JP4627687B2 - Stent insertion device - Google Patents

Description

  The present invention relates to a stent insertion device that can be inserted into a tubular organ of a human body such as a blood vessel, a ureter, a bile duct, and a trachea and can place a stent, and a stent placement method using these stent insertion devices.

  In recent years, in order to treat human tubular organs such as blood vessels, ureters, bile ducts, and trachea, stents are inserted and placed through these catheters in affected areas. For example, a treatment method is known in which a covered stent is placed in a stenosis portion of a blood vessel to be expanded, or a covered stent is placed in a place where an aneurysm is formed to prevent rupture of the aneurysm.

  U.S. Patent No. 6,057,056 is a system for repairing a lumen, the system having a tubular body, an upper end and a lower end; an upper mounting system secured to the upper end of the graft; Comprising a lower attachment system secured to the lower end of the implant, the upper and lower attachment systems having a first configuration and a second configuration, wherein the first configuration is the second configuration A compressed configuration from the configuration, the system further comprising a delivery catheter for installing the implant in the lumen, the delivery catheter having a release system, the release system comprising the An upper tie for holding the upper mounting system in the first configuration and a lower tie for holding the lower mounting system in the first configuration. A system is disclosed.

Japanese National Patent Publication No. 14-503114

  It is an object of the present invention to provide a stent insertion device and a method for placing these stents that can be expanded and placed with high accuracy by a simple mechanism at a planned placement position of the stent.

The first stent insertion device of the present invention includes a flexible tubular sheath,
A stent housed in a reduced diameter state within the sheath;
A flexible shaft inserted through the stent;
A head surface having a curved surface and a head provided at the tip of the flexible shaft;
A stent insertion device having a string member having one end fixed to a flexible shaft;
At least one end selected from the stent tip and the stent end is moored with a string material by tearing and tying,
The stent insertion device is characterized in that one end (moving end side) of the string member is drawn out from the sheath end.

  The first stent insertion device of the present invention can further include a control string material that intersects with the final ring of the string material.

The second stent insertion device of the present invention comprises:
A flexible tubular sheath;
A stent housed in a reduced diameter state within the sheath;
A flexible shaft inserted through the stent;
A head surface having a curved surface and a head provided at the tip of the flexible shaft;
A stent insertion device having a string member having one end fixed to a flexible shaft;
The stent insertion device has the following feature (A) or feature (B).
・ Feature (A)
The flexible shaft has an opening in the vicinity of the distal end of the stent and the end is open,
The string material (A) is fixed near the distal end of the stent of the flexible shaft, and the space between the fixed portion of the flexible shaft and the opening near the distal end of the flexible shaft is arranged outside the shaft. The flexible shaft is drawn from the end of the shaft through the flexible shaft through the opening near the distal end of the stent,
The distal end portion of the stent is anchored by a string material (A) disposed outside the shaft between the fixing portion of the flexible shaft and the opening in the vicinity of the distal end portion of the flexible shaft. A stent insertion device characterized by the above.
・ Feature (B)
The flexible shaft has an opening near the end of the stent and the end is open,
The string material (B) is fixed in the vicinity of the end of the stent of the flexible shaft, and the space between the fixed portion of the flexible shaft and the opening in the vicinity of the end of the flexible shaft is arranged outside the shaft. The flexible shaft is pulled out from the end of the shaft through the flexible shaft through the opening near the end of the stent.
The distal end of the stent is anchored by a string material (B) disposed outside the shaft between the fixed portion of the flexible shaft and the opening near the stent distal end of the flexible shaft. A stent insertion device characterized by the above.

  In the second stent insertion device of the present invention, one end of the string member (A) is fixed near the distal end of the stent, and one end of the string member (B) is fixed near the end of the stent. Any stent insertion device can be used.

  The second stent insertion device of the present invention further intersects the control string material A that intersects the final ring of the string material (A) or the final ring of the string material (B). A control string B can be provided.

The third stent insertion device of the present invention comprises a flexible tubular sheath,
A stent housed in a reduced diameter state within the sheath;
A flexible shaft inserted through the stent;
A head surface having a curved surface and a head provided at the tip of the flexible shaft;
A stent insertion device having at least two string members fixed at one end to a flexible shaft;
The stent tip is moored with a string material (A) by unraveling,
One end (moving end side) of the string material (A) is pulled out from the sheath end,
The end of the stent is moored with a string material (B) by tearing and tying,
One end portion (moving end side) of the string member (B) is a stent insertion device characterized by being drawn out from a sheath end portion.

The fourth stent insertion device of the present invention comprises:
A flexible tubular sheath;
A stent housed in a reduced diameter state within the sheath;
A flexible shaft inserted through the stent;
A head surface having a curved surface and a head provided at the tip of the flexible shaft;
A stent insertion device having at least two string members fixed at one end to a flexible shaft;
A stent insertion device having the following feature (C), feature (D), or feature (E).
・ Feature (C)
The flexible shaft has an opening in the vicinity of the distal end of the stent and the end is open,
The string material (A) is fixed near the distal end of the stent of the flexible shaft, and the space between the fixed portion of the flexible shaft and the opening near the distal end of the flexible shaft is arranged outside the shaft. The flexible shaft is drawn from the end of the shaft through the flexible shaft through the opening near the distal end of the stent,
The stent tip is anchored by a tearing knot with a string material (A) disposed outside the shaft between the fixed portion of the flexible shaft and the opening near the stent tip of the flexible shaft,
The string material (B) is fixed in the vicinity of the stent end portion of the flexible shaft,
The end of the stent is moored with a string material (B) by tearing and tying,
One end (moving end side) of the string member (B) is a stent insertion device drawn out from the sheath end.
・ Feature (D)
The flexible shaft has an opening near the end of the stent and the end is open,
The string material (A) is fixed near the distal end of the flexible shaft,
The stent tip is moored with a string material (A) by unraveling,
One end (moving end side) of the string material (A) is pulled out from the sheath end,
The string material (B) is fixed in the vicinity of the end of the stent of the flexible shaft, and the space between the fixed portion of the flexible shaft and the opening in the vicinity of the end of the flexible shaft is arranged outside the shaft. The flexible shaft is pulled out from the end of the shaft through the flexible shaft through the opening near the end of the stent.
The distal end of the stent is anchored by a string material (B) disposed outside the shaft between the fixed portion of the flexible shaft and the opening near the stent distal end of the flexible shaft. Stent insertion device.
・ Feature (E)
The flexible shaft has an opening in the vicinity of the distal end of the stent and the end is open,
The string material (A) is fixed near the distal end of the stent of the flexible shaft, and the space between the fixed portion of the flexible shaft and the opening near the distal end of the flexible shaft is arranged outside the shaft. The flexible shaft is drawn from the end of the shaft through the flexible shaft through the opening near the distal end of the stent,
The stent tip is anchored by a tearing knot with a string material (A) disposed outside the shaft between the fixed portion of the flexible shaft and the opening near the stent tip of the flexible shaft,
The string material (B) is fixed in the vicinity of the end of the stent of the flexible shaft, and the space between the fixed portion of the flexible shaft and the opening in the vicinity of the end of the flexible shaft is arranged outside the shaft. The flexible shaft is pulled out from the end of the shaft through the flexible shaft through the opening near the end of the stent.
The distal end of the stent is anchored by a string material (B) disposed outside the shaft between the fixed portion of the flexible shaft and the opening near the stent distal end of the flexible shaft. Stent insertion device.

  In the third or fourth stent insertion device of the present invention, the control string A and / or the string material (B) to be unraveled are further intersected with the final ring of the string material (A). A control string B that intersects the final wheel can be provided.

The fifth stent insertion device of the present invention comprises:
A flexible tubular sheath;
A stent housed in a reduced diameter state within the sheath;
A flexible shaft inserted through the stent;
A head surface having a curved surface and a head provided at the tip of the flexible shaft;
A stent insertion device having a string material (C) having one end fixed to the vicinity of the distal end of the flexible shaft;
The flexible shaft has two openings near the distal end and the distal end of the stent, and the distal end opens.
The string member (C) is disposed outside the shaft between the fixing portion near the distal end portion of the flexible shaft and the opening portion near the stent distal end portion of the flexible shaft, and near the stent distal end portion of the flexible shaft. The flexible shaft is inserted through the opening, a portion of the string material is pulled out at the opening near the end of the stent, and then inserted through the shaft and pulled out from the end of the shaft.
The stent distal end is anchored by a tearing knot with a string member disposed outside the shaft between the fixed portion near the distal end of the flexible shaft and the opening on the stent distal end side of the flexible shaft,
The stent end portion is a stent insertion device that is anchored by a tearing knot with a string material drawn from an opening in the vicinity of the stent end portion of the flexible shaft.

  The fifth stent insertion device of the present invention further includes a control string material A that intersects the final ring of the unraveled knot of the stent tip of the string material (C), and / or the end of the stent of the string material (C). It is possible to provide a control string material B that intersects the final wheel of the tearing knot.

A stent placement method using the first and second stent insertion devices of the present invention,
Insert the stent insertion device into the treatment area of the tubular organ,
Pull the sheath distally to expand the stent,
If you have a control string, pull out the control string,
By pulling the moving end side of the string material, the end of the stent is released from the flexible shaft,
A stent placement method using a stent insertion device, wherein the stent is placed in a tubular organ.

A stent placement method using the third and fourth stent insertion devices of the present invention,
Insert the stent insertion device into the treatment area of the tubular organ,
Pull the sheath distally to expand the stent,
Thereafter, a stent using a stent insertion device, wherein the stent is placed in a tubular organ by performing the following operation (X) to operation (Y) or the following operation (Y) to operation (X). This is a detention method.
・ Operation (X)
If you have control string A, remove control string A,
The moving end side end portion of the string material (A) is pulled to open the distal end portion of the stent from the flexible shaft.
・ Operation (Y)
If you have the control string B, remove the control string B,
The end portion of the stent is released from the flexible shaft by pulling the end portion on the moving end side of the string material (B).

A stent placement method using the fifth stent insertion device of the present invention,
Insert the stent insertion device into the treatment area of the tubular organ,
Pull the sheath distally to expand the stent,
If you have the control string B, remove the control string B,
Pull the moving end side of the string material C to open the end of the stent from the flexible shaft,
If you have the control string A, remove the control string A,
Pull the moving end side of the string material C to open the distal end of the stent from the flexible shaft,
A stent placement method using a stent insertion device, wherein the stent is placed in a tubular organ.

The stent insertion device of the present invention can fix the end position of the stent to a specific position of the shaft by anchoring at least one end of the stent to the shaft by unraveling and tying the string, and within the sheath. The stent does not stack, and the shaft can be smoothly advanced within the sheath.
In the stent insertion device of the present invention, the stent can be re-accommodated in the sheath by pulling the shaft even after the sheath is removed by anchoring the end portion of the stent to the shaft using a string material. In addition, the degree of freedom in adjusting the placement position of the stent is increased.

  The stent insertion device according to the present invention can fix the end position of the stent to a specific position of the shaft by anchoring the both ends of the stent to the shaft using a string material, and the stent in the sheath. And the shaft can move smoothly back and forth in the sheath, and both ends of the stent are fixed to the shaft, so the position of the stent does not move even when moving in the sheath of the shaft Therefore, the stent can be placed at a more accurate position.

  In the stent insertion device of the present invention, by providing a control string material that intersects with the final ring of the string material, it is possible to prevent the tear string from being naturally unraveled even if the shaft is moved within the sheath. Have

  In the stent insertion device of the present invention, when the stent is bent or reduced in diameter, the resistance when pulling the moving end of the string material may be extremely high. By inserting the inside, the moving end portion of the string can be easily pulled regardless of the state of the stent.

Embodiments of the present invention will be described below in detail with reference to the drawings. However, the present invention is not limited to these embodiments.
In the present invention, the drawings described below are examples of the present invention, and are not limited to the shapes described in the drawings. The drawings described below, the contents described below, and the contents described below are described below. The figures and the figures described below can be combined with the contents described below.

FIG. 1 schematically shows a cross section of an example of a stent insertion device using at least one string material of the present invention.
The stent insertion device 1 includes:
A flexible tubular sheath 2;
A stent 5 housed in a reduced diameter within the sheath;
A flexible shaft 3 inserted through the stent 5;
A head 4 having a curved end surface and a head 4 provided at the tip 3a of the flexible shaft 3,
A stent insertion device having one end portion and a string member 6 fixed to the vicinity 3c of the distal end portion of the flexible shaft 3,
The flexible shaft 3 has two openings (9a, 9b) in the distal end vicinity 5a and the distal end vicinity 5b of the stent, and the distal end 3b of the flexible shaft 3 opens,
The string member 6 is disposed outside the flexible shaft 3 between the fixed portion 3c near the distal end portion of the flexible shaft 3 and the opening 9a of the flexible shaft, and near the distal end portion of the stent of the flexible shaft 3. The opening 9a is inserted through the flexible shaft, and a portion of the cord material is pulled out through the opening 9b near the end of the stent. Then, the string is inserted through the flexible shaft and from the end 3c of the flexible shaft. Pulled out,
The stent distal end portion 5a is formed of a string material disposed outside the shaft between the fixed portion 3c near the distal end portion of the flexible shaft and the opening 9a on the stent distal end side of the flexible shaft. Moored and made a final wheel 10a
The end 5b of the stent is anchored by unraveling with a string material drawn from the opening 9b in the vicinity of the end of the stent of the flexible shaft, and a final ring 10b for unraveling is provided.
Further, a control string material A7 that intersects with the final wheel 10a for unraveling the string material, and a control string material B8 that intersects with the final wheel 10b for the string material unraveling are provided. The end of the cord material B8 is drawn out from the end of the sheath 2 to the outside.
The string material 6, the control string material A7, and the control string material B8 are respectively changed in color, material, type or length of the string material, or by providing a mark at or near the end of the string material, It is preferable to be able to identify.

  FIG. 2 is a diagram in which the stent 2 in a reduced diameter state is partially expanded by pulling out the sheath 2 in the direction of the arrow 100 using the stent insertion device 1 shown in FIG.

FIG. 3 shows an example of an indwelling method in which the stent insertion device 1 shown in FIG. 1 is inserted into a treatment part of a tubular organ, the stent is expanded, and the stent is placed in the treatment part in the tubular organ.
FIG. 3A is a schematic view in which the stent insertion device 1 is inserted into the treatment section 202 of the tubular organ 201.
FIG. 3B is a schematic view (shown in FIG. 2) in which the sheath is extracted from the stent insertion device 1 in FIG. 3A and a part of the stent is expanded. The stent expands by extracting the sheath. However, since the distal end and the distal end of the stent are anchored to the shaft, the stent is not in contact with or partially in contact with the inner surface of the tubular organ 201. By moving the tube by pushing or pulling it towards the center or distal side of the tubular organ, the stent can move as well.
FIG.3 (c) is the schematic diagram which extracted the string material B for control in FIG.3 (b).
FIG. 3D shows that the distal end portion of the stent is expanded by pulling the moving end side of the string member in the direction of arrow 100 in FIG. It is a schematic diagram.
FIG.3 (e) is the schematic diagram which extracted the string material A for control in FIG.3 (d).
FIG. 3 (f) is a schematic diagram in which the entire stent is expanded by pulling the moving end side of the string member in the direction of arrow 100 in FIG. 3 (e) and unraveling the knot that anchors the stent tip. FIG.
FIG. 3G is a schematic diagram in which the flexible shaft is extracted in FIG. 3F and the stent is placed in the treatment portion 202 in the tubular organ.

In FIGS. 3B and 3E, the shaft can be moved back and forth in the tubular organ, and the stent can be accurately placed in the treatment site.
In FIGS. 3 (b) and 3 (c), the shaft can be accommodated in the extracted sheath by moving the shaft in the tubular organ.

FIG. 4 schematically shows a cross section of another example of the stent insertion device using at least one string member of the present invention.
The stent insertion device 51 includes a flexible tubular sheath 2, and
A stent 5 housed in a reduced diameter within the sheath;
A flexible shaft 13 inserted through the stent 5;
A head portion 4 having a curved end surface and provided at a distal end portion 13a of the flexible shaft 13,
One end portion has a string member 61 fixed to the vicinity (3c) of the distal end portion of the flexible shaft 13.
The stent insertion device 11 includes:
The flexible shaft 3 has an opening 9a in the vicinity of the stent tip 5a, and the distal end 3b of the flexible shaft opens,
The string member 61 is disposed outside the shaft between the fixed portion 3c near the tip of the flexible shaft 3 and the opening 9a near the tip of the flexible shaft 3, and near the tip of the stent of the flexible shaft. Is inserted through the flexible shaft 3 from the opening 9a and is drawn out from the shaft end 3b.
The stent distal end portion 5a is unraveled by a string member disposed outside the shaft between the fixing portion 3c near the distal end portion of the flexible shaft and the opening 9a near the stent distal end portion of the flexible shaft. Moored and provided with a final wheel 10a.
Further, a control string material A7 that intersects with the final ring 10a for unraveling the string material is provided, and the end of the control string material A7 is drawn out from the end of the sheath 2. By pulling one end of the control string material A7, it is possible to eliminate the crossing with the final ring 10a of the unraveling knot, and it can be pulled out from the sheath by further pulling.

The stent placement method in the tubular organ of the stent insertion device 51 shown in FIG. 4 can be performed in the following order 1) to 5).
1) Insert the stent insertion device 51 into the treatment section of the tubular organ.
2) Pull out the sheath 2.
3) Pull out the control string A7.
4) Pull the string member 61 in the direction of the arrow 100 to unwind the stent tip 5a anchored to the shaft 3, and place the stent in the treatment area.
5) Pull out the shaft having the tip.
After extracting the sheath of 2) and 3), the shaft can be moved back and forth in the tubular organ, the stent can be accurately placed in the treatment site, and the shaft is accommodated in the extracted sheath. be able to.

FIG. 5 schematically shows a cross section of another example of a stent insertion device using at least one string material of the present invention.
The stent insertion device 21 includes a flexible tubular sheath 2, and
A stent 5 housed in a reduced diameter within the sheath;
A flexible shaft 3 inserted through the stent 5;
A head 4 having a curved end surface and a head 4 provided at the tip 3a of the flexible shaft 3,
One end portion has a string member 62 fixed to a flexible shaft in the vicinity of the end portion of the stent. The fixed portion of the flexible schft of the string material is shown as symbol 3c.
The stent insertion device 21 includes:
The flexible shaft 3 has an opening 9b in the vicinity 5b of the stent end, and the end 3b of the flexible shaft 3 opens,
The string member 62 is disposed outside the shaft between the fixed portion 3d near the end of the stent of the flexible shaft 3 and the opening 9b near the end of the stent, and is inserted into the flexible shaft 3 through the opening 9b. Pulled out from the end 3b of the flexible shaft,
The end 5b of the stent is anchored by unraveling with a string material arranged outside the shaft between the fixed portion 3d near the end of the flexible shaft and the opening 9b, thereby providing the final wheel 10b. .
Further, a control string material B8 that intersects with the final wheel 10b for unraveling the string material is provided, and the end of the control string material B8 is drawn to the outside from the end portion of the sheath 2. By pulling one end of the control string material B8, it is possible to eliminate the intersection with the final knot 10b, and by pulling it further, it can be pulled out of the sheath.

The stent placement method in the tubular organ of the stent insertion device 21 shown in FIG. 5 can be performed in the following order 1) to 5).
1) Insert the stent insertion device 21 into the treatment section of the tubular organ.
2) Pull out the sheath 2.
3) Pull out the control string B8.
4) Pulling the string material 62 in the direction of the arrow 100, unwinds the stent end portion 5b anchored to the shaft 3, and places the stent in the treatment portion.
5) Pull out the shaft having the tip.
After extracting the sheath of 2) and 3), the shaft can be moved back and forth in the tubular organ, and the stent can be accurately placed in the treatment site.

FIG. 6 schematically shows a cross section of another example of a stent insertion device using at least one string material of the present invention.
The stent insertion device 31 includes a flexible tubular sheath 2, and
A stent 5 housed in the sheath 2 in a reduced diameter state;
A flexible shaft 3 inserted through the stent 2;
A head 4 having a curved end surface and a head 4 provided at the tip 3a of the flexible shaft 3,
One end portion has a string member 61 fixed to the flexible shaft 3.
In the stent insertion device 31, the stent distal end portion 5 a is anchored by unraveling with a string member 61, a final ring 10 a is provided, and one end portion (moving end side) of the string member is pulled out from the sheath end portion. ing.
Further, a control string material A7 that intersects with the final ring 10a for unraveling the string material is provided, and the end of the control string material A7 is drawn out from the end of the sheath 2. By pulling one end of the control string material A7, it is possible to eliminate the crossing with the final ring 10a of the unraveling knot, and it can be pulled out from the sheath by further pulling.

The stent placement method in the tubular organ of the stent insertion device 31 shown in FIG. 6 can be performed in the following order 1) to 5).
1) Insert the stent insertion device 31 into the treatment section of the tubular organ.
2) Pull out the sheath 2.
3) Pull out the control string A7.
4) Pull the string member 61 in the direction of the arrow 100 to unwind the stent tip 5a anchored to the shaft 3, and place the stent in the treatment area.
5) Pull out the shaft having the tip.
After extracting the sheath of 2) and 3), the shaft can be moved back and forth in the tubular organ, and the stent can be accurately placed in the treatment site.

FIG. 7 schematically shows a cross section of another example of a stent insertion device using at least one string member of the present invention.
The stent insertion device 41 includes a flexible tubular sheath 2;
A stent 5 housed in the sheath 2 in a reduced diameter state;
A flexible shaft 3 inserted through the stent 2;
A head 4 having a curved end surface and a head 4 provided at the tip 3a of the flexible shaft 3,
One end portion has a string member 62 fixed to the flexible shaft 3.
In the stent insertion device 41, the distal end portion 5b of the stent is anchored by unraveling the string member 62, the final ring 10b is provided, and one end portion (moving end side) of the string member is pulled out from the sheath end portion. ing.
Further, a control string material B8 that intersects with the final wheel 10b for unraveling the string material is provided, and the end of the control string material B8 is drawn to the outside from the end portion of the sheath 2. By pulling one end of the control string material B8, it is possible to eliminate the intersection with the final knot 10b, and by pulling it further, it can be pulled out of the sheath.

The stent placement method in the tubular organ of the stent insertion device 41 shown in FIG. 7 can be performed in the following order 1) to 5).
1) Insert the stent insertion device 41 into the treatment section of the tubular organ.
2) Pull out the sheath 2.
3) Pull out the control string B8.
4) Pull the string material 62 in the direction of the arrow 100 to unwind the stent distal end 5a anchored on the shaft 3, and place the stent in the treatment area.
5) Pull out the shaft having the tip.
After extracting the sheath of 2) and 3), the shaft can be moved back and forth in the tubular organ, the stent can be accurately placed in the treatment site, and the shaft is accommodated in the extracted sheath. be able to.

In FIG. 13, the cross section of an example of the insertion apparatus of the stent using the two string materials of this invention is shown typically.
The stent insertion device 81 includes a flexible tubular sheath 2, and
A stent 5 housed in the sheath 2 in a reduced diameter state;
A flexible shaft 3 inserted through the stent 5;
A head 4 having a curved end surface and a head 4 provided at the tip 3a of the flexible shaft 3,
This is a stent insertion device having two string members fixed to the vicinity of the distal end portion 3c of the stent 5 where the flexible shaft 3 is to be arranged and the distal end portion vicinity 3d of the stent.
The flexible shaft 3 has two openings 9a and 9b near the distal end of the stent and near the distal end, and the distal end 3b is open.
The string member (A) 61 is fixed to the vicinity 3c of the stent tip of the flexible shaft 3, and the space between the fixed portion 3c of the flexible shaft and the opening 9a near the tip of the flexible shaft is outside the shaft. It is inserted in the flexible shaft from the opening 9a in the vicinity of the distal end portion of the stent of the flexible shaft and pulled out from the shaft end 3b.
The stent distal end portion 5a is anchored by unraveling with a string member (A) 6a disposed outside the shaft between the fixed portion of the flexible shaft and the opening in the vicinity of the stent distal end portion of the flexible shaft. The final wheel 10a of the string material (B) 6a is provided.
The string material (B) 62 is fixed to the vicinity 3d of the stent end of the flexible shaft 3, and the space between the fixing portion 3d of the flexible shaft 3 and the opening 9b near the end of the flexible shaft is fixed to the shaft. It is arranged on the outer side, and is inserted through the flexible shaft from the opening 9b near the distal end of the flexible shaft and pulled out from the shaft distal end 3b.
The stent end portion 5b is formed by unraveling a string member (B) 6b disposed outside the shaft between the fixed portion 3d of the flexible shaft and the opening 9b in the vicinity of the stent end portion of the flexible shaft. Moored and provided with a final wheel 10b of string material (B) 6b.
A control string material A7 can be provided on the final wheel 10a for unraveling the string material 61.
A control string material B8 can be provided on the final wheel 10b for unraveling the string material 62.

In FIG. 14, the cross section of another example of the insertion apparatus of the stent using the two string materials of this invention is shown typically.
The stent insertion device 91 includes a flexible tubular sheath 2, and
A stent 5 housed in the sheath 2 in a reduced diameter state;
A flexible shaft 33 inserted through the stent 5;
A head 4 having a curved end surface and provided at a tip 33a of the flexible shaft 33;
This is a stent insertion device having two string members fixed to the distal end portion vicinity 33c of the stent 5 where the flexible shaft 33 is to be arranged and the stent distal end portion vicinity 33d.
The flexible shaft 33 is a rod-shaped shaft.
The string member (A) 61 is fixed to the vicinity of the stent tip 33c of the flexible shaft 33, the stent tip 5a is unraveled and tied to the shaft 33, the final ring 10a is provided, and pulled out from the end of the sheath. It is.
The string member (B) 62 is fixed to the vicinity of the stent end portion 33d of the flexible shaft 33, the stent end portion 5b is tethered to the shaft 33 by unraveling, the final ring 10b is provided, and is pulled out from the end portion of the sheath. It is.
A control string material A7 can be provided on the final wheel 10a for unraveling the string material 61.
A control string material B8 can be provided on the final wheel 10b for unraveling the string material 62.

The stent placement method in the tubular organ of the stent insertion devices 81 and 91 shown in FIGS. 13 and 14 can be performed in the following order 1) to 5).
1) Insert stent insertion devices 81 and 91 into the treatment section of the tubular organ.
2) Pull out the sheath 2.
3) Pull out the control string B8.
4) Pull the string member 62 in the direction of the arrow 100 to unwind the untied end 5b of the stent anchored to the shaft 3.
5) Pull out the control string A7.
6) Pull the string member 61 in the direction of the arrow 100 to unwind the knot of the stent tip 5a that is anchored to the shaft 3.
7) Place the stent in the treatment area.
8) Pull out the shaft having the tip.
In the above 2), 3) or 4), or 5) or 6), the shaft can be moved back and forth in the tubular organ, and the stent can be accurately placed in the treatment site. In addition, the shaft can be accommodated in a drawn sheath.
The operations 3) and 4) can be performed after the operations 5) and 6).
In the stent insertion device 81, the flexible shaft 3 uses the shape shown in FIG. 9B, but the shaft shown in FIG. 9C or FIG. 9D can be used.

FIG. 8A to FIG. 8E show schematic views of cross sections in which at least one string member is fixed to the shaft.
In FIG. 8A, the flexible shaft 33 is a rod-shaped shaft, and one end portion of the string member 61 is fixed in the vicinity of the distal end portion (33c) where the stent of the shaft is to be arranged.
In FIG. 8 (b), the flexible shaft 33 is a rod-shaped shaft, and one end portion of the string member 62 is fixed near the end portion (33d) where the stent of the shaft is to be arranged.
In FIG. 8C, the flexible shaft 3 uses a cylindrical shaft having one end 3b opened and having an opening 9a in the vicinity of the distal end where the stent is to be arranged. One end portion of the cord member 61 is fixed to the vicinity (3c) of the tip portion where the stent of the shaft is to be disposed, is inserted through the shaft opening portion 9a, and is pulled out from the opening portion of the shaft end portion. Using the string material 6a outside the shaft from the shaft fixing portion 3c to the shaft opening 9a, the distal end portion of the stent can be anchored to the shaft by tearing and tying.
In FIG. 8 (d), the flexible shaft 3 uses a cylindrical shaft having one end 3b open and an opening 9b in the vicinity of the end where the shaft stent is to be arranged. One end of the string member 62 is fixed near the end (3d) where the shaft stent is to be placed, and is inserted through the inside of the shaft from the opening 9b of the shaft and is drawn out from the opening at the end of the shaft. Using the string material 6b outside the shaft from the shaft fixing portion 3d to the shaft opening 9b, the distal end portion of the stent can be anchored to the shaft by tearing and tying.
In FIG. 8 (e), one end 3b of the flexible shaft 3 is opened. A cylindrical shaft having at least two openings is used. One end of the string member 6 is fixed to the vicinity of the distal end portion (3c) where the stent of the shaft is to be arranged, and the inside of the shaft is inserted through the opening 9a of the shaft, and a part thereof is pulled out to the outside through the opening 9b. It is pulled out from the opening at the end of the shaft. Using the string material 6a outside the shaft from the shaft fixing portion 3c to the shaft opening 9a, the distal end portion of the stent can be anchored to the shaft by tearing and tying, and the string material pulled out from the shaft opening 9b 6b can be used to anchor the distal end of the stent to the shaft by tearing and tying.
FIG. 9A to FIG. 9D are schematic views of cross sections in which at least two string members are fixed to the shaft.
In FIG. 9 (a), the flexible shaft 33 uses a rod-shaped shaft, and one end portion of the cord material 61 is fixed near the stent distal end portion (33c) of the shaft, and one end portion of the cord material 62 is It is fixed near the end of the stent (33d) of the shaft.
In FIG. 9 (b), one end 3b of the flexible shaft 3 is opened, and the opening 9a and the opening 9b are arranged near the distal end portion where the stent of the shaft is to be arranged and near the end portion where the stent is to be arranged. A cylindrical shaft having at least two openings is used. One end portion of the cord member 61 is fixed to the vicinity (33c) of the distal end portion where the stent of the shaft 3 is to be disposed, is inserted into the shaft through the opening portion 9a, and is drawn out from the shaft end portion 3b. One end of the string member 62 is fixed in the vicinity of the terminal portion (33d) where the stent of the shaft 3 is to be arranged, is inserted into the shaft through the opening 9b, and is drawn out from the shaft end 3b.
In FIG. 9C, the flexible shaft 3 uses a cylindrical shaft having one end 3b opened and having an opening 9a in the vicinity of the distal end where the shaft stent is to be arranged. One end portion of the cord member 61 is fixed to the vicinity (33c) of the distal end portion where the stent of the shaft 3 is to be disposed, is inserted into the shaft through the opening portion 9a, and is drawn out from the shaft end portion 3b. One end portion of the string member 62 is fixed in the vicinity (33d) of the end portion where the stent of the shaft 3 is to be disposed.
In FIG. 9 (b), the flexible shaft 3 is a cylindrical shaft having one end 3b opened and having an opening 9b in the vicinity of the end where the shaft stent is to be arranged. One end of the string member 61 is fixed in the vicinity of the distal end portion (33c) where the stent of the shaft 3 is to be disposed. One end of the string member 62 is fixed in the vicinity of the terminal portion (33d) where the stent of the shaft 3 is to be arranged, is inserted into the shaft through the opening 9b, and is drawn out from the shaft end 3b.

A preferred embodiment will be described below with reference to FIGS.
1) The string material fixing portion (3c) is provided in the vicinity of the distal end portion of the stent disposed on the shaft, and when the shaft has the opening 9a, it may be provided on the distal end side of the shaft, or It may be provided on the distal end side, and the string member 6a only needs to be arranged so that the distal end portion of the stent can be unraveled and tied to the shaft.
2) The string material fixing portion (3d) is provided in the vicinity of the distal end portion of the stent arranged on the shaft, and when the shaft has the opening 9d, it may be provided on the distal end side of the shaft, or It may be provided on the distal end side, and the string member 6a only needs to be arranged so that the distal end portion of the stent can be unraveled and tied to the shaft.
3) The opening 9a of the shaft 3 is provided in the vicinity of the distal end portion of the stent disposed on the shaft, may be provided on the head side from the distal end of the stent, or may be provided on the distal end side, It is only necessary that the string member 6a is arranged so that the distal end portion of the stent can be tethered to the shaft.
4) The opening 9b of the shaft 3 is provided in the vicinity of the terminal end of the stent disposed on the shaft, and may be provided on the head side from the terminal of the stent, or may be provided on the terminal side. The string member 6b only needs to be arranged so that the distal end portion of the stent can be tethered to the shaft.
5) The control string A or the control string B may be inserted through the inside of the stent, through the outside of the stent, partially through the inside of the stent, or through the inside of the shaft. Also good.
6) The head 4 provided at the tip of the shaft may be smaller or larger than the inner diameter of the sheath 3, and preferably smaller than the inner diameter of the sheath 3.
7) When the shaft has two openings (9a, 9b), the positions of the openings may be provided so that the openings 9a are arranged in the longitudinal direction of the shaft with respect to the openings 9b. Alternatively, it may be provided by being shifted by 1 ° to 180 ° to the left and right in the circumferential direction of the shaft.
8) In the case of having the two final knots (10a, 10b), the positions of the final wheels are such that the final wheel 10a is aligned with the final wheel 10b in the length direction of the shaft. Alternatively, it may be provided by being shifted by 1 ° to 180 ° to the left and right in the circumferential direction of the shaft.
9) When two string members are used, the positions of the fixing portions (3c, 3d) (33c, 33d) with respect to the shaft of the string material are such that the fixing portions (3c, 33c) are located on the fixing portions (3d, 33d). On the other hand, it may be provided so as to be lined up in the circumferential direction of the shaft, or may be provided by being shifted by 1 ° to 180 ° left and right in the circumferential direction of the shaft.
10) When two string members or two control string members are used, the markers, the type and material of the string material, the length and position of the end portion, etc. may be changed so that the string materials can be distinguished from each other. preferable.
11) The string material can be used to tether the other stent portions of the distal and distal ends of the shaft.

The stent used in the present invention needs to have a structure in which at least one of the distal end portion and the distal end portion of the stent can be tethered to the shaft using a string material.
A stent that can be reduced in diameter and can be self-expanded when the sheath is removed can be used.
As a stent, a cylindrical structure made of a zigzag wire, a knitted fabric of one or a plurality of wires, a woven fabric or a braid, or a cylindrical structure obtained by combining a plurality of these, a metal cylindrical structure is a laser. A cylindrical structure processed by processing or the like can be used.
What is necessary is just to select the outer diameter and length of a stent suitably with an application location, the flexible shaft to be used, a sheath, etc.

FIG. 10 shows a schematic diagram of an example of a stent. The stent 301 is a stent formed by knitting or braiding or braiding one or more wire rods into a tubular shape. The distal end portion and the distal end portion of the stent 301 have a plurality of end portions through which the string material can pass.
FIG. 11 shows a schematic diagram of an example of another stent. The stent 302 is a stent formed in a cylindrical shape by connecting or intersecting a plurality of zigzag rings 303. The distal end portion and the distal end portion of the stent 302 have a plurality of end portions through which the string material can pass.

  The unraveling knot is a method in which the end of the stent is reduced in diameter using a string material, the end of the stent is anchored to the shaft, and the end of the string material on the moving end side is pulled to anchor the shaft. If the end of the stent is unfastened and the anchor of the stent can be unfastened, the end of the string material on the moving end side is pulled and the end of the stent anchored to the shaft is untied Any way of tying is acceptable.

FIGS. 12 (a) to 12 (d) show an example of a method of knotting a knot, in which the end of the stent is tethered by a knot, as shown in FIGS. 11 (a) to 11 (e). .
1) As shown in FIG. 12 (a), the string material 6 on the moving end side is passed through the stent end portion 15a so as to have a bent portion 16a.
2) As shown in FIG. 12B, the moving end side string material 6 is further passed through the stent end portion 15b so as to have the bent portion 16b, and then the bent portion 16b is passed through the bent portion 16a.
3) As shown in FIG. 12C, the bent portion 16b passing through the bent portion 16a is tightened in the direction of the arrow 17.
4) As shown in FIG. 12 (d), the string material 6 on the moving end side is further passed through the stent end portion 15c so as to have the bent portion 16c, and then the bent portion 16c is passed through the bent portion 16b at the front end portion of the tightening. Pass through.
4) As shown in FIG. 12 (e), the bent portion 16c passing through the bent portion 16b at the front end of the tightening is tightened in the direction of the arrow 17b.
Further, the string member 6 on the moving end side is passed through the stent end portion 15d so as to have the bent portion 16d, and then the bent portion 16d is passed through the bent portion 16c at the tip of tightening. Thereafter, the bent portion 16d passing through the bent portion 16c at the tip of the tightening is tightened in the direction of the arrow 17c.
Further, the string member 6 on the moving end side is passed through the stent end portion 15e so as to have the bent portion 16e, and then the bent portion 16e is passed through the bent portion 16d at the front end of the tightening. Thereafter, the bent portion 16e passed through the bent portion 16d at the tip of the tightening is tightened in the same direction, and the portion of the bent portion 16e that has passed through the bent portion 16d becomes the final ring, and the stent 5 is anchored to the shaft.
In FIG. 12 (e), by pulling the moving end side (16y) of the string member 6, the unraveling knot can be solved.
In the stent 5, the end portions through which the string material 6 can be passed are described at five places. However, when the end portions through which the string material 6 can be passed are 6 places or more, the above operation can be further repeated. The stent 5 is provided in the circumferential direction in the order of an end 15a, an end 15b, an end 15c, an end 15d, and an end 15e.
The stent ends (15a, 15b, 15c, 15d, 15e) are shown as semi-elliptical by way of example, but the end or end of the stent may be semicircular, circular, or have a hole in a part of the stent. The part vicinity should just be a shape which lets a string material pass.
The string member 6 is represented as the shaft fixing side (16x) and the moving end side (16y).

Examples of the material of the wire rod and metal cylindrical structure used for the stent include stainless steel, tantalum, titanium, platinum, gold, tungsten, Ni-Ti, Cu-Al-Ni, Cu-Zn-Al, etc. A metal wire such as a shape memory alloy can be used. It is also possible to use a metal surface that is coated with gold, platinum or the like by means such as plating.
As a material for the wire rod and metal cylindrical structure used for the stent, a shape memory alloy to which a shape memory effect by heat treatment or superelasticity is imparted can be preferably used.
Although the thickness of the wire used for a stent is not specifically limited, For example, in the case of a blood vessel stent etc., 0.08-1 mm is preferable.
Although the thickness of the metal cylindrical structure used for the stent is not particularly limited, for example, in the case of a blood vessel stent or the like, 0.08 to 1 mm is preferable.

The stent can be provided with a cylindrical cover on the outer surface, the inner surface, or both the outer surface and the inner surface of the stent.
The cylindrical cover can be provided on the outer periphery, inner periphery, or both sides of the outer periphery and the inner periphery, preferably on the outer periphery, the inner periphery, or the entire surface on both sides of the outer periphery and the inner periphery.
The cylindrical cover can follow the reduced diameter shape and the expanded shape of the stent, and is preferably a soft tube, woven fabric, knitted fabric, or the like.

The cylindrical cover is formed by forming a thermoplastic resin into a cylindrical shape by extrusion molding, blow molding, or the like, a knitted fabric of thermoplastic resin fibers formed into a cylindrical shape, or a thermoplastic resin nonwoven fabric formed into a cylindrical shape. A cylindrical resin sheet, a porous resin sheet, or the like can be used. Furthermore, as the knitted fabric, known knitted fabrics and woven fabrics such as plain weave and twill weave can be used.
In addition, a cylindrical cover with a crease such as crimping can be used.
The tubular cover is preferably a seamless tubular structure.
A well-known artificial blood vessel etc. can be used for a cylindrical cover.

  The cylindrical cover is particularly excellent in strength, porosity, and productivity because the knitted fabric of thermoplastic resin fibers formed in a cylindrical shape and the plain weave fabric of thermoplastic resin fibers formed in a cylindrical shape are excellent. Is preferable.

  The cylindrical cover can be connected to part or all of the stent. Examples of the method of connecting the cylindrical cover to the stent include a method of sewing, a method of using an adhesive, and a method of fusing with a thermoplastic resin.

The material of the cylindrical cover is polyolefin such as polyethylene, polypropylene, ethylene / α-olefin copolymer, polyamide, polyurethane, polyethylene terephthalate, polybutylene terephthalate, polycyclohexane terephthalate, polyester such as polyethylene-2,6-naphthalate, poly Fluorine resins such as fluorinated ethylene and polyfluorinated propylene, thermoplastic resins such as silicone, polylactic acid, polyglycolic acid, and polyurethane, and resin fibers thereof can be used.
In particular, the material of the cylindrical cover is preferably a chemically stable and highly durable polyester resin such as polyethylene terephthalate, a fluororesin such as polyfluorinated ethylene or polyfluorinated propylene, and these resin fibers. be able to.

  As the resin fiber, a spinnable, circular, elliptical, U-shaped, hollow, ribbon-like, cross-sectional shape with a different diameter other than circular or elliptical, and a thickness capable of spinning can be used. .01 to 5 denier, further 0.1 to 3 denier, especially more than 0.8 to 3 denier monofilament number to several hundred, further 10 to 700, especially 10 to 100 twisted yarn or bundle Can be used.

The porosity of the cylindrical cover can be used without particular limitation as long as it does not impair the use of the stent, but is 0 to 3000 [ml / (cm ² · min · 120 mmHg), 37 ° C.]. preferable.
The wall thickness of the cylindrical cover can be used without particular limitation as long as it does not impair the use of the stent, but is preferably 30 to 2000 μm.
The cylindrical cover may be fixed to the stent at one or more portions.

  The cylindrical cover, the resin fibers that make up the cylindrical cover, and the wire and metal tubular structures that make up the stent are coated with a biocompatible material such as heparin, collagen, acetylsalicylic acid, and gelatin. Can be used.

The string material may be any string material that does not impair the characteristics of the present invention, and the material, shape, thickness, and the like can be appropriately selected and used.
As the material used for the string material, synthetic resin such as the above-described cylindrical cover, resin fiber constituting the cylindrical cover, wire constituting the stent, metal, or the like can be used.

Any string material can be used as long as it does not impair the characteristics of the present invention, and the shape can be linear, tube-shaped, belt-shaped, plate-shaped, or the like.
As the string material, monofilaments, multifilaments and / or resin fibers, etc., and further these woven fabrics, knitted fabrics, braided fabrics, bundles, and the like can be used.
As the string material, polyester such as polyethylene terephthalate, braid of a fluorine-based material such as PTEF, or monofilament yarn can be preferably used.

The material of the string material is polyolefin such as polyethylene, polypropylene, ethylene / α-olefin copolymer, polyamide, polyurethane, polyethylene terephthalate, polybutylene terephthalate, polycyclohexane terephthalate, polyester such as polyethylene-2,6-naphthalate, poly Fluorine resins such as fluorinated ethylene and polyfluorinated propylene, thermoplastic resins such as silicone, polylactic acid, polyglycolic acid, and polyurethane, thermosetting resins, and the like, and resin fibers thereof can be used.
In particular, the material of the cord material is preferably chemically stable, has high durability, has little tissue reaction, polyester such as polyethylene terephthalate, fluorine resin such as polyfluorinated ethylene or polyfluorinated propylene, and these resin fibers. Can do.

The flexible shaft is arranged inside the sheath and plays a role of a guide when the stent is contracted and accommodated in the sheath, when the stent is extruded and expanded, or when the insertion position of the stent is changed. It may be a solid wire, or a hollow cylindrical shape with one end or both ends open, and a guide wire not shown in the drawing can be inserted.
The material of the flexible shaft is, for example, a biocompatible synthetic resin selected from polyamide, polyethylene, polypropylene, polyimide, fluororesin, etc., a superelastic alloy made of Ni-Ti alloy, stainless steel, gold, platinum Superelastic alloys made of Ni-Ti alloy coated with biocompatible synthetic resin selected from radiopaque metals such as tungsten, polyethylene, polyimide, fluororesin, etc., stainless steel, gold, platinum, tungsten A radiopaque metal such as can be preferably used.
What is necessary is just to select the outer diameter of a flexible shaft suitably with an application location, the stent to be used, a sheath, etc.
As the flexible shaft, a rod-like or tube-like polyethylene, polyamide (for example, nylon) resin, a rod-like or tube-like metal such as SUS304 or SUS316L, and a metal coated with a resin such as polyethylene or polyamide are suitably used. Can be used.

The head of the flexible shaft tip is a member that joins the shaft tip and forms a curved surface. In this embodiment, the head plays a role not to damage the inner wall of the tubular organ when the inside of the tubular organ that is the affected part is gradually advanced.
The material of the head can be the same material as the flexible shaft, and is made of, for example, a biocompatible synthetic resin selected from polyamide, polyethylene, polyimide, fluororesin, or the like, or a Ni-Ti alloy. Superelasticity consisting of a superelastic alloy or a Ni-Ti alloy coated with a biocompatible synthetic resin selected from radiopaque metals such as stainless steel, gold, platinum and tungsten, polyethylene, polyimide and fluororesin. A biocompatible material selected from alloys, radiopaque metals such as stainless steel, gold, platinum, and tungsten can be preferably used.
As the head, a resin such as polyethylene or polyamide, a metal such as SUS304 or SUS316L, or a metal obtained by coating these metals with a resin such as polyethylene or polyamide can be suitably used.

The sheath has a hollow cylindrical shape, and is a member that accommodates a reduced diameter stent and a flexible shaft.
The sheath material is preferably a biocompatible synthetic resin selected from, for example, polyolefins such as polyamide and polyethylene, polyesters such as polyurethane and polyethylene terephthalate, polyimide, and fluororesin.
The outer diameter and inner diameter of the sheath may be appropriately selected depending on the application location, but usually about 2 to 20 mm is preferable. The wall thickness of the sheath may be appropriately selected depending on the material to be used and the application location, but is usually preferably about 0.01 to 1 mm.
For the sheath, a resin such as polyamide, polyethylene, polypropylene, or fluororesin can be suitably used.

  Stents, flexible shafts, sheaths, heads, string materials, control string materials, etc. are suitable for use in, for example, both ends, the fixed side of the wire, the moving end side, or the bent part. May be worn. As the X-ray opaque material, for example, gold, platinum, iridium, tantalum, tungsten, silver, or an alloy containing them is preferably used. The radiopaque material can be fixed to the stent by means of soldering, brazing, welding, adhesion, caulking, or the like.

  The stent insertion device of the present invention can be inserted into a human tubular organ such as a blood vessel, ureter, bile duct, trachea, etc., and the stent can be placed in the treatment portion of the tubular organ.

As a stent insertion device, a flexible polyethylene tube (outer diameter 20 French) is used as a sheath, and a stent is made of a nitinol wire (outer diameter: 0.3 mmφ). Using the assembled stent, as a flexible shaft, use a SUS304 (outer diameter: 1.67 mmφ, inner diameter: 1.0 mmφ) tube with one 0.8 mmφ hole as an opening, 12 using an outer diameter of 7 mm made of SUS304, a braid (thickness: about 0.5 mm) made of polyethylene terephthalate (PET) as a string material and a control string material, A stent insertion device having the same shape as that shown in FIG. 5 was created by anchoring the end portion to a flexible shaft.
Using the created stent insertion device,
1) Insert the stent insertion device into the glass tube,
2) Pull out the sheath,
3) Pull out the control string,
4) Pull the string material, unwind the end of the stent anchored to the shaft, and place the stent in place in the glass tube,
5) By removing the shaft having the tip, the stent could be accurately placed in place.

The cross section of an example of the insertion device of the stent using one string material of the present invention is shown typically. FIG. 2 schematically shows the sheath of the stent insertion device of FIG. 1 with the sheath removed. 2 shows an example of a stent placement method of the stent insertion device of FIG. 1. The cross section of another example of the insertion apparatus of the stent of this invention is shown typically. The cross section of another example of the insertion apparatus of the stent of this invention is shown typically. The cross section of another example of the insertion apparatus of the stent of this invention is shown typically. The cross section of another example of the insertion apparatus of the stent of this invention is shown typically. The schematic diagram of the cross section which has fixed one string material to the shaft is shown. The schematic diagram of the cross section which has fixed two string materials to the shaft is shown. The schematic diagram of an example of a stent is shown. The schematic diagram of another example of a stent is shown. An example of the anchoring method to the shaft by tearing the end part of a stent is shown. The cross section of an example of the insertion apparatus of the stent using the two string materials of this invention is shown typically. The cross section of another example of the insertion apparatus of the stent using the two string materials of this invention is shown typically.

Explanation of symbols

1, 11, 21, 31, 41, 51, 81, 91: Stent insertion device, 2: sheath, 3: hollow flexible shaft, 33: rod-shaped flexible shaft, 3a: flexible shaft 3b: distal end of flexible shaft, 3c, 3d, 33c, 33d: shaft fixing portion of string material, 4: head, 5: stent, 5a: stent distal end, 5b: stent distal end, 6, 61, 62: string material, 6a: string material arranged outside the shaft from the fixing portion 3c to the opening portion 9a, 6b: a portion drawn from the opening portion 9b or from the fixing portion 3d to the opening portion 9b 7: Control string material A, 8: Control string material B, 9a, 9b: Flexible shaft opening, 10a, 10b: Unraveling of the string material Final wheel, 201: tubular organ, 202: treatment of tubular organ , 301, 302: stent.

Claims (11)

A flexible tubular sheath;
A stent housed in a reduced diameter state within the sheath;
A flexible shaft inserted through the stent;
A head surface having a curved surface and a head provided at the tip of the flexible shaft;
A stent insertion device having a string member having one end fixed to a flexible shaft;
At least one end selected from the stent tip and the stent end is moored with a string material by tearing and tying,
A stent insertion device, wherein one end (moving end side) of a string member is pulled out from a sheath end.   The stent insertion device according to claim 1, wherein the stent insertion device can further include a control string material that intersects with a final ring of the string material. A flexible tubular sheath;
A stent housed in a reduced diameter state within the sheath;
A flexible shaft inserted through the stent;
A head surface having a curved surface and a head provided at the tip of the flexible shaft;
A stent insertion device having a string member having one end fixed to a flexible shaft;
A stent insertion device having the following feature (A) or feature (B).
・ Feature (A)
The flexible shaft has an opening in the vicinity of the distal end of the stent and the end is open,
The string material (A) is fixed in the vicinity of the stent distal end portion of the flexible shaft, and the space between the fixing portion of the flexible shaft and the opening portion in the vicinity of the stent distal end portion of the flexible shaft is arranged outside the shaft. The flexible shaft is pulled out from the end of the shaft through the flexible shaft through the opening near the distal end of the stent,
The distal end portion of the stent is anchored by a string material (A) disposed outside the shaft between the fixing portion of the flexible shaft and the opening in the vicinity of the distal end portion of the flexible shaft. A stent insertion device characterized by the above.
・ Feature (B)
The flexible shaft has an opening near the end of the stent and the end is open,
The string material (B) is fixed in the vicinity of the stent end portion of the flexible shaft, and is arranged outside the shaft between the fixing portion of the flexible shaft and the opening portion in the vicinity of the stent end portion of the flexible shaft, The flexible shaft is pulled out from the end of the shaft through the flexible shaft through the opening near the end of the stent,
The distal end of the stent is anchored by a string material (B) disposed outside the shaft between the fixed portion of the flexible shaft and the opening near the stent distal end of the flexible shaft. A stent insertion device characterized by the above. One end of the string (A) is fixed near the distal end of the flexible shaft , and one end of the string (B) is fixed near the distal end of the flexible shaft . The stent insertion device according to claim 3. The stent insertion device further includes a control string A that intersects with the final ring of the string material (A), or a control string B that intersects the final ring of the string material (B). The stent insertion device according to claim 3 or 4, which can be provided . A flexible tubular sheath;
A stent housed in a reduced diameter state within the sheath;
A flexible shaft inserted through the stent;
A head surface having a curved surface and a head provided at the tip of the flexible shaft;
A stent insertion device having at least two string members fixed at one end to a flexible shaft;
The stent tip is moored with a string material (A) by unraveling,
One end (moving end side) of the string material (A) is pulled out from the sheath end,
The end of the stent is moored with a string material (B) by tearing and tying,
One end portion (moving end side) of the string member (B) is drawn out from the sheath end portion, and the stent insertion device is characterized in that A flexible tubular sheath;
A stent housed in a reduced diameter state within the sheath;
A flexible shaft inserted through the stent;
A head surface having a curved surface and a head provided at the tip of the flexible shaft;
A stent insertion device having at least two string members fixed at one end to a flexible shaft;
A stent insertion device having the following feature (C), feature (D), or feature (E).
・ Feature (C)
The flexible shaft has an opening in the vicinity of the distal end of the stent and the end is open,
The string material (A) is fixed in the vicinity of the stent distal end portion of the flexible shaft, and the space between the fixing portion of the flexible shaft and the opening portion in the vicinity of the stent distal end portion of the flexible shaft is arranged outside the shaft. The flexible shaft is pulled out from the end of the shaft through the flexible shaft through the opening near the distal end of the stent,
The stent tip is anchored by a tearing knot with a string material (A) disposed outside the shaft between the fixed portion of the flexible shaft and the opening near the stent tip of the flexible shaft,
The string material (B) is fixed in the vicinity of the stent end portion of the flexible shaft,
The end of the stent is moored with a string material (B) by tearing and tying,
One end (moving end side) of the string member (B) is a stent insertion device drawn out from the sheath end.
・ Feature (D)
The flexible shaft has an opening near the end of the stent and the end is open,
The string material (A) is fixed near the distal end of the flexible shaft,
The stent tip is moored with a string material (A) by unraveling,
One end (moving end side) of the string material (A) is pulled out from the sheath end,
The string material (B) is fixed in the vicinity of the stent end portion of the flexible shaft, and is arranged outside the shaft between the fixing portion of the flexible shaft and the opening portion in the vicinity of the stent end portion of the flexible shaft, The flexible shaft is pulled out from the end of the shaft through the flexible shaft through the opening near the end of the stent,
The distal end of the stent is anchored by a string material (B) disposed outside the shaft between the fixed portion of the flexible shaft and the opening near the stent distal end of the flexible shaft. Stent insertion device.
・ Feature (E)
The flexible shaft has an opening in the vicinity of the distal end of the stent and the end is open,
The string material (A) is fixed in the vicinity of the stent distal end portion of the flexible shaft, and the space between the fixing portion of the flexible shaft and the opening portion in the vicinity of the stent distal end portion of the flexible shaft is arranged outside the shaft. The flexible shaft is pulled out from the end of the shaft through the flexible shaft through the opening near the distal end of the stent,
The stent tip is anchored by a tearing knot with a string material (A) disposed outside the shaft between the fixed portion of the flexible shaft and the opening near the stent tip of the flexible shaft,
The string material (B) is fixed in the vicinity of the stent end portion of the flexible shaft, and is arranged outside the shaft between the fixing portion of the flexible shaft and the opening portion in the vicinity of the stent end portion of the flexible shaft, The flexible shaft is pulled out from the end of the shaft through the flexible shaft through the opening near the end of the stent,
The distal end of the stent is anchored by a string material (B) disposed outside the shaft between the fixed portion of the flexible shaft and the opening near the stent distal end of the flexible shaft. Stent insertion device.   The stent insertion device further includes a control string material A that intersects the final ring of the string material (A) and / or a control string material that intersects the final wheel of the string material (B). The stent insertion device according to claim 7, wherein B can be provided. A flexible tubular sheath;
A stent housed in a reduced diameter state within the sheath;
A flexible shaft inserted through the stent;
A head surface having a curved surface and a head provided at the tip of the flexible shaft;
A stent insertion device having a string material (C) having one end fixed to the vicinity of the distal end of the flexible shaft;
The flexible shaft has two openings near the distal end and the distal end of the stent, and the distal end opens.
The string member (C) is disposed outside the shaft between the fixing portion near the distal end portion of the flexible shaft and the opening portion near the stent distal end portion of the flexible shaft, and near the stent distal end portion of the flexible shaft. The flexible shaft is inserted through the opening, a portion of the string material is pulled out at the opening near the end of the stent, and then inserted through the shaft and pulled out from the end of the shaft.
The stent distal end is anchored by a tearing knot with a string member disposed outside the shaft between the fixed portion near the distal end of the flexible shaft and the opening on the stent distal end side of the flexible shaft,
A stent insertion device in which the end of the stent is anchored with a string material drawn from an opening near the end of the stent of the flexible shaft.   The stent insertion device further includes a control string A that intersects with the final knotted ring at the distal end of the stent of the string (C), and / or the final knot at the end of the stent of the string (C). The stent insertion device according to claim 9, wherein a control string B intersecting with the ring can be provided. The stent insertion device according to any one of claims 1 to 10, wherein the stent is provided with a cylindrical cover.