JP6978903B2 - Relap device and relap system - Google Patents

Description

The present invention relates to a relap device and a relap system for refolding a balloon of a once expanded balloon catheter.

Balloon catheters used in the treatment of dilating narrowed areas of blood vessels are known. The balloon catheter is introduced into the body with the balloon folded. The balloon is guided to the narrowed part of the blood vessel and then expands to expand the blood vessel. The balloon catheter is then removed from the body. Balloon catheters taken outside the body may be reused. In this case, it is necessary to fold the once expanded balloon to its original state. Patent Document 1 discloses a rewrapping device for rewrapping (refolding) a balloon. The relap device has a tubular shape with enlarged diameter portions formed at both ends. The user slides the relap device from the connector side (referred to as "base end side") toward the balloon side (referred to as "tip side") along the shaft. The balloon is rewrapped as the relap device passes through the position of the balloon.

Utility Model Registration No. 3115667

It is premised that the relap device is used by moving it from the proximal end side to the distal end side. This is because the relap device can be restricted from moving by holding the shaft as it passes through the position of the balloon. Here, after moving the relap device to rewrap the balloon, the relap device is placed on the distal end side with respect to the balloon. Therefore, when the balloon is to be relapped by the relap device more than once, the relap device arranged on the tip side with respect to the balloon must be moved to the original base end side. During this movement, a kink or the like may be generated by the force acting on the balloon from the relap device. In this case, when the balloon is re-expanded, it may not be properly expanded, and the narrowed portion of the blood vessel may not be properly expanded.

An object of the present invention is to provide a relap device and a relap system capable of easily rewrapping a balloon a plurality of times.

The relap device according to the first aspect of the present invention has a wall portion extending in a predetermined axial direction, each having a wall portion having a substantially arcuate cross-sectional shape orthogonal to the axial direction, and the axial direction and the wall portion. A relap device including a plurality of guide portions arranged in an intersecting cross-sectional direction and at least one connecting portion that connects two guide portions adjacent to the cross-sectional direction among the plurality of guide portions and is bendable. In a state where the at least one connecting portion is not bent and the two guide portions are not in contact with each other, the ends of the plurality of guide portions in the direction along the arc of each of the wall portions are the other. and the away from the end of the guide portion, the case where the two guide portions in accordance with the bending of the at least one connecting portion is in contact with, said end of said wall portion of each of the plurality of guide portions It is characterized in that it comes into contact with each other and forms a guide hole extending along the axial direction.

The relap device can pass the shaft through the guide hole by bending at least one connecting portion of the balloon catheter while being arranged near the shaft on the proximal end side of the balloon. In this state, the relap device moves relative to the balloon from the proximal end side to the distal end side, so that the balloon can be folded. Further, the relap device can temporarily take out the balloon catheter from the guide hole by extending the connecting portion. Therefore, when the balloon is folded a plurality of times by the relap device, the user can again bend at least one connecting portion with the relap device arranged in the vicinity of the shaft and pass the shaft through the guide hole. That is, it is not necessary to move the relap device from the distal end side to the proximal end side with respect to the balloon and pass the balloon through the guide hole. Therefore, the relap device can easily fold the balloon even if the balloon is relapped multiple times.

In the first aspect, at least one of the plurality of guide portions may have a first engagement portion with which the catheter shaft is engaged. In this case, the relap device can stabilize the position of the balloon catheter with respect to the relap device by engaging the shaft with the first engaging portion. Therefore, the user can prevent the balloon catheter from being displaced with respect to the relap device, so that the balloon can be easily folded.

In the first aspect, the wall portion includes a first wall portion and a second wall portion arranged in the axial direction, and the diameter of the first wall portion is the diameter of the second wall portion in a cross section orthogonal to the axial direction. It may be larger than the diameter of. In this case, by inserting the balloon into the guide hole from the first wall side in the axial direction, the balloon can easily enter the guide hole.

In the first aspect, the diameter of the first wall portion may become larger from the side closer to the second wall portion to the side separated from the side in the axial direction. In this case, by moving the balloon from the first wall side of the guide hole to the second wall side, the balloon can be moved from the larger diameter side to the smaller diameter side of the guide hole. In this case, the relap device can gradually fold the balloon into smaller pieces, so that the balloon can be easily folded.

In the first aspect, at least one of the plurality of guide portions may be urged to reduce the cross-sectional area of the guide holes. In this case, the relap device can apply a force toward the center of the guide hole to the balloon passing through the guide hole. Therefore, the relap device can fold the balloon smaller.

In the first aspect, at least one of the plurality of guide portions may be provided with a reinforcing portion that reinforces the wall portion. In this case, the relap device can suppress the expansion of the diameter of the guide hole by the reinforcing portion even when an outward force acts on the inner wall when the balloon passes through the guide hole. Therefore, the relap device can fold the balloon to an appropriate size.

In the first aspect, unevenness may be formed on the wall portion. In this case, the relap device can locally apply a force in the direction toward the central axis to the balloon passing through the guide hole by the unevenness formed on the wall portion. In this case, the relap device can easily fold the balloon.

In the first aspect, a grain may be formed on the wall portion. In this case, the relap device can reduce the resistance acting on the balloon passing through the guide hole. Therefore, the user can suppress the force required to move the relap device toward the tip side in the process of rewrapping the balloon.

In the first aspect, the plurality of guide portions may include a second engaging portion with which the syringe is engaged. In this case, the user can inject a liquid from the syringe into the guide hole with at least one connecting portion bent to clean the guide hole.
In the first aspect, each of the plurality of guide portions has a contact surface on which the wall portion is formed, and the two guide portions are connected by the at least one connecting portion according to the bending of the at least one connecting portion. The contact surfaces of the plurality of guide portions may be arranged in the same plane in a state where the contact surfaces of the guide portions are in contact with each other and the at least one connecting portion is not bent.
In the first aspect, when the two guide portions come into contact with each other according to the bending of the at least one connecting portion, a plurality of the guide holes may be formed.

The relap system according to the second aspect of the present invention includes a plurality of relap devices according to the first aspect. According to the second aspect, the user can rewrap the balloon using a plurality of relap devices.

It is a perspective view of the relap device 1 (the first state). It is a perspective view of the relap device 1 (second state). FIG. 2 is a cross-sectional view taken along the line AA of FIG. 2 as viewed from the direction of an arrow, and is a diagram showing how to use the relap device 1. It is a perspective view of the relap system 2 including the relap devices 2A and 2B (first state). It is a perspective view of the relap system 2 including the relap device 2A (second state) and the relap device 2B (first state). It is a perspective view of the relap system 2 including the relap devices 2A and 2B (second state). It is a perspective view of the relap device 3 (the first state). It is a perspective view of the relap device 3 (second state). It is a perspective view of the relap device 4 (first state). It is a figure which looked at the relap device 5 (second state) from the front side. It is a perspective view of the relap device 1 (second state) in the modification.

<First Embodiment>
The relap device 1 according to the first embodiment of the present invention will be described with reference to FIGS. 1 to 3. The upper left side, lower right side, lower left side, upper right side, upper side, and lower side of FIG. 1 are the left side, right side, front side, lower side, upper side, and lower side of the relap device 1 in the first state described later, respectively. Define.

As shown in FIG. 1, the relap device 1 has guide portions 11, 12, and a connecting portion 18. The guide portions 11 and 12 have the same shape, respectively. The guide portions 11 and 12 have a rectangular substantially plate shape and are arranged side by side in the left-right direction. The longitudinal direction of the guide portions 11 and 12 extends in the front-rear direction, and the lateral direction extends in the left-right direction. The left and right corners of the lower ends of the guide portions 11 and 12 are curved. The guide portion 11 is adjacent to the guide portion 12 on the left side. As the material of the guide portions 11 and 12, a thermoplastic resin such as polypropylene can be used.

The connecting portion 18 connects the right end portion of the guide portion 11 and the left end portion of the guide portion 12. The connecting portion 18 has a curved plate shape. The connecting portion 18 can be bent by elastic deformation. FIG. 1 shows a state (hereinafter, referred to as “first state”) of the relap device 1 when the connecting portion 18 is extended. FIG. 2, which will be described later, shows a state of the relap device 1 (hereinafter, referred to as “second state”) when the connecting portion 18 is bent.

Of the guide portions 11, the wall portions 14 and 15 are formed on the surface (hereinafter referred to as "contact surface 11A") arranged on the upper side in the first state. Of the guide portions 12, the wall portions 16 and 17 are formed on the surface (hereinafter referred to as "contact surface 12A") arranged on the upper side in the first state. The wall portions 14 to 17 have the same shape. The wall portions 14 to 17 are groove-shaped recesses, respectively. The wall portions 14 to 17 extend linearly along the front-rear direction. The wall portions 14 to 17 extend in parallel with each other. The wall portions 14 and 15 extend from the front end portion to the rear end portion of the contact surface 11A. The wall portion 14 is adjacent to the left side of the wall portion 15. The wall portions 16 and 17 extend from the front end portion to the rear end portion of the contact surface 12A. The wall portion 16 is adjacent to the left side of the wall portion 17. The cross-sectional shape when the wall portions 14 to 17 are cut in a plane orthogonal to the front-rear direction is an arc shape.

The wall portion 14 has a second engaging portion 14A, a first wall portion 14B, and a second wall portion 14C. The second engaging portion 14A, the first wall portion 14B, and the second wall portion 14C are arranged in this order from the front side to the rear side. The lengths of the first wall portion 14B and the second wall portion 14C in the front-rear direction are substantially the same. The length of the second engaging portion 14A in the front-rear direction is approximately 1/4 of the length of each of the first wall portion 14B and the second wall portion 14C in the front-rear direction. The rear end portion of the second engaging portion 14A is connected to the front end portion of the first wall portion 14B. The front end of the second wall 14C is connected to the rear end of the first wall 14B. The second engaging portion 14A, the first wall portion 14B, and the second wall portion 14C each have a diameter of a cross-sectional shape (arc shape) when cut in a plane orthogonal to the front-rear direction (hereinafter, simply "second engaging portion". The part / the diameter of the first wall part / the diameter of the second wall part ”) is different. The diameter of the second engaging portion 14A is equal from the front end portion to the rear end portion. Hereinafter, the diameter of the second engaging portion 14A is referred to as L1. The diameter of the second wall portion 14C is equal from the front end portion to the rear end portion. Hereinafter, the diameter of the second wall portion 14C is referred to as L2. The diameter of the front end portion of the first wall portion 14B is equal to the diameter of the second engaging portion 14A and is L1. The diameter of the rear end portion of the first wall portion 14B is equal to the diameter of the second wall portion 14C and is L2. The diameter of the first wall portion 14B linearly changes from L2 to L1 from the rear end portion to the front end portion. That is, the diameter of the first wall portion 14B increases in the front-rear direction toward the side away from the side closer to the second wall portion 14C. The diameter of the first wall portion 14B is equal to or larger than the diameter of the second wall portion 14C.

The wall portion 15 has a second engaging portion 15A, a first wall portion 15B, and a second wall portion 15C. The wall portion 16 has a second engaging portion 16A, a first wall portion 16B, and a second wall portion 16C. The wall portion 17 has a second engaging portion 17A, a first wall portion 17B, and a second wall portion 17C. The second engaging portions 15A, 16A, and 17A each correspond to the second engaging portion 14A in the wall portion 14. The first wall portions 15B, 16B, and 17B each correspond to the first wall portion 14B in the wall portion 14. The second wall portions 15C, 16C, and 17C each correspond to the second wall portion 14C in the wall portion 14.

The guide portion 11 further has first engaging portions 14D and 15D. The first engaging portion 14D is provided at a position in the center of the second wall portion 14C in the front-rear direction. The first engaging portion 14D projects from the left end portion of the second wall portion 14C toward the right side, and covers a part of the second wall portion 14C from above. The first engaging portion 15D is provided at a position in the center of the second wall portion 15C in the front-rear direction. The first engaging portion 15D projects from the left end portion of the second wall portion 15C toward the right side, and covers a part of the second wall portion 14C from above.

FIG. 2 shows a state (second state) of the relap device 1 when the connecting portion 18 is bent. Hereinafter, when the relap device 1 in the second state is described, the upper left side, the lower right side, the lower left side, the upper right side, the upper side, and the lower side of FIG. 2 are the left side, the right side, and the front side of the relap device 1, respectively. , Lower, upper, and lower.

As shown in FIG. 2, as the connecting portion 18 bends, the contact surface 11A of the guide portion 11 and the contact surface 12A of the guide portion 12 face each other in the vertical direction and abut against each other. Further, the first wall portion 14B and the second wall portion 14C (see FIG. 1) of the guide portion 11 and the first wall portion 17B and the second wall portion 17C (see FIG. 1) of the guide portion 12 are arranged in the vertical direction. The guide hole 131 is formed. Hereinafter, the portion of the guide hole 131 corresponding to the first wall portions 14B and 17B (see FIG. 1) is referred to as “first guide hole 131B” and corresponds to the second wall portions 14C and 17C (see FIG. 1). The portion to be used is referred to as "second guide hole 131C". Further, the second engaging portion 14A and the second engaging portion 17A (see FIG. 1) are arranged side by side in the vertical direction to form the second engaging portion 131A. The second engaging portion 131A, the first guide hole 131B, and the second guide hole 131C extend side by side in the front-rear direction and penetrate the guide portions 11 and 12.

Similarly, the first wall portion 15B and the second wall portion 15C (see FIG. 1) of the guide portion 11 and the first wall portion 16B and the second wall portion 16C (see FIG. 1) of the guide portion 12 are vertically aligned. They are arranged side by side to form guide holes 132. Hereinafter, the portion of the guide hole 132 corresponding to the first wall portions 15B and 16B (see FIG. 1) is referred to as “first guide hole 132B” and corresponds to the second wall portions 15C and 16C (see FIG. 1). The portion to be used is referred to as "second guide hole 132C". Further, the second engaging portion 15A and the second engaging portion 16A (see FIG. 1) are arranged side by side in the vertical direction to form the second engaging portion 132A. The second engaging portion 132A, the first guide hole 132B, and the second guide hole 132C extend in the front-rear direction and pass through the guide portions 11 and 12.

A method of using the relap device 1 will be described with reference to FIG. The relap device 1 is used to fold (rewrap) the balloon 9A of the balloon catheter 9 into a contracted state. The balloon catheter 9 has a balloon 9A and a catheter shaft 9B. The balloon 9A is a three-blade balloon in which three blades are formed in a contracted state. The balloon 9A is connected to one end of the catheter shaft 9B. Hereinafter, one end side of the balloon catheter 9 is referred to as "tip side", and the side opposite to the distal end side is referred to as "base end side". In the present embodiment, the diameter of the inflated balloon 9A is the diameter L1 of the second engaging portions 14A, 15A, 16A, 17A of the relap device 1, and the diameters L1 of the first wall portions 14B, 15B, 16B, 17B. It is assumed that the diameter is substantially the same as the diameter L1 of the front end portion of the above.

As shown in FIG. 3A, first, the relap device 1 in the first state (see FIG. 1) is prepared. A balloon catheter 9 including a balloon 9A is arranged above the guide portion 11. At this time, the orientation of the balloon catheter 9 in the anteroposterior direction is adjusted so that the distal end side of the balloon catheter 9 is arranged on the front side of the relap device 1 and the proximal end side of the balloon catheter 9 is arranged on the rear side of the relap device 1. .. Further, the position of the balloon catheter 9 in the anteroposterior direction is adjusted so that the balloon 9A is arranged in front of the front end portion of the guide portion 11. Further, the catheter shaft 9B is engaged with the first engaging portion 14D provided on the second wall portion 14C of the wall portion 14. As a result, the position of the balloon catheter 9 with respect to the guide portion 11 is maintained.

Next, as shown in FIG. 3 (B), the relap device 1 is in the second state (see FIG. 2) by bending the connecting portion 18 (see FIG. 1). The guide portion 12 is arranged on the upper side of the guide portion 11. The first wall portion 14B and the second wall portion 14C and the first wall portion 17B and the second wall portion 17C are arranged side by side in the vertical direction to form a guide hole 131. The second engaging portion 14A and the second engaging portion 17A are arranged side by side in the vertical direction to form the second engaging portion 131A. The catheter shaft 9B of the balloon catheter 9 is arranged inside the second engaging portion 131A, the first guide hole 131B, and the second guide hole 131C. The balloon 9A of the balloon catheter 9 is arranged in front of the second engaging portion 131A.

Next, as shown in FIG. 3C, the balloon catheter 9 is pulled toward the proximal end side. As a result, the balloon catheter 9 moves posteriorly to the relap device 1 in the second state (arrow Y1). The balloon 9A of the balloon catheter 9 enters the second engaging portion 131A from the front side of the relap device 1, further moves to the rear side, and enters the first guide hole 131B. Here, the diameter of the first guide hole 131B gradually decreases from L1 to L2 from the second engaging portion 131A side (front side) toward the second guide hole 131C side (rear side). Therefore, as the balloon 9A moves from the front side to the rear side in the first guide hole 131B, the balloon 9A receives a force from the first wall portions 14B and 17B and is gradually folded.

As shown in FIG. 3D, when the balloon catheter 9 further moves to the rear side (arrow Y2), the balloon 9A passes through the first guide hole 131B and enters the second guide hole 131C. As a result, the diameter of the folded balloon A contracts to L2, which is the same as the diameter of the second guide hole 131C. After that, the connecting portion 18 (see FIG. 1) is extended, so that the relap device 1 is in the first state (see FIG. 1). Since the guide portions 11 and 12 are separated from each other, the balloon catheter 9 can be taken out from the relap device 1 in a state where the balloon 9A is folded and contracted.

When the balloon 9A of the balloon catheter 9 is repeatedly contracted a plurality of times using the relap device 1, the user repeatedly executes the operations of FIGS. 9A to 9D. Therefore, in the process of rewrapping the balloon 9A, the user always moves the relap device 1 relative to the balloon catheter 9 from the proximal end side to the distal end side. Therefore, the user does not need to move the relap device 1 from the distal end side to the proximal end side of the balloon catheter 9.

The relap device 1 can engage the syringe with the second engaging portion 131A formed in the second state. Therefore, after using the relap device 1 to contract the balloon 9A of the balloon catheter 9, the user engages the syringe with the second engaging portion 131A and injects the cleaning liquid from the syringe into the guide holes 131 and 132. be able to. As a result, the user can clean the relap device 1 after use. Further, the user can also perform the same usage method as described above by using the guide hole 132.

<Action and effect of the first embodiment>
The user of the relap device 1 bends the connecting portion 18 in a state where the relap device 1 is arranged near the catheter shaft 9B on the proximal end side of the balloon 9A among the balloon catheters 9, and the relap device 1 is in the first state. To the second state. As a result, the catheter shaft 9B is arranged in the guide holes 131 and 132. In this state, the user moves the relap device 1 relative to the balloon 9A from the proximal end side to the distal end side. As a result, the balloon 9A can be folded and contracted. Further, for example, when the balloon 9A is folded and contracted for the second time or later, the user extends the connecting portion 18 of the relap device 1 to return the balloon 9A from the second state to the first state, and takes out the balloon catheter 9 from the relap device 1. .. Then, the user again bends the connecting portion 18 with the relap device 1 placed in the vicinity of the catheter shaft 9B, and moves the relap device 1 in the second state relative to the balloon 9A from the proximal end side to the distal end side. Let me. That is, since the balloon catheter 9 can be taken out by setting the relap device 1 in the first state, the user moves the relap device 1 from the distal end side to the proximal end side with respect to the balloon 9A to the guide hole 131. No need to pass a balloon. Therefore, the relap device 1 can easily fold the balloon 9A even when the balloon 9A is relapped a plurality of times.

The relap device 1 has a first engaging portion 14D on the second wall portion 14C and a first engaging portion 15D on the second wall portion 15C. When the catheter shaft 9B of the balloon catheter 9 is engaged with the first engaging portions 14D and 15D, the position of the balloon catheter 9 with respect to the relap device 1 is less likely to be displaced. In this way, the relap device 1 can stabilize the position of the balloon catheter 9 with respect to the relap device 1 by engaging the catheter shaft 9B with the first engaging portions 14D and 15D. Therefore, since the user can prevent the balloon catheter 9 from being displaced with respect to the relap device 1, the balloon 9A can be easily folded by the relap device 1.

The wall portion 14 has a first wall portion 14B and a second wall portion 14C. The diameter (L1 to L2) of the first wall portion 14B is equal to or larger than the diameter L2 of the second wall portion 14C. The same applies to the first wall portion 15B and the second wall portion 15C of the wall portion 15, the first wall portion 16B and the second wall portion 16C of the wall portion 16, and the first wall portion 17B and the second wall portion 17C of the wall portion 17. Is. In this case, by inserting the balloon 9A into the guide holes 131 and 132 from the front side of the first wall portions 14B, 15B, 16B and 17B, the balloon 9A can be easily entered into the guide holes 131 and 132.

The diameter of the first wall portion 14B increases toward the front side away from the rear side close to the second wall portion. The same applies to the first wall portions 15B, 16B and 17B. In this case, by moving the balloon 9A from the first guide holes 131B, 132B side of the guide holes 131, 132 toward the second guide holes 131C, 132C side, the balloon 9A is moved from the larger diameter side of the guide holes 131, 132. The balloon 9A can be moved towards the smaller side. In this case, since the relap device 1 can gradually fold and contract the balloon 9A, the balloon 9A can be easily folded.

The relap device 1 can engage the syringe with the second engaging portions 131A and 132A formed in the second state, and inject the cleaning liquid from the syringe into the guide holes 131 and 132. Thereby, the user can clean the wall portions 14 to 17 of the relap device 1 after use.

<Second Embodiment>
The rewrap system 2 according to the second embodiment of the present invention will be described with reference to FIGS. 4 to 6. As shown in FIG. 4, the relap system 2 has relap devices 2A and 2B. The relap devices 2A and 2B are arranged in the front-rear direction. The relap device 2A is adjacent to the front side of the relap device 2B. The rewrap system 2 has guide portions 21, 22, and 23. Each of the guide portions 21, 22, and 23 is a column whose cross-sectional shape is a fan shape with a central angle of 180 degrees when cut in a plane orthogonal to the front-rear direction. The guide portions 21, 22 and the guide portions 22, 23 are arranged side by side in the left-right direction, respectively. The guide portions 21 and 23 are adjacent to the guide portion 22 on the left side. The guide portions 21 and 23 are arranged side by side in the front-rear direction. The length of the guide portion 21 in the front-rear direction is approximately three times the length of the guide portion 23 in the front-rear direction. The value obtained by adding the lengths of the guide portions 21 and 23 in the front-rear direction is substantially equal to the length of the guide portion 22 in the front-rear direction. Hereinafter, the same configuration as the relap device 1 (see FIGS. 1 to 3) according to the first embodiment will be omitted.

The relap device 2A is composed of a guide portion 21, a part of the guide portion 22 on the front end side (referred to as “guide portion 221”), and a connecting portion 28A. The connecting portion 28A connects the right end portion of the guide portion 21 and the left end portion of the guide portion 221. Of the guide portions 21, the wall portion 24 is formed on the contact surface 21A arranged on the upper side in the first state in which the connecting portion 28A is extended. The wall portion 24 extends linearly from the front end portion to the rear end portion of the contact surface 21A. The wall portion 24 has a second engaging portion 24A, a first wall portion 24B, and a second wall portion 24C. A wall portion 25 is formed on the contact surface 221A arranged on the upper side of the guide portion 221 in the first state. The wall portion 25 extends linearly from the front end portion to the rear end portion of the contact surface 221A. The wall portion 25 has a second engaging portion 25A, a first wall portion 25B, and a second wall portion 25C. The shapes of the second engaging portions 24A and 25A, the first wall portions 24B and 25B, and the second wall portions 24C and 25C are the second engaging portions 14A and the first wall in the relap device 1 (see FIG. 1). Corresponds to the portion 14B, the second wall portion 14C, and the like.

The relap device 2B is composed of a guide portion 23, a part of the rear end side of the guide portion 22 (referred to as “guide portion 222”), and a connecting portion 28B. The connecting portion 28B connects the right end portion of the guide portion 23 and the left end portion of the guide portion 222. Of the guide portions 23, the wall portion 26 is formed on the contact surface 23A arranged on the upper side in the first state in which the connecting portion 28B is extended. The wall portion 26 extends linearly from the front end portion to the rear end portion of the contact surface 23A. The wall portion 26 has a first wall portion 26B and a second wall portion 26C. A wall portion 27 is formed on the contact surface 222A arranged on the upper side of the guide portion 222 in the first state. The wall portion 27 has a first wall portion 27B and a second wall portion 27C. The shapes of the first wall portions 26B and 27B and the second wall portions 26C and 27C correspond to the first wall portion 14B and the second wall portion 14C in the relap device 1 (see FIG. 1). The diameter of the front end portions of the first wall portions 26B and 27B is approximately ½ of the diameter of the front end portions of the first wall portions 24B and 25B of the relap device 2A. The diameters of the second wall portions 26C and 27C are the same as the diameters of the second wall portions 24C and 25C of the relap device 2A.

The wall portions 25 and 27 formed on the guide portion 22 are arranged in a straight line in the front-rear direction. The second engaging portion 25A, the first wall portion 25B, the second wall portion 25C, the first wall portion 27B, and the second wall portion 27C are arranged in this order from the front side to the rear side. When the relap devices 2A and 2B are in the first state, the wall portion 24 of the guide portion 21 and the wall portion 26 of the guide portion 23 are aligned in a straight line in the front-rear direction. The second engaging portion 24A, the first wall portion 24B, the second wall portion 24C, the first wall portion 26B, and the second wall portion 26C are arranged in this order from the front side to the rear side.

FIG. 5 shows a case where the connecting portion 28A is bent and the relap device 2A is in the second state with respect to the state of FIG. 4, and the relap device 2B is maintained in the first state. As the connecting portion 28A bends, the contact surface 21A of the guide portion 21 and the contact surface 221A of the guide portion 221 face each other in the vertical direction and come into contact with each other. Further, the first wall portion 24B and the second wall portion 24C (see FIG. 4) of the guide portion 21 and the first wall portion 25B and the second wall portion 25C (see FIG. 4) of the guide portion 221 are arranged in the vertical direction. The guide hole 29 is formed. Hereinafter, the portion of the guide hole 29 corresponding to the first wall portions 24B and 25B (see FIG. 4) is referred to as "first guide hole 29B" and corresponds to the second wall portions 24C and 25C (see FIG. 4). The part to be used is referred to as "second guide hole 29C". Further, the second engaging portion 24A (see FIG. 4) of the guide portion 21 and the second engaging portion 25A (see FIG. 4) of the guide portion 221 are arranged side by side in the vertical direction, and the second engaging portion 29A is arranged. Is formed. The second engaging portion 29A, the first guide hole 29B, and the second guide hole 29C extend side by side in the front-rear direction and penetrate the guide portions 21 and 221.

FIG. 6 shows a case where the connecting portion 28B is bent with respect to the state of FIG. 5 and the relap devices 2A and 2B are in the second state. As the connecting portion 28B bends, the contact surface 23A (see FIG. 4) of the guide portion 23 and the contact surface 222A (see FIG. 4) of the guide portion 22 face each other in the vertical direction and abut each other. Further, the first wall portion 26B and the second wall portion 26C (see FIG. 4) of the guide portion 23 and the first wall portion 27B and the second wall portion 27C (see FIG. 4) of the guide portion 222 are arranged in the vertical direction. The guide hole 30 is formed. Hereinafter, the portion of the guide hole 30 corresponding to the first wall portions 26B and 27B (see FIG. 4) is referred to as a “first guide hole 30B” and corresponds to the second wall portions 26C and 27C (see FIG. 4). The portion to be used is referred to as "second guide hole 30C". The second engaging portion 29A, the first guide hole 29B, the second guide hole 29C, the first guide hole 30B, and the second guide hole 30C extend side by side in the front-rear direction and penetrate the guide portions 21, 22, and 23. ..

The usage of the rewrap system 2 will be described. First, the relap devices 2A and 2B in the first state are prepared (see FIG. 4). A balloon catheter 9 (see FIG. 3) containing the balloon 9A is arranged above the guide portion 221. Next, when the connecting portions 28A and 28B are bent, the relap devices 2A and 2B are in the second state (see FIG. 6), and the guide holes 29 and 30 are formed. The catheter shaft 9B of the balloon catheter 9 is arranged inside the second engaging portion 29A and the guide holes 29 and 30. The balloon 9A is arranged in front of the second engaging portion 29A. Next, the balloon catheter 9 is pulled toward the proximal end. This causes the balloon catheter 9 to move posteriorly to the rewrap system 2. The balloon 9A enters the first guide hole 29B from the front side of the relap device 2A via the second engaging portion 29A. As the balloon 9A moves from the front side to the rear side in the first guide hole 29B, the balloon 9A receives a force from the first wall portions 24B and 25B and gradually contracts. When the balloon catheter 9 moves further to the rear side, the balloon 9A passes through the first guide hole 29B and enters the second guide hole 29C.

Further, the balloon 9A that has passed through the second guide hole 29C enters the first guide hole 30B. Here, since the diameter of the front end portion of the first guide hole 30B is larger than the diameter of the second guide hole 29C, the balloon 9A may inflate again. However, as the balloon 9A passes through the first guide hole 30B and moves from the front side to the rear side, the balloon 9A receives a force from the first wall portions 26B and 27B and contracts again. When the balloon catheter 9 moves further to the rear side, the balloon 9A passes through the first guide hole 30B and enters the second guide hole 30C. After that, the connecting portions 28A and 28B are extended, so that the relap devices 2A and 2B are in the first state (see FIG. 4). The balloon catheter 9 can be removed from the rewrap system 2 with the balloon 9A contracted. Since the diameter of the second guide hole 30C is smaller than the diameter of the second guide hole 29C, the balloon 9A can be folded stepwise by using the relap devices 2A and 2B. Further, the resistance for pulling out the balloon 9A is smaller when the balloon 9A communicates with the second guide hole 30C through the second guide hole 29C than when the balloon 9A is inserted only through the second guide hole 30C. Can be safely folded to a smaller diameter.

<Action and effect of the second embodiment>
In the relap system 2, the relap devices 2A and 2B are arranged in the front-rear direction. Further, the first guide hole 29B, the second guide hole 29C, the first guide hole 30B, and the second guide hole 30C are aligned in a straight line in the front-rear direction. Therefore, by using the relap devices 2A and 2B, the user can apply a force for folding and contracting the balloon 9A to the balloon 9A a plurality of times in succession. In this case, the relap devices 2A and 2B can more reliably fold and contract the balloon 9A.

<Third Embodiment>
The relap device 3 according to the third embodiment of the present invention will be described with reference to FIGS. 7 and 8. As shown in FIG. 7, the relap device 3 has guide portions 31, 32, 33, and connecting portions 38A, 38B. The guide portions 31 to 32 each have the same shape. The guide portions 31 to 33 are pillars having a fan shape having a central angle of 120 degrees when cut in a plane orthogonal to the front-rear direction. The guide portions 31 to 33 are arranged side by side in the left-right direction. The guide unit 31 is adjacent to the left side of the guide unit 32. The guide portion 32 is adjacent to the guide portion 33 on the left side. The connecting portion 38A connects the right end portion of the guide portion 31 and the left end portion of the guide portion 32. The connecting portion 38B connects the right end portion of the guide portion 32 and the left end portion of the guide portion 33. The connecting portions 38A and 38B have a curved plate shape. FIG. 7 shows the first state in which the connecting portions 38A and 38B are extended. The planes extending diagonally downward to the left and diagonally downward to the right from the central axis of the guide portion 31 are referred to as contact surfaces 31A and 31B, respectively. The contact surfaces 32A and 32B of the guide portion 32 and the contact surfaces 33A and 33B of the guide portion 33 correspond to the contact surfaces 31A and 31B of the guide portion 31, respectively.

A wall portion 35 is formed along the center of the guide portion 31. The wall portion 35 extends linearly in the front-rear direction. The cross-sectional shape when the wall portion 35 is cut in a plane orthogonal to the front-rear direction is an arc shape having a central angle of 120 degrees. The wall portion 35 has a second engaging portion 35A, a first wall portion 35B, and a second wall portion 35C. The relationship between the diameters of the second engaging portion 35A, the first wall portion 35B, and the second wall portion 35C is related to the second engaging portion 14A, the first wall portion 14B, and the relap device 1 (see FIG. 1). Corresponds to the second wall portion 14C and the like.

A guide portion 35D is provided over the second engaging portion 35A and the first wall portion 35B of the wall portion 35. The guide portion 35D projects from the second engaging portion 35A and the first wall portion 35B toward the central axis of the guide portion 31. The shape of the guide portion 35D has a substantially tetrahedral shape that is long in the front-rear direction. The cross-sectional area when the guide portion 35D is cut in a plane orthogonal to the front-rear direction gradually increases from the front end portion toward the boundary portion between the second engaging portion 35A and the first wall portion 35B, and then the boundary portion. It gradually becomes smaller toward the rear end.

A wall portion 36 is formed along the center of the guide portion 32. The wall portion 36 has a second engaging portion 36A, a first wall portion 36B, and a second wall portion 36C. A guide portion 36D is provided over the second engaging portion 36A and the first wall portion 36B of the wall portion 36. A wall portion 37 is formed along the center of the guide portion 33. The wall portion 37 has a second engaging portion 37A, a first wall portion 37B, and a second wall portion 37C. A guide portion 37D is provided over the second engaging portion 37A and the first wall portion 37B of the wall portion 37. The second engaging portions 36A and 37A, the first wall portions 36B and 37B, and the second wall portions 36C and 37C, and the guide portions 36D and 37D are the second engaging portions 35A and the first wall portion of the wall portion 35, respectively. Corresponds to 35B, the second wall portion 35C, and the guide portion 35D.

FIG. 8 shows a second state in which the connecting portions 38A and 38B are bent in the relap device 3. As the connecting portions 38A and 38B bend, the contact surface 31B of the guide portion 31 (see FIG. 7) and the contact surface 32A of the guide portion 32 (see FIG. 7) come into contact with each other, and the contact surface 32B of the guide portion 32 (see FIG. 7). (See FIG. 7) and the contact surface 33A (see FIG. 7) of the guide portion 33 are in contact with each other, and the contact surface 31A (see FIG. 7) of the guide portion 31 and the contact surface 33B (see FIG. 7) of the guide portion 33 are in contact with each other. Contact. As a result, the first wall portion 35B and the second wall portion 35C (see FIG. 7) of the guide portion 31, the first wall portion 36B of the guide portion 32, the second wall portion 36C (see FIG. 7), and the guide portion 33 are the first. A guide hole 34 is formed in a portion surrounded by the first wall portion 37B and the second wall portion 37C (see FIG. 7). Hereinafter, the portions of the guide holes 34 corresponding to the first wall portions 35B, 36B, 37B (see FIG. 7) are referred to as "first guide holes 34B", and the second wall portions 35C, 36C, 37C (FIG. 7). The part corresponding to (see) is referred to as "second guide hole 34C". Further, the second engaging portion 34A is formed in the portion surrounded by the second engaging portions 35A, 36A, 37A (see FIG. 7). The second engaging portion 34A, the first guide hole 34B, and the second guide hole 34C extend side by side in the front-rear direction and penetrate the guide portions 31 to 33.

A method of using the relap device 3 will be described. First, the relap device 3 in the first state is prepared (see FIG. 7). A balloon catheter 9 (see FIG. 3) containing the balloon 9A is arranged above the guide portion 32. Next, when the connecting portions 38A and 38B are bent, the relap device 3 is in the second state (see FIG. 8), and the guide hole 34 is formed. The catheter shaft 9B of the balloon catheter 9 is arranged inside the second engaging portion 34A and the guide hole 34. The balloon 9A of the balloon catheter 9 is arranged in front of the second engaging portion 34A. Next, the balloon catheter 9 is pulled toward the proximal end. As a result, the balloon catheter 9 moves rearwardly with respect to the relap device 3. The balloon 9A of the balloon catheter 9 enters the first guide hole 34B from the front side of the relap device 3 via the second engaging portion 34A. As the balloon 9A moves from the front side to the rear side in the first guide hole 34B, the balloon 9A receives a force from the first wall portions 35B, 36B, 37B and gradually contracts. Further, the balloon 9A has three blades guided by the guide portions 35D, 36D and 37D, and each of them is folded. When the balloon catheter 9 moves further to the posterior side, the balloon 9A passes through the first guide hole 34B and enters the second guide hole 34C. After that, the connecting portions 38A, 38B, and 38C are extended, so that the relap device 3 is in the first state (see FIG. 7). The balloon catheter 9 can be taken out from the relap device 3 in a state where the balloon 9A is contracted.

<Action and effect of the third embodiment>
As described above, in the relap device 3, the balloons 9A can be folded into three and contracted by the guide portions 35D to 37D arranged in the first guide hole 34B. Therefore, the relap device 3 can easily fold and contract the balloon 9A, especially when the catheter shaft 9B having the three-bladed balloon 9A is used.

<Fourth Embodiment>
The relap device 4 according to the fourth embodiment of the present invention will be described with reference to FIG. 9. The relap device 2A has guide portions 41 and 42, and a connecting portion 48. Each of the guide portions 41 and 42 is a prism whose cross-sectional shape is a fan shape with a central angle of 180 degrees when cut in a plane orthogonal to the front-rear direction. The guide portions 41 and 42 are arranged side by side in the left-right direction. The guide portion 41 is adjacent to the guide portion 42 on the left side. The connecting portion 48 connects the right end portion of the guide portion 21 and the left end portion of the guide portion 42.

Of the guide portions 41, the wall portion 44 is formed on the contact surface 41A arranged on the upper side in the first state in which the connecting portion 48 is extended. The wall portion 44 has a second engaging portion 44A, a first wall portion 44B, and a second wall portion 44C. A wall portion 45 is formed on the contact surface 42A arranged on the upper side of the guide portion 42 in the first state. The wall portion 45 has a second engaging portion 45A, a first wall portion 45B, and a second wall portion 45C. The shapes of the second engaging portions 44A and 45A, the first wall portions 44B and 45B, and the second wall portions 44C and 45C are the second engaging portions 14A and the first wall in the relap device 1 (see FIG. 1). Corresponds to the portion 14B, the second wall portion 14C, and the like.

The second wall portion 44C is formed with a plurality of annular concave portions and convex portions (hereinafter referred to as "concavo-convex 44D") alternately arranged along the front-rear direction. The diameter of the second wall portion 44C is L2 (see FIG. 1) at the concave portion and smaller than L2 at the convex portion. The second wall portion 45C is formed with a plurality of concave portions and convex portions (hereinafter, referred to as "concavo-convex 45D") alternately arranged along the front-rear direction. The unevenness 45D of the second wall portion 45C corresponds to the unevenness 44D of the second wall portion 44C.

FIG. 9 shows the first state in which the connecting portion 48 is extended. On the other hand, when the connecting portion 48 is in the second bent state, the contact surface 41A of the guide portion 41 and the contact surface 42A of the guide portion 42 come into contact with each other. As a result, a guide hole is formed in a portion surrounded by the first wall portion 44B and the second wall portion 44C of the guide portion 41 and the first wall portion 45B and the second wall portion 45C of the guide portion 42. Of the guide holes, the diameters of the portions corresponding to the second wall portions 44C and 45C (hereinafter referred to as "second guide holes") are maximum in the concave portions of the concave and convex portions 44D and 45D, and minimum in the convex portions. .. That is, the diameter of the second guide hole changes alternately along the front-rear direction.

<Action and effect of the fourth embodiment>
The balloon 9A of the balloon catheter 9 is gradually folded and contracted by passing through the portions of the guide holes corresponding to the first wall portions 44B and 45B (hereinafter, referred to as “first guide holes”). After that, the balloon 9A passes through the first guide hole and enters the second guide hole. By passing through the second guide hole, the balloon 9A intermittently receives a local force from the unevenness 44D, 45D of the second wall portions 44C, 45C. As a result, the shape of the balloon 9A is stabilized in the contracted state. After that, the connecting portion 48 is extended, so that the relap device 4 is in the first state (see FIG. 9). The balloon catheter 9 can be taken out from the relap device 3 in a state where the balloon 9A is contracted.

As described above, the relap device 4 locally applies a force in the direction toward the central axis to the balloon 9A passing through the second guide hole by the unevenness 44D, 45D formed on the second wall portions 44C, 45C. Can be granted. In this case, the relap device 5 can easily fold and contract the balloon 9A.

<Modification example>
The present invention is not limited to the above embodiment, and various modifications can be made. The number of guide portions of the relap device is not limited to two (see FIG. 1) and three (see FIG. 7), and may be four or more. When the shapes of the walls 14 to 17 (see FIG. 1), 24 to 27 (see FIG. 4), 35 to 37 (see FIG. 7) 44, and 45 (see FIG. 9) are strictly arcuate. Not exclusively. Therefore, for example, a part of each wall portion may be flat. The shapes of the connecting portions 18 (see FIG. 1), 28A, 28B (see FIG. 4), 38A, 38B (see FIG. 7), and 48 (see FIG. 9) are not limited to the bent plate shape, but may be formed by, for example, a hinge or the like. It may be configured. A plurality of first engaging portions 14D and 15D of the relap device 1 (see FIG. 1) may be provided in the front-rear direction of the second wall portions 14C and 15C. The first engaging portion may be provided on the second wall portions 16C and 17C.

In the relap device 1, the minimum value of the diameter of the first wall portion 14B of the wall portion 14, that is, the diameter of the rear end portion of the first wall portion 14B may be larger than the diameter L2 of the second wall portion 14C. In this case, for example, a step extending along a plane orthogonal to the front-rear direction may be provided at the boundary portion between the first wall portion 14B and the second wall portion 14C. When the relap device 1 is in the second state, the second engaging portions 131A and 132A may be formed at the rear end portions of the second wall portions 14C to 17C. Further, the second engaging portions 131A and 132A may not be formed. That is, the wall portions 14 to 17 of the relap device 1 may be formed only by the first wall portions 14B to 17B and the second wall portions 14C to 17C. The same applies to the relap devices 2A, 2B, 3 and 4.

The number of guide portions 35D to 37D of the relap device 3 is not limited to three. For example, a relap device having the same number of guides as the number of wings of the balloon 9A may be selected and used.

The shapes of the irregularities 44D and 45D formed on the second wall portions 44C and 45C of the relap device 4 are not limited to the annular shape, and may be other shapes. For example, the unevenness 44D and 45D may be a plurality of hemispherical unevenness formed on the second wall portions 44C and 45C.

FIG. 10 shows the relap device 5 in the modified example. The relap device 5 has guide portions 51, 52, 53, 54, and connecting portions 58A, 58B, 58C. The guide portions 51, 52, 53 and 54 have second wall portions 51C, 52C, 53C and 54C, respectively. The guide portion 51 has an urging portion 51D urged toward the central axis. The protruding portion 51E of the urging portion 51D close to the central axis protrudes from the second wall portion 51C. The urging unit 52D of the guide unit 52, the urging unit 53D of the guide unit 53, and the urging unit 54D of the guide unit 54 correspond to the urging unit 51D of the guide unit 51, respectively. The protrusions 52E, 53E and 54E project from the second wall portions 52C, 53C and 54C, respectively.

The second wall portions 51C to 54C form a second guide hole 55 extending in the front-rear direction in the second state in which the connecting portions 58A, 58B, and 58C are bent respectively. The cross-sectional area of the second guide hole 55 is
It corresponds to a portion obtained by excluding the area of the protruding portions 51E to 54E protruding from each of the second wall portions 51C to 54C from the area of the circular portion surrounded by the second wall portions 51C to 54C. Further, the cross-sectional area of the second guide hole 55 becomes smaller as the amount of protrusion of the protruding portions 51E to 54E urged by the urging portions 51D to 54D increases. That is, the urging portions 51D to 54D urge the protruding portions 51E to 54E toward the central axis in a direction in which the diameter of the second guide hole 55 becomes smaller.

For example, when the balloon 9A folded and contracted by the first guide hole (not shown) passes through the second guide hole 55, the urging portions 51D to 54D refer to the balloon 9A via the protrusions 51E to 54E. , A force can be applied in the direction toward the central axis. Therefore, the relap device 5 can fold and contract the balloon 9A smaller in the process of passing through the second guide hole 55.

In the relap device 5, the second wall portions 51C to 54C forming the second guide hole 55 may be formed of an elastically deformable member (for example, rubber or the like). When the balloon 9A passes through the second guide hole 55, a force in the direction toward the central axis may be applied to the balloon 9A by the elastic force of the second wall portions 51C to 54C.

Wrinkle patterns are formed on the surfaces of the walls 14 to 17 (see FIG. 1), 24 to 27 (see FIG. 4), 35 to 37 (see FIG. 7) 44, and 45 (see FIG. 9) by embossing. May be. In this case, the relap devices 1, 2A, 2B, 3, and 4 can reduce the resistance acting on the balloon 9A passing through the guide hole by the wrinkle pattern on the surface of the guide hole. Therefore, the user can suppress the force required when the relap devices 1, 2A, 2B, 3, and 4 are relatively moved from the proximal end side to the distal end side in the process of folding and contracting the balloon 9A.

For example, as shown in FIG. 11, in the relap device 1, a reinforcing portion 120 composed of a plurality of ribs 120A may be provided on the surface of the guide portion 12 opposite to the contact surface 12A. The plurality of ribs 120A may be arranged at intervals in the front-rear direction. The inner ends of the plurality of ribs 120A may be arranged along the outer sides of the walls 16 and 17. The reinforcing portion 120 may reinforce the wall portions 16 and 17 from the outside by a plurality of ribs 120A. In this case, the relap device 1 reinforces that the diameter of the guide holes 131 and 132 expands even when an outward force acts on the wall portions 16 and 17 when the balloon 9A passes through the guide holes 131 and 132. It can be suppressed by the unit 120. Therefore, the relap device 1 can fold the balloon 9A to an appropriate size.

<Others>
The anteroposterior direction is an example of the "axial direction" of the present invention.

1, 2A, 2B, 3, 4, 5: Relap device 2: Relap system 9: Balloon catheter 9A: Balloon 9B: Catheter shaft 11, 12, 21, 22, 23, 31, 32, 33, 41, 42, 51, 52, 53, 54, 221, 222: Guides 14, 15, 16, 17, 24, 25, 26, 27, 35, 36, 37, 44, 45: Walls 14B, 15B, 16B, 17B, 24B, 25B, 26B, 27B, 35B, 36B, 37B, 44B, 45B: First wall portion 14C, 15C, 16C, 17C, 24C, 25C, 26C, 27C, 35C, 36C, 37C, 44C, 45C, 51C, 52C, 53C, 54C: Second wall portion 14A, 15A, 16A, 17A, 24A, 25A, 29A, 34A, 35A, 36A, 37A, 44A, 45A, 131A, 132A: Second engaging portion 14D, 15D: First 1 Engagement portion 18, 28A, 28B, 38A, 38B, 48, 58A, 58B, 58C: Connecting portion 29, 30, 34, 131, 132: Guide hole 29B, 30B, 34B, 131B, 132B: First guide hole 29C, 30C, 34C, 55, 131C, 132C: Second guide holes 44D, 45D :: Concavo-convex 51D, 52D, 53D, 54D: Bouncer

Claims (12)

A plurality of guide portions arranged in an intersecting direction intersecting the axial direction, each having a wall portion extending in a predetermined axial direction and having a substantially arcuate cross-sectional shape orthogonal to the axial direction. When,
Of the plurality of guide portions, two guide portions adjacent to each other in the crossing direction are connected to each other, and at least one connecting portion that can be bent is used.
It is a relap device equipped with
In a state where the at least one connecting portion is not bent and the two guide portions are not in contact with each other, the ends of the plurality of guide portions in the direction along the arc of each of the wall portions are of the other guide portions. Separated from the end,
If at least one of the two guide portions in accordance with the bending of the connecting portion is in contact with, said end of said wall portion of each of the plurality of guide portions are in contact with each other, extending along the axial direction guide A relap device characterized by forming a hole. The relap device according to claim 1, wherein at least one of the plurality of guide portions has a first engaging portion with which the catheter shaft is engaged. The wall portion includes a first wall portion and a second wall portion arranged in the axial direction.
The relap device according to claim 1 or 2, wherein the diameter of the first wall portion is larger than the diameter of the second wall portion in a cross section orthogonal to the axial direction. The first wall portion is
The relap device according to claim 3, wherein the diameter increases from the side closer to the second wall portion to the side separated from the second wall portion in the axial direction. The relap device according to any one of claims 1 to 4, wherein at least one of the plurality of guide portions is urged to reduce the cross-sectional area of the guide holes. The relap device according to any one of claims 1 to 5, wherein at least one of the plurality of guide portions is provided with a reinforcing portion for reinforcing the wall portion. The relap device according to any one of claims 1 to 6, wherein the wall portion has irregularities. The relap device according to any one of claims 1 to 7, wherein a grain is formed on the wall portion. The relap device according to any one of claims 1 to 8, wherein the plurality of guide portions include a second engaging portion with which a syringe is engaged. Each of the plurality of guide portions has a contact surface on which the wall portion is formed.
In response to the bending of the at least one connecting portion, the contact surfaces of the two guide portions connected by the at least one connecting portion are brought into contact with each other.
The relap device according to any one of claims 1 to 9, wherein the contact surfaces of the plurality of guide portions are arranged in the same plane without the at least one connecting portion being bent. .. The relap device according to any one of claims 1 to 10, wherein when the two guide portions come into contact with each other in response to the bending of the at least one connecting portion, a plurality of the guide holes are formed. A relap system including a plurality of relap devices according to any one of claims 1 to 11.

Images