment, the arrangement of the plurality of side holes in the catheter 200 is different from that in the first embodiment. Specifically, in the catheter 200, the plurality of side holes are opened so as to be separated from each other on the outer peripheral surface of the catheter body 250. Further, among the adjacent side holes 216A and 216B, the position of one side hole 216A on the distal end D side and the position of the other side hole 216B on the proximal end P side are the positions of the catheter body 250. A plurality of first side holes 216 are arranged so as to be different in the longitudinal direction LD and the circumferential direction CD orthogonal to the longitudinal direction LD. In FIG. 3, for convenience of explanation, a plurality of first side holes 216 are mainly shown. However, the second lumen 225 and the plurality of second side holes 226, and the third lumen 235 and the plurality of third side holes (not shown) are the first lumen 215 and the plurality of first side holes 216. It is formed on the catheter body 250 in a similar manner. Therefore, in the following, the first lumen 215 and the plurality of first side holes 216 will be described, and other description will be omitted. Further, in FIG. 3, the first lumen 215, the second lumen 225, and the third lumen 235 are not visible from the outside, but are shown by broken lines for convenience of explanation. Further, the first side hole 216 shown by the broken line is located on the back side of the catheter 200 when the observation direction of FIG. 3 is the front side.

In the description of the second embodiment, the differences from the first embodiment will be described, and the same reference numbers will be given to the components already described, and the description thereof will be omitted. Unless otherwise specified, the components with the same reference numeral perform substantially the same operation and function, and the action and effect thereof are also substantially the same.

In the catheter 200, the first side hole 216 constituting the flow path of the first liquid flowing from the inside to the outside is opened so as to be separated from each other on the outer peripheral surface of the catheter main body 250. Further, among the side holes 216A and 216B adjacent to each other, the position of one side hole 216A on the distal end D side and the position of the other side hole 216B on the proximal end P side are the positions of the catheter body 250. A plurality of first side holes 216 are arranged so as to be different in the length direction LD and different in the circumferential direction CD orthogonal to the length direction LD. The circumferential direction CD is a direction along the outer peripheral surface of the substantially columnar catheter main body 250.

Specifically, the first region 1C extending in the length direction LD is set so as to make at least one circumference along the outer peripheral surface of the catheter main body 250. Then, the ten first side holes 216 are arranged so as to be separated from each other in the length direction LD so as to make at least one circumference around the center line of the catheter body 250 along the outer peripheral surface of the catheter body 250. There is. Therefore, the plurality of first side holes 216 are open in each direction toward the periphery of the catheter body 250. Further, similarly to the first side hole 216, the second side hole 226 and the third side hole (not shown) also make at least one circumference around the center line of the catheter body 250 along the outer peripheral surface of the catheter body 250. It is arranged in. As an example, such an arrangement can be formed by twisting the catheter body 50 of the first embodiment so as not to return to its original shape. The first side holes 216 are formed at equal intervals in the length direction LD. However, the intervals between the first side holes 216 may not match. The first side holes 216 are arranged so as to make at least one circumference along the outer peripheral surface of the catheter body 250 even if the spacing is inconsistent. The number of the first side holes 216 may be at least 10 or 11 or more.

As shown in FIG. 1, nerves are present on both sides of the epidural space. Therefore, if each side hole faces one of the nerves, the distribution of the drug solution will be biased. That is, the amount of the drug solution that has an effect on one nerve and the amount of the drug solution that has an effect on the other nerve are different. Therefore, the efficiency of exerting the effect of the chemical solution is reduced. On the other hand, according to the catheter 200 of the second embodiment, it is possible to prevent a plurality of side holes from being directed to only one of the nerves. As a result, the drug solution can be injected in a plurality of different directions toward the periphery of the catheter body 250. This can exert the effect of the drug solution on both nerves.

According to the catheter 200 of the second embodiment described above, the drug solution can be reliably discharged from each side hole, and the effect of the drug solution can be exerted on a wider range of sites. In addition, the drug solution can be injected into multiple sites in the cranio-caudal direction of the patient. In addition, it is possible to grasp the injection position where the effect of the chemical solution is high. Further, since the drug solution can be injected in a plurality of different directions toward the periphery of the catheter body 250, it is possible to suppress the bias of the distribution of the drug solution.

[Third Embodiment]
The third embodiment will be described with reference to FIG. 4A shows a cross section of A'-A'through the third side hole 336, FIG. 4B shows a cross section of B'-B'through the second side hole 326, and FIG. 4C shows a C'through the first side hole 316. -C'Cross section is shown. In the third embodiment, the arrangement of the plurality of side holes in the catheter 300 is different from that in the first and second embodiments. Specifically, in the catheter 300, the plurality of side holes are opened so as to be separated from each other on the outer peripheral surface of the catheter main body 350. Further, the plurality of first side holes 316, the plurality of second side holes 326, and the plurality of third side holes 336 are arranged so as to be staggered in the lengthwise LD of the catheter body 350. Although the illustration of the first lumen 315, the second lumen 325, and the third lumen 335 is omitted, they are formed in the same manner as in the first embodiment. Further, in the description of the third embodiment, the differences from the first embodiment will be described, and the same reference numbers will be given to the components already described, and the description thereof will be omitted. Unless otherwise specified, the components with the same reference numeral perform substantially the same operation and function, and the action and effect thereof are also substantially the same.

As shown in FIGS. 4A to 4C, the catheter body 350 is formed with a third lumen 335, a second lumen 325, and a first lumen 315. The third lumen 335, the second lumen 325, and the first lumen 315 extend side by side in a state of being separated from each other by a partition wall. Then, in the catheter 300, the first side hole 316 constituting the flow path of the first liquid flowing from the inside to the outside is opened so as to be separated from each other on the outer peripheral surface of the catheter main body 350. That is, as shown in FIG. 4C, each first side hole 316 is a through hole leading to the first lumen 315. Further, the second side hole 326 constituting the flow path of the second liquid flowing from the inside to the outside is opened so as to be separated from each other on the outer peripheral surface of the catheter main body 350. Then, as shown in FIG. 4B, each second side hole 326 is a through hole leading to the second lumen 325. Further, the third side hole 336 constituting the flow path of the third liquid flowing from the inside to the outside is opened so as to be separated from each other on the outer peripheral surface of the catheter main body 350. Then, as shown in FIG. 4A, each third side hole 336 is a through hole leading to the third lumen 335.

The first side hole 316 is arranged so as to be linearly arranged in the length direction LD of the catheter main body 350. That is, the first side holes 316 are arranged so that the center of each first side hole 316 is located on a straight line. The second side hole 326 and the third side hole 336 are also arranged in the same manner as the first side hole 316. However, the plurality of first side holes 316 do not have to be aligned linearly in the length direction LD. For example, the plurality of first side holes 316 may be arranged so that the line connecting the centers of the plurality of first side holes 316 is zigzag or curved. Further, each first side hole 316 is formed at a position different from other side holes including the second side hole 326 and the third side hole 336 in the circumferential direction along the outer peripheral surface of the catheter main body 350. .. That is, the plurality of first side holes 316, the plurality of second side holes 326, and the plurality of third side holes 336 are formed so as to open in different directions in the circumferential direction. The same applies to the second side hole 326 and the third side hole 336. Further, the arrangement mode of the plurality of first side holes 316 and at least one of the second side holes 326 and the third side holes 336 may be different. For example, a plurality of first side holes 316 may be arranged linearly, and at least one of the second side hole 326 and the third side hole 336 may be arranged in a zigzag manner.

As shown in FIG. 1, nerves are present on both sides of the epidural space. Therefore, if any of the first side hole 316, the second side hole 326, and the third side hole 336 is directed to one of the nerves, the distribution of the drug solution will be biased. That is, even if a sufficient amount of drug solution can be injected to exert an effect on one nerve, a sufficient amount of drug solution cannot be injected into the other nerve. Therefore, the efficiency of exerting the effect of the chemical solution is reduced. On the other hand, according to the catheter 300 of the third embodiment, it is possible to prevent any of the first side hole 316, the second side hole 326 and the third side hole 336 from facing only one nerve. As a result, even if the drug solution is injected into the first lumen 315 and a sufficient effect is not obtained, the effect is obtained through the second lumen 325 or the third lumen 335 in addition to or in place of the first lumen 315. A sufficient amount of drug solution can be infused to exert. This can exert the effect of the drug solution on both nerves.

According to the catheter 300 of the third embodiment described above, the drug solution can be reliably discharged from each side hole, and the effect of the drug solution can be exerted on a wider range of sites. Further, the drug solution can be injected in a plurality of different directions toward the periphery of the catheter body 350. That is, the chemical solution can be discharged in the direction in which the first side hole 316 is open, the direction in which the second side hole 326 is open, and the direction in which the third side hole 336 is open. Further, since the drug solution can be injected in a plurality of different directions toward the periphery of the catheter main body 350, it is possible to suppress the bias of the distribution of the drug solution.

[Fourth Embodiment]
The fourth embodiment will be described with reference to FIG. In the fourth embodiment, the arrangement of the plurality of first side holes 416 in the catheter 400 is different from that of the first embodiment. Specifically, in the catheter 400, the plurality of first side holes 416 are opened so as to be separated from each other on the outer peripheral surface of the catheter main body 450. Further, among the side holes 416A and 416B adjacent to each other, the position of one side hole 416A on the distal end D side is the position of the other side hole 416B on the proximal end P side. A plurality of first side holes 416 are arranged so as to be different in the longitudinal direction LD and the circumferential direction CD orthogonal to the longitudinal direction LD. Further, the fourth embodiment is different from the first to third embodiments in that the catheter 400 has only the first lumen 415. That is, the catheter 400 is not formed with a second lumen and a plurality of second side holes, and a third lumen and a plurality of third side holes. In FIG. 5, the first lumen 415 is not visible from the outside, but is shown by a solid line for convenience of explanation. Further, the first side hole 416 shown by the broken line is located on the back side of the catheter 400 when the observation direction of FIG. 5 is the front side.

In the description of the fourth embodiment, the differences from the first to third embodiments will be described, and the same reference numbers will be given to the components already described, and the description thereof will be omitted. Unless otherwise specified, the components with the same reference numeral perform substantially the same operation and function, and the action and effect thereof are also substantially the same.

In the catheter 400, the first lumen 415 is formed as one lumen, and a plurality of first side holes 416 constituting the flow path of the first liquid flowing from the inside to the outside are arranged. The plurality of first side holes 416 are opened so as to be separated from each other on the outer peripheral surface of the catheter body 450. Further, among the side holes 416A and 416B adjacent to each other, the position of the side hole 416A on the distal end D side and the position of the side hole 416B on the proximal end P side are the same as the position of the side hole 416B on the proximal end P side in the length direction LD of the catheter body 450. A plurality of first side holes 416 are arranged so as to be different in the circumferential direction CD and different in the circumferential direction CD.

Specifically, the first region 1C extending in the length direction LD is set so as to make at least one circumference along the outer peripheral surface of the catheter main body 450. The plurality of first side holes 416 are arranged so as to be separated from each other in the length direction LD so as to make at least one circumference around the center line of the catheter body 450 along the outer peripheral surface of the catheter body 450. .. Therefore, the plurality of first side holes 416 are open in each direction toward the periphery of the catheter body 450. The first side holes 416 are formed at equal intervals in the length direction LD. However, the intervals between the first side holes 416 may not match. The first side holes 416 are arranged so as to make at least one circumference along the outer peripheral surface of the catheter body 450 even if the spacing is inconsistent.

According to the catheter 400 of the fourth embodiment described above, the drug solution can be reliably discharged from each side hole, and the effect of the drug solution can be exerted on a wider range of sites. Further, since the drug solution can be injected in a plurality of different directions toward the periphery of the catheter body 450, it is possible to suppress the bias of the distribution of the drug solution. The first side hole 416 is formed over a region other than the side hole non-forming region 4D (FIG. 2). However, the first side hole 416 may be formed only in the first region 1C having a length of about 5 cm to 10 cm.

Although the present invention has been described above with reference to each embodiment, the present invention is not limited to the above embodiment. The present invention also includes inventions modified to the extent not contrary to the present invention, and inventions equivalent to the present invention. In addition, each embodiment and each modification can be appropriately combined as long as it does not contradict the present invention.

For example, the catheter 100 may have only two lumens or may have four or more lumens. Even in this case, side holes are formed in each lumen, and the side hole forming regions for each lumen are set at different positions in the length direction. Further, the third lumen 35, the second lumen 25, and the first lumen 15 may extend so as to be aligned in a straight line. For example, the third lumen 35, the second lumen 25, and the first lumen 15 may all be composed of tubes having a circular cross-sectional shape. In this case, the tubes can be bonded together.

1C: First region (side hole forming region)
2B: Second region (side hole forming region)
3A: Third region (side hole forming region)
4D: Side hole non-forming region 15: 1st lumen 16: 1st side hole 25: 2nd lumen 26: 2nd side hole 35: 3rd lumen 36: 3rd side hole 61: 1st closed portion 62 : Second occlusion 63: Third occlusion 100: Catheter 200: Catheter 215: First lumen 216: First side hole 300: Catheter 315: First lumen 316: First side hole 325: Second lumen 326: 2nd side hole 335: 3rd lumen 336: 3rd side hole 400: Catheter 415: 1st lumen 416: 1st side hole CD: Circumferential direction D: Distal end LD: Length direction P: Proximal end

Claims (7)

A catheter for injecting fluid into the epidural space, with a proximal end and a distal end.
A first lumen in which a plurality of first side holes constituting a flow path of the first liquid flowing from the inside to the outside are formed, and
A second lumen that is isolated from the first lumen so as not to communicate with the fluid and has a plurality of second side holes forming a flow path of the second liquid flowing from the inside to the outside.
A third, which is isolated from the first lumen and the second lumen so as not to communicate with the fluid, and has a plurality of third side holes forming a flow path of the third liquid flowing from the inside to the outside. With a lumen,
In the first lumen, a first obstruction portion that inhibits the outflow of the first liquid is formed on the distal end side of the first side hole.
The first side hole is formed so as to be separated from each other in the length direction of the catheter.
In the second lumen, a second obstruction portion that inhibits the outflow of the second liquid is formed on the distal end side of the second side hole.
The second side hole is formed on the proximal end side of the first side hole so as to be separated from each other in the length direction.
In the third lumen, a third obstruction portion that inhibits the outflow of the third liquid is formed on the distal end side of the third side hole.
The third side hole is formed on the proximal end side of the second side hole so as to be separated from each other in the length direction.
The first lumen is connected to a first extension into which the first liquid flows, and extends adjacent to the second lumen and the third lumen.
The second lumen is connected to a second extension into which the second liquid flows, and extends adjacent to the first lumen and the third lumen.
The third lumen is connected to a third extension into which the third liquid flows, and extends adjacent to the first lumen and the second lumen .
A catheter in which the first lumen, the second lumen, and the third lumen have a twisted shape along the length direction . The catheter according to claim 1, wherein at least one of the first side hole, the second side hole, and the third side hole is arranged so as to make at least one circumference around the center line of the catheter. The plurality of the first side holes, the plurality of the second side holes, and the plurality of the third side holes are such that the position of one side hole on the distal end side of the side holes adjacent to each other is the other. The catheter according to claim 1 or 2, wherein the positions of the side holes are arranged differently in the length direction and the circumferential direction orthogonal to the length direction. The catheter according to claim 1, wherein the first side hole, the second side hole, and the third side hole are formed so as to open in different directions in a circumferential direction orthogonal to the length direction. .. A side hole non-forming region is provided on the proximal end side of the side hole forming region in which the first side hole, the second side hole, and the third side hole are formed.
The catheter according to any one of claims 1 to 4, wherein the side hole forming region is longer than the side hole forming region in the length direction. Claims 1 to 5 , wherein the second obstruction portion is formed between a first region in which the first side hole is formed and a second region in which the second side hole is formed. The catheter according to any one . The catheter according to claim 6, wherein the third occlusion portion is formed between the second region and the third region in which the third side hole is formed.

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