WO2021065997A1 - Medical device - Google Patents

Abstract

[Problem] To provide a fusion promotion device and a medical device with which it is possible to reduce the risk of suture failure after surgery and the like. [Solution] A medical device 1 comprising a fusion promotion device 100 which is disposed between body organs to be joined and promotes fusion of biological tissues, a retaining part 200 which extends outward from the inner side of the fusion promotion device 100 and supports the retention of the fusion promotion device 100 with respect to the body organs, and a support device 300.

Description

Medical device

The present invention relates to a medical device.

In the medical field, a technique of surgically joining biological organs (for example, gastrointestinal anastomosis) is known. It is also known that when the above procedure is performed, it is important as a postoperative prognosis determinant that there is no delay in fusion at the joint where the biological organs are joined.

Various methods and medical instruments are used in the technique of joining living organs. For example, a method of suturing a living organ with a biodegradable suture and a mechanical joining device for anastomosis with a stapler (Patent Document 1). A method using (see) has been proposed. In particular, when anastomosis is performed using a mechanical joining device, the bonding force between biological organs at the joint can be increased as compared with the method using sutures, which reduces the risk of suture failure. Will be possible.

Special Table 2007-505708 Gazette

However, the degree of progression of fusion at the junction also depends on the condition of the biological tissue at the junction target site (joint site) of the patient. Therefore, for example, even when a joining device as described in Patent Document 1 is used, the risk of suture failure may not be sufficiently reduced depending on the condition of the patient's living tissue.

Therefore, an object of the present invention is to provide a medical device capable of reducing the risk of anastomotic insufficiency after surgery or the like.

The medical device according to the present invention is arranged between living organs to be joined, and extends from the inner side to the outer side of a fusion promoting device that promotes fusion of living tissues and the fusion promoting device. It has a holding portion that assists in holding the fusion promoting device with respect to the living organ.

According to the medical device according to the present invention, it is possible to promote the fusion of the biological tissue of the biological organ by sandwiching the fusion promoting device between the biological organs to be joined. In addition, the surgeon assists the holding of the fusion promoting device with respect to the living organ to be joined by using the holding part during the procedure, so that the main body part is displaced from the living organ or deformed. It is possible to prevent it from happening. Therefore, the operator can effectively reduce the risk of anastomotic insufficiency of the living organ.

It is a perspective view which shows the medical device which concerns on one embodiment of this invention. It is a perspective view which shows the fusion promotion device. It is sectional drawing which enlarges and shows a part of the cross section along line 3-3 of FIG. It is a top view which shows the holding part. It is a perspective view which shows the connection part. It is a perspective view which shows the auxiliary device. It is a flowchart which shows each procedure of the treatment method using a medical device. It is a flowchart which shows the procedure of embodiment (colon anastomosis) of a treatment method. It is a figure which shows the vicinity of the abdomen (around the navel) of a patient in which a medical device is placed. It is a schematic cross-sectional view for demonstrating colorectal anastomosis. It is a schematic cross-sectional view for demonstrating colorectal anastomosis. It is a schematic cross-sectional view for demonstrating colorectal anastomosis. It is a schematic diagram which shows the method of taking out an auxiliary device from the body to the outside of the body.

Hereinafter, embodiments of the present invention will be described with reference to the attached drawings. In the description of the drawings, the same elements are designated by the same reference numerals, and duplicate description will be omitted. In addition, the dimensional ratios in the drawings are exaggerated for convenience of explanation and may differ from the actual ratios.

(First Embodiment)
<Medical device 1>
FIG. 1 is a perspective view showing a medical device 1.

As shown in FIG. 1, the medical device 1 is arranged between living organs to be joined, and has a fusion promoting device 100 that promotes fusion of living tissues and a fusion promoting device 100 that faces from the inside to the outside. The fusion promoting device has a holding portion 200 that extends and assists the holding of the fusion promoting device 100 with respect to the living organ, and a mounting portion 310 that can be attached along the outer periphery of the living organ, and is attached to the living organ. It has an auxiliary device 300 that holds 100 against a living organ.

<Union promotion device 100>
FIG. 2 is a perspective view showing the fusion promoting device 100. FIG. 3 is an enlarged cross-sectional view showing a part of the cross section taken along the line 3-3 of FIG.

As shown in FIG. 1, the fusion promoting device 100 has a main body 110 which is arranged between living organs to be joined and promotes fusion of living tissues.

As shown in FIGS. 10 to 12, the fusion promoting device 100 can be applied to a procedure for joining predetermined biological organs (for example, gastrointestinal anastomosis). As will be described later, in the description of the present specification, colon anastomosis will be described as an example of a procedure using the fusion promoting device 100.

<Main body 110>
As shown in FIGS. 1 and 2, the main body 110 is composed of a sheet-shaped member.

As shown in FIGS. 1 and 2, each through hole 112 formed in the main body 110 is regularly and periodically provided in the plane direction of the main body 110. However, each through hole 112 may be randomly provided in each portion in the surface direction of the main body portion 110.

As shown in FIG. 3, each through hole 112 extends substantially vertically between the front surface 111 and the back surface 113 along the thickness direction of the main body 110 (vertical direction in FIG. 3). Each through hole 112 may be bent or curved in a zigzag shape between the front surface 111 and the back surface 113 in a cross section along the thickness direction of the main body 110.

Each through hole 112 has a substantially circular planar shape (the shape when the front surface 111 of the main body 110 or the back surface 113 of the main body 110 is viewed in a plan view). However, the planar shape of each through hole 112 is not particularly limited, and may be, for example, an ellipse or a polygon (rectangle, triangle, etc.). Further, the plane shape and the cross-sectional shape may be different for each through hole 112.

The main body 110 has a substantially circular planar shape. However, the planar shape of the main body 110 is not particularly limited, and may be, for example, an ellipse or a polygon (rectangle, triangle, etc.).

The thickness of the main body 110 (dimension T shown in FIG. 3) is not particularly limited, but is preferably 0.05 to 0.3 mm, more preferably 0.1 to 0.2 mm. When the thickness of the main body 110 is 0.05 mm or more (particularly 0.1 mm or more), the strength is such that the main body 110 is not damaged when the fusion promoting device 100 is handled. On the other hand, when the thickness of the main body 110 is 0.3 mm or less (particularly 0.2 mm or less), the main body 110 adheres to the biological tissue to which the main body 110 is applied and follows the biological tissue. It can be provided with sufficient flexibility.

The main body 110 is a value of the ratio of the hole diameter D (distance D shown in FIG. 3) of the through hole 112 to the pitch P (distance P shown in FIG. 3 and the distance between adjacent through holes 12) of the through hole 112. However, it is preferably 0.25 or more and less than 40. When the planar shape of the through hole 112 is a perfect circle, the hole diameter D of the through hole 112 is equal to the diameter of the perfect circle. On the other hand, when the planar shape of the through hole 112 is not a perfect circle, the diameter of a perfect circle having the same area as the area of the opening of the through hole 112 (the portion of the through hole 112 facing the front surface 111 or the back surface 113) ( The equivalent circle diameter) can be the hole diameter D of the through hole 112.

Since the main body 110 has a plurality of through holes 112, there are a plurality of values of the hole diameter D corresponding to each through hole 112. Therefore, in the present embodiment, in calculating the above-mentioned ratio value, the arithmetic mean value of two or more points of the hole diameter D values corresponding to the plurality of through holes 112 is used as the representative value of the hole diameter D. .. On the other hand, the pitch P of the plurality of through holes 112 is defined by the shortest distance between the openings of the two through holes 112. However, as for the value of the pitch P, there are a plurality of values of the pitch P corresponding to the combination of the adjacent through holes 112. Therefore, in the present embodiment, in calculating the above-mentioned ratio value, the arithmetic mean value of two or more points of the pitch P values corresponding to the combinations of the adjacent through holes 112 is used as the representative value of the pitch P. And.

The pitch P, the hole diameter D, the ratio of the hole diameter D to the pitch P, and the like of the through hole 112 are merely examples, and are not limited thereto.

The main body 110 can be made of a biodegradable material. The constituent material of the main body 110 is not particularly limited, and examples thereof include biodegradable resins. As the biodegradable resin, for example, those described in Japanese Patent Publication No. 2011-528275, Japanese Patent Publication No. 2008-514719, International Publication No. 2008-1952, Japanese Patent Publication No. 2004-509205 and the like are known. Biodegradable (co) polymers can be used. Specifically, it is selected from the group consisting of (1) aliphatic polyester, polyester, polyacid anhydride, polyorthoester, polycarbonate, polyphosphazene, polyphosphate ester, polyvinyl alcohol, polypeptide, polysaccharide, protein, and cellulose. Polymer; (2) A copolymer composed of one or more monomers constituting the above (1) and the like can be mentioned. That is, the biodegradable sheet is selected from the group consisting of aliphatic polyesters, polyesters, polyacid anhydrides, polyorthoesters, polycarbonates, polyphosphazenes, polyphosphates, polyvinyl alcohols, polypeptides, polysaccharides, proteins, and celluloses. It preferably contains at least one biodegradable resin selected from the group consisting of a polymer and a copolymer composed of one or more monomers constituting the polymer.

The manufacturing method of the main body 110 is not particularly limited, and examples thereof include a method of manufacturing a fiber made of the above-mentioned biodegradable resin and manufacturing a mesh-shaped sheet using the fiber. The method for producing the fiber made of a biodegradable resin is not particularly limited, and examples thereof include an electrospinning method (electrospinning method / electrostatic spinning method) and a melt blow method. As the main body 110, only one of the above methods may be selected and used, or two or more of the above methods may be selected and appropriately combined. As yet another example of the method for manufacturing the main body 110, the biodegradable sheet according to the present invention is obtained by spinning the fibers made of the biodegradable resin described above according to a conventional method and knitting the obtained fibers into a mesh shape. May be manufactured.

The main body 110 induces a biological reaction by a constituent material such as a biodegradable resin constituting the main body 110. The main body 110 induces the expression of biological components such as fibrin by this action. The biological components induced in this way can promote fusion by accumulating so as to penetrate through the through hole 112 of the main body 110. Therefore, by arranging the main body 110 of the fusion promoting device 100 between the biological organs to be joined, the fusion is promoted by the above mechanism.

The material of the main body 110 does not have to be biodegradable as long as it can promote fusion. Further, the main body 110 may not have a through hole 112 formed regardless of the material, as long as it is possible to promote fusion.

As shown in FIGS. 1 and 2, the main body 110 has a hole 114 having a hole diameter larger than that of the through hole 112. The hole 114 is formed in a range including the center position O1 (center position on the plan view) of the main body 110. The center position O1 is the center of rotation of the main body 110 when the main body 110 has a rotationally symmetric shape.

The hole 114 has a circular planar shape. The hole diameter of the hole 114 can be formed to be, for example, 5 mm to 25 mm. The planar shape of the hole 114 is not particularly limited, and may be, for example, an ellipse or a polygon (rectangle, triangle, etc.). Further, the size of the hole 114 is not particularly limited.

The hole 114 may be created in the main body 110 in advance, or may be created by the operator while the procedure is being performed. The surgeon can select various modifications of the main body 110 according to the progress of the procedure and the like.

<Holding unit 200>
Next, the holding unit 200 according to the present invention will be described.

FIG. 4 is a top view showing the holding portion 200. FIG. 5 is a perspective view showing the connection portion 220.

As shown in FIGS. 1 and 4, the holding portion 200 enables connection between a plurality of traction portions 210 that impart a holding force to the main body portion 110 by being pulled, and each of the traction portions 210. It has a connecting portion 220 and.

The traction portion 210 is a long member (for example, thin) having a predetermined length and a cross-sectional shape that can be inserted (connected) into the hooking portion (corresponding to the “second hooking portion”) 222 of the connecting portion 220 described later. It can be composed of a string-shaped member having a diameter or a band-shaped member having a predetermined width). The length of the towed portion 210 is not particularly limited.

The connecting portion 220 has a substantially circular rotationally symmetric planar shape. However, the planar shape of the connecting portion 220 is not particularly limited, and may be, for example, an ellipse or a polygon (rectangle, triangle, etc.).

The connecting portion 220 has a plurality of hooking portions 222. The hooking portion 222 is composed of a through hole penetrating between the front surface 221 and the back surface 223 of the connecting portion 220. Each hook portion 222 has a substantially circular planar shape, and is configured so that the above-mentioned traction portion 210 can be inserted. Therefore, the connecting portion 220 is connected to each of the traction portions 210 by the hooking portion 222, and each of the traction portions 210 can easily hold the fusion promoting device 100 to the living organ by the connecting portion 220. As shown in FIGS. 4 and 5, each hooking portion 222 formed on the connecting portion 220 is regularly and periodically provided in the plane direction of the connecting portion 220.

As shown in FIG. 5, the connecting portion 220 has a hole portion 224 having a hole diameter larger than that of the hooking portion 222. The hole portion 224 is formed in a range including the center position O2 (center position on the plan view) of the connecting portion 220. The center position O2 is the center of rotation of the connecting portion 220 when the connecting portion 220 has a rotationally symmetric shape.

The hole 224 has a circular planar shape. The hole diameter of the hole portion 224 can be formed to be, for example, 5 mm to 25 mm. The planar shape of the hole 224 is not particularly limited, and may be, for example, an ellipse or a polygon (rectangle, triangle, etc.). Further, the size of the hole 224 is not particularly limited.

As shown in FIG. 4, the holding portion 200 according to the present embodiment has eight traction portions 210, eight hook portions 222 and eight hook portions 224 provided corresponding to the respective traction portions 210, and eight traction portions 224. It has a connecting portion 220 that enables connection with each of the traction portions 210.

The holding portion 200 is arranged on the surface 111 side of the fusion promoting device 100 when the fusion promoting device 100 is arranged on the biological tissue to be joined. As shown in FIG. 1, the hooking portion 222 of the connecting portion 220 according to the present embodiment is arranged on the inner upper portion of the fusion promoting device 100.

As shown in FIGS. 1 and 4, the traction portion 210 has one end connected to the connecting portion 220 and extends from the inner side to the outer side of the fusion promoting device 100 so that the fusion promoting device 100 can be formed. It is possible to assist the retention of the fusion promoting device 100 with respect to the living organ when it is placed in the living tissue to be joined. As a result, the holding portion 200 can prevent the main body 110 of the fusion promoting device 100 from being displaced from the living organ or being twisted and deformed. Therefore, the operator can effectively reduce the risk of anastomotic insufficiency of living organs.

When a plurality of hooking portions 222 are provided in one connecting portion 220, it is preferable that at least one set of hooking portions 222 is provided in pairs at opposite portions of the connecting portion 220. As a result, the operator can apply traction force to the two opposing positions of the main body 110 of the fusion promoting device 100, so that the main body 110 of the healing promoting device 100 is more stable with respect to the biological organ. Can be held as a target. In the present embodiment, as shown in FIG. 4, four sets of hooking portions 222 are provided in pairs at opposite portions of the connecting portion 220. That is, in the present embodiment, four sets of eight towing portions 210 provided corresponding to each hooking portion 222 are provided in pairs at the opposing portions of the connecting portion 220.

As shown in FIG. 4, four virtual lines C1, C2, C3, which are orthogonal to each other at the center position O2 of the connecting portion 220, are opposed to each other when the connecting portion 220 has a rotationally symmetric planar shape. It means a position on C4 facing the center position O2 of the connecting portion 220 with the center position O2 in between.

Further, as shown in FIGS. 1 and 4, the connecting portion 220 according to the present embodiment is attached to the first engaging device 710 arranged at one joining portion of the living organ and the other joined portion of the living organ. When the fusion promoting device 100 is joined to the living tissue by a medical device (joining device 700) provided with the second engaging device 720 arranged and facing the first engaging device 710, the second engaging device 720 is used. It is located inward of the punching area E1 (see FIG. 12).

Examples of the joining device 700 for joining the living organs include an automatic anastomosis device including the first engaging device 710 and the second engaging device 720 (see FIGS. 10 to 12). The first engagement device 710 may be referred to as an anvil and the second engagement device 720 may be referred to as a trocar. In a predetermined procedure, a sheet-shaped fusion promoting device 100 capable of promoting fusion can be preferably used.

When the fusion promoting device 100 is used in the procedure using the joining device 700, the operator first inserts the engaged portion 711 of the first engaging instrument 710 into the oral side A1 of the large intestine, as shown in FIG. Then, the engaged portion 711 is sewn with a purse in a state of protruding from the oral side A1 of the large intestine to form the sutured portion A11. At this time, the sutured portion A11 has a shape in which one of the biological tissues to be joined is at least partially moved inward in the radial direction and raised in order to form a joining portion when the biological tissues are joined by the joining device 700. It becomes.

In the above procedure, the operator arranges the fusion promoting device 100 so that the back surface 113 side is in contact with the outer surface of the suture portion A11. Then, the holding portion 200 is arranged on the surface 111 side of the fusion promoting device 100. At this time, each of the traction portions 210 of the holding portion 200 is towed by forceps, an auxiliary device 300 described later, or the like. Therefore, the fusion promoting device 100 is held by each of the traction portions 210 with respect to the outer surface of the suture portion A11. This allows the surgeon to prevent the fusion promoting device 100 from falling out of the living organ during the procedure.

Further, the surgeon sets the first engaging instrument 710 and the second engaging instrument 720 on the biological organ to be joined, and in a state where the first engaging instrument 710 and the second engaging instrument 720 are engaged with each other. A part of the biological organ sandwiched between the joining device 700, a part of the main body 110, a connecting part 220, and a part of the holding part 200 are punched blades built in the second engaging device 720. Punch out by (not shown). At this time, the traction portion 210 of the holding portion 200 is cut by the punching blade, and a part of the connecting portion 220 and the traction portion 210 of the holding portion 200 is punched and cut off. Further, the operator cuts each component sandwiched between the joining devices 700 by the joining device 700, and at the same time, joins the periphery of the cut portion. Then, the joining device 700 is taken out of the living body (see FIG. 12).

In the above procedure, the operator can remove the connecting portion 220 located on the inner side of the region E1 punched by the second engaging instrument 720 by the joining device 700. Further, when the joining device 700 is taken out of the living body, the operator can take out a part of the connecting portion 220 and the traction portion 210 out of the living body.

The material of the traction portion 210 can impart a holding force for holding the main body portion 110 to the living tissue in a state of being inserted into the hooking portion 222 of the connecting portion 220, and the second engaging device 720 can be provided. It is not particularly limited as long as it can be cut by the punching blade built in the. The traction section 210 is a thermoplastic elastomer such as vinyl chloride, polyurethane elastomer, polystyrene elastomer, styrene-ethylene-butylene-styrene copolymer (SEBS), styrene-ethylene-propylene-styrene copolymer (SEPS), nylon. , PET and other thermoplastic resins, rubber, silicone elastomer, fiber material, SUS wire, copper wire, titanium wire, nitinol wire and other metals, biodegradable (co) polymer and the like.

Further, the cross-sectional shape and thinness of the traction portion 210 are not particularly limited as long as the anastomosis by the joining device 700 is not hindered.

Further, the method of connecting each tow portion 210 to the connection portion 220 is not particularly limited.

The material of the connecting portion 220 is not particularly limited. The connection portion 220 can be made of, for example, a thermoplastic elastomer, a thermoplastic resin such as nylon or PET, or a metal.

Further, the number of the hooking portion 222 and the towing portion 210 provided on the connecting portion 220 is not particularly limited. Each of the hooking portions 222 may not be provided regularly and periodically, and may not be arranged at positions facing each other.

The thickness of the connecting portion 220 is not particularly limited, but is preferably 0.01 to 10 mm. When the thickness of the connecting portion 220 is 0.01 mm or more, the strength is such that the connecting portion 220 is not damaged when the medical device 1 is handled. On the other hand, when the thickness of the connecting portion 220 is 10 mm or less, the connecting portion 220 can be used without disturbing the anastomosis by the joining device 700 when the biological organ to which the medical device 1 is applied is joined. However, the thickness of the connecting portion 220 can be appropriately changed depending on the material of the connecting portion 220.

Further, the planar shape of each hooking portion 222 (the shape when the front surface 221 of the connecting portion 220 or the back surface 223 of the connecting portion 220 is viewed in a plane) is not particularly limited. For example, it may be an ellipse or a polygon (rectangle, triangle, etc.). Further, the planar shape and the cross-sectional shape may be different for each hook portion 222.

Further, each hooking portion 222 may extend substantially vertically between the front surface 221 and the back surface 223 along the thickness direction of the connecting portion 220, or the front surface 221 and the back surface may extend substantially vertically along the thickness direction of the connecting portion 220. It may be bent in a zigzag shape with or from 223.

Further, each hooking portion 222 may have a structure other than the through hole. For example, the hooking portion 222 may be a slit (cut) formed in the mounting portion 310 or the like.

Further, the holding portion 200 may be provided integrally with the fusion promoting device 100 by fixing the connecting portion 220 to the main body portion 110 in advance. When the fusion promoting device 100 is placed on the living organ, the operator can place the holding portion 200 on the living organ.

Further, the holding portion 200 may include only the traction portion 210, and the traction portion 210 may be integrally configured with the main body portion 110 of the fusion promoting device 100.

When the traction portion 210 is integrally configured with the fusion promoting device 100, the traction portion 210 is formed along the inner peripheral edge 115 of the main body portion 110 and the other portion of the main body portion 110 (through hole 112 is formed). A reinforcing portion (not shown) having higher rigidity than the portion) may be connected. At this time, the reinforcing portion is arranged on at least one of the front surface 111 and the back surface 113 of the main body 110, and one end of the traction portion 210 is connected to the front surface 111 side of the main body 110. The reinforcing portion may be formed over the entire range of the inner peripheral edge 115 along the circumferential direction of the main body portion 110 (direction indicated by arrows R1-R2 in FIG. 2), and is a part of the inner peripheral edge 115. It may be formed only in.

The surgeon can use the fusion promoting device 100 and the holding portion 200 in an appropriate combination according to the progress of the procedure and the like.

<Auxiliary device 300>
Next, the auxiliary device 300 according to the present invention will be described.

FIG. 6 is a perspective view showing the auxiliary device 300.

As shown in FIGS. 1 and 6, the auxiliary device 300 has a mounting portion 310 that can be mounted along the outer circumference of a biological organ (for example, the oral side A1 of the large intestine) and a mounting portion 310 formed in the mounting portion 310 through which the biological organ is inserted. The insertion portion 320, the communication portion 330 formed in the mounting portion 310 and communicating the outer peripheral side surface 317 of the mounting portion 310 and the insertion portion 320, and the traction portion 210 of the mounting portion 310 and the holding portion 200 formed in the mounting portion 310. It has a hooking portion (corresponding to the "first hooking portion") 340 for connecting the above.

As shown in FIGS. 10 to 12, the auxiliary device 300 maintains the holding force imparted to the main body 110 when the holding portion 200 imparts the holding force for holding the fusion promoting device 100 to the living tissue. Used for. Specifically, the auxiliary device 300 is arranged on the back surface 113 side of the fusion promoting device 100, and in a state where the mounting portion 310 of the auxiliary device 300 is mounted on a living organ, the holding portion 200 is attached to the hooking portion 340 of the mounting 310. By connecting the traction unit 210, a traction force can be applied to the traction unit 210. Therefore, the traction portion 210 of the holding portion 200 can maintain holding the fusion promoting device 100 against the living organ. As a result, the operator can hold the fusion promoting device 100 against the living organ by using the auxiliary device 300 without grasping or pulling the traction portion 210 with his or her fingers or the like. Therefore, the auxiliary device 300 can maintain the retention of the fusion promoting device 100 even in the abdominal cavity.

As shown in FIG. 6, the mounting portion 310 has a substantially circular planar shape. However, the planar shape of the mounting portion 310 is not particularly limited, and may be, for example, an ellipse or a polygon (rectangle, triangle, etc.). The insertion portion 320 is formed by a substantially circular through hole formed in a predetermined range including the center position of the mounting portion 310. The communication portion 330 is composed of a gap portion having a predetermined width.

When the attachment portion 310 is attached to the living organ, the operator guides the living organ into the insertion portion 320 through the communication portion 330. At this time, the operator can guide the living organ into the insertion portion 320 while guiding the mesentery into the gap portion of the communication portion 330. Further, the biological organ guided to the insertion portion 320 via the communication portion 330 is suppressed around the insertion portion 320 and partially deformed into a bent state. The mounting portion 310 is mounted along the outer peripheral portion of the living organ in a bent state.

The hook portion 340 is composed of a through hole penetrating between the front surface 311 and the back surface 312 of the mounting portion 310. The mounting portion 310 is provided with a plurality of hooking portions 340. Each hooking portion 340 is arranged at a different position in the circumferential direction of the mounting portion 310. In the present embodiment, as shown in FIG. 6, four sets of hooking portions 340 are provided in pairs at facing portions of the mounting portion 310, and are provided corresponding to the number of towing portions 210 of the holding portion 200. Has been done.

The mounting portion 310 is made of a material harder than the main body 110 of the fusion promoting device 100 so that the mounting portion 310 does not twist and deform when mounted on a biological organ. preferable. For example, the mounting portion 310 can be formed of an elastic material such as rubber.

The mounting portion 310 may be provided with a core material such as a metal wire inside to increase the mounting force on a living organ. Further, by providing magnets at both ends of the mounting portion 310 forming the communication portion 330, both ends of the mounting portion 310 are attracted after the mounting portion 310 is mounted on the living organ, thereby increasing the mounting force on the living organ. You may.

Further, each of the hooking portions 340 provided at both ends of the mounting portion 310 may be attached in a state where each of the towing portions 210 intersects with each other. In this case, the traction portions 210 attached so as to intersect each other act in a direction of narrowing the gap portion of the communication portion 330. Therefore, the traction portion 210 attached in this way can improve the holding force for holding the auxiliary device 300 against the living organ.

Further, the outer peripheral side surface 317 of the mounting portion 310 may be surface-treated to improve the passability. Further, the inner peripheral surface of the insertion portion 320 is coated to increase the friction generated between the insertion portion 320 and the biological organ, an uneven portion for increasing the friction is provided, a member for preventing slipping, etc. May be placed.

Further, the method of connecting each tow portion 210 of the holding portion 200 to the mounting portion 310 is not particularly limited. In the present embodiment, each traction portion 210 is connected to the mounting portion 310 by being inserted into each hook portion 340 formed in the mounting portion 310, but the hooking portion 340 corresponds to the number of traction portions 210. (A plurality of towing portions 210 may be connected to one hooking portion 340), and each of the hooking portions 340 may not be arranged at opposite positions.

Further, the planar shape of each hooking portion 340 (the shape when the front surface 311 of the mounting portion 310 or the back surface 312 of the mounting portion 310 is viewed in a plane) is not particularly limited. For example, it may be an ellipse or a polygon (rectangle, triangle, etc.). Further, the planar shape and the cross-sectional shape may be different for each hook portion 340.

Further, each hook portion 340 may extend substantially vertically between the front surface 311 and the back surface 312 along the thickness direction of the connection portion 220, or the front surface 221 and the back surface may extend in a cross section along the thickness direction of the connection portion 220. It may be bent in a zigzag shape with or from 223.

Further, each hook portion 340 may have a structure other than the through hole. For example, the hooking portion 340 may be a slit (cut) formed in the mounting portion 310 or the like.

Further, each hooking portion 340 may be provided integrally with the holding portion 200 by connecting the towing portion 210 in advance as shown in FIG. 1, or is provided separately from the holding portion 200. The operator may connect each traction portion 210 to each hook portion 340 in the middle of the procedure.

<Example of treatment method (living organ anastomosis)>
Next, a treatment method using a fusion promoting device will be described.

FIG. 7 is a flowchart showing each procedure of the treatment method using the fusion promoting device.

The treatment method is to place a fusion promoting device having a sheet-like main body that promotes fusion of living tissues at one of the jointed sites to be joined to the living organs (S11), and to hold the fusion promoting device on the living organs. (S12), a fusion promoting device having a sheet-like main body portion that promotes fusion of biological tissues is arranged between one bonded site to be joined to a biological organ and the other bonded site. (S13), one joined portion and the other joined portion are joined with at least a part of the main body of the fusion promoting device arranged between one joined portion and the other joined portion. That (S14), including.

The living organ to be joined by the treatment method and the joining site in the living organ are not particularly limited and can be arbitrarily selected. However, in the following description, colon anastomosis will be described as an example. Further, as the union promoting device used in each of the procedures described below, for example, any one can be selected from the above-mentioned union promoting devices, and other union promoting devices can be selected. You can also. However, in the following description, a usage example of a specific fusion promoting device will be described as a typical example that can be suitably used for each procedure. Further, in each procedure described below, detailed description of known procedure procedures and known medical devices / instruments will be omitted as appropriate.

Hereinafter, in the description of the present specification, "arranging the fusion promoting device between the living organs" means that the fusion promoting device is arranged in a state of being in direct or indirect contact with the living organ, and the living organ and the living organ. The fusion-promoting device is placed with a spatial gap formed between the two, or the fusion-promoting device is placed in both states (for example, the fusion-promoting device comes into contact with one of the biological organs). , The other biological organ is placed in a state where the fusion promoting device is not in contact with the organ). Further, in the description of the present specification, the term "periphery" does not define a strict range (region), but a predetermined range (region) as long as the purpose of treatment (bonding between biological organs) can be achieved. Means. In addition, the order of the procedure procedures described in each treatment method can be changed as appropriate as long as the purpose of the treatment can be achieved. In addition, "assisting the retention of the fusion promoting device on the biological organ" means the work of holding the fusion promoting device on the biological organ, the preparatory work for carrying out the holding work, and the maintenance of the retention on the biological organ. Includes at least one of the tasks for. Further, in the description of the present specification, "relatively approaching" means both bringing two or more objects to be approached close to each other and bringing only one close to the other.

<Example of treatment method (colon anastomosis)>
FIG. 8 is a flowchart showing the procedure of the embodiment of the treatment method (colon anastomosis). FIG. 9 is a diagram showing the vicinity of the abdomen (around the navel) of the patient in which the medical device 1 is placed. 10 to 12 are diagrams for explaining the colorectal anastomosis. FIG. 13 is a schematic view showing a method of taking out the auxiliary device 300 from the inside of the body to the outside of the body.

In the treatment method according to the present embodiment, the biological organ to be joined is the large intestine that has been cut due to the excision of the cancer tumor. Specifically, the biological organs to be joined are the oral side A1 of the cut large intestine and the anal side A2 of the cut large intestine. In the following description, the procedure for joining the area around the mouth of the cut colon on the oral side A1 (one joined site) and a part of the intestinal wall on the anal side A2 of the cut large intestine (the other joined site) will be described. explain.

As shown in FIG. 8, the treatment method according to the present embodiment is to dispose the fusion promoting device around the mouth of the large intestine (S101) and assist the holding of the fusion promoting device around the mouth of the large intestine (S102). ), Place a fusion promoting device between the area around the mouth of the large intestine and the intestinal wall of the large intestine (S103), make the area around the mouth of the large intestine relatively close to the intestinal wall of the large intestine (S104), The main body of the fusion promoting device is sandwiched between the periphery of the mouth and the intestinal wall of the large intestine (S105), and the main body of the fusion promoting device is sandwiched between the periphery of the mouth of the large intestine and the intestinal wall of the large intestine. It includes joining (S106) and placing the main body of the fusion promoting device between the periphery of the mouth of the large intestine and the intestinal wall of the large intestine (S107).

Next, with reference to FIGS. 9 to 13, the treatment method according to the present embodiment will be specifically described.

First, the surgeon forms a hole-like part called a port R around the navel of the body surface H (the part indicated by x in FIG. 9) in FIG. 9, and inflates the patient's abdomen. In FIG. 9, two ports R are formed on the left and right sides of the navel, but the positions and numbers of the ports R are merely examples and are not limited to FIG.

Next, the operator makes an incision around the navel indicated by x in FIG. 9, takes out the affected part of the oral side A1 from the incision, and engages the first engagement of the joining device 700 with the oral side A1 of the large intestine. Insert the instrument 710. The operator inserts the engaged portion 711 of the first engaging device 710 into the oral side A1 of the large intestine, and draws a purse stitch with the engaged portion 711 protruding to form the sutured portion A11. The outer surface of the sewn portion A11 becomes uneven as the sewn portion A11 is sewn.

As the joining device 700, for example, a known device used for colorectal anastomosis can be used. With the engagement of the first engaging instrument 710 and the second engaging instrument 720, the joining device 700 together with excision of the biological tissue arranged between the first engaging instrument 710 and the second engaging instrument 720. The circumference of the excised living tissue is sewn in a circumferential shape with a staple. The first engaging instrument 710 is, for example, an instrument including a tubular engaged portion 711, and the second engaging instrument 720 is inserted and engaged with, for example, the engaged portion 711 of the first engaging instrument 710. An instrument comprising an engaging pin 721 to be fitted.

Next, the surgeon arranges the fusion promoting device 100, the holding portion 200, and the auxiliary device 300 on the living tissue on the oral side A1 of the large intestine. When arranging the fusion promoting device 100, the operator attaches the engaged portion 711 included in the first engaging device 710 to the hole 114 (see FIG. 1) formed in the main body portion 110 of the fusion promoting device 100. The back surface 113 side of the fusion promoting device 100 is placed in contact with the outer surface of the sutured portion A11 through the hole portion 224 (see FIG. 1) formed in the connecting portion 220 of the holding portion 200. Then, the operator attaches the attachment portion 310 of the auxiliary device 300 to which the traction portion 210 of the holding portion 200 is connected to the living organ.

Next, the surgeon assists in holding the main body 110 with respect to the oral A1 of the large intestine in order to prevent the main body 110 from shifting from the oral side A1 of the large intestine or the main body 110 from being twisted and deformed. Do the work to do. Specifically, the operator pulls the traction portion 210 of the holding portion 200 toward one end side of the large intestine (the side opposite to the side facing the anal side A2 of the large intestine), thereby pulling the main body portion 110 toward the oral side A1 of the large intestine. Press on. Therefore, the main body 110 can be firmly held against the sutured portion A11 forming the uneven surface shape and the peripheral portion thereof. At this time, in order to hold the main body 110 more stably with respect to the oral side A1 of the large intestine, the operator has a set of traction portions 210 arranged at opposite positions of the connecting portion 220 of the holding portion 200. It is preferable to pull the hooking portion 340 of the connected auxiliary device 300 at the same time. The surgeon can maintain a state in which the holding force for holding the main body 110 against the living tissue is imparted by using the auxiliary device 300 attached to the living organ. This allows the surgeon to prevent the fusion promoting device 100 from falling out of the living organ during the procedure. Therefore, the operator can effectively reduce the risk of anastomotic insufficiency of the living organ.

Next, the operator accommodates the biological tissue on the oral side A1 of the large intestine in which the fusion promoting device 100, the holding portion 200, and the auxiliary device 300 are arranged through the incision portion indicated by x in FIG.

Next, the operator places the second engaging instrument 720 of the joining device 700 on the anal side A2 of the large intestine. As the second engaging device 720 is placed (inserted) on the anal side A2 of the large intestine, a through hole A21 is formed in the anal side A2 of the large intestine. The timing of forming the through hole A21 is not particularly limited as long as it is before the second engaging device 720 is arranged. Then, the operator maintains the state in which the main body portion 110 is held with respect to the oral side A1 of the large intestine, and the engaged portion 711 of the first engaging device 710 and the engaging pin 721 of the second engaging device 720. As shown in FIG. 10, the fusion promoting device 100, the holding portion 200, and the auxiliary device 300 are arranged between the oral side A1 of the large intestine and the anal side A2 of the large intestine.

Next, as shown in FIG. 11, the operator holds the fusion promoting device 100 with respect to the sutured portion A11 on the oral side A1 of the large intestine, and engages the first engaging instrument 710 with the second engaging device 710. The instruments 720 are relatively close to each other and engaged. The operator puts the operator between the first engaging device 710 and the second engaging device 720, around the mouth of the oral side A1 of the large intestine, the main body 110 of the fusion promoting device 100, and the intestinal wall of the anal side A2 of the large intestine. The periphery of the formed through hole A21 is sandwiched. The surgeon has a part of the oral side A1 of the large intestine sandwiched between the first engaging device 710 and the second engaging device 720, a part of the main body 110 of the fusion promoting device 100, and a holding part 200. The traction portion 210 of the large intestine and a part of the anal side A2 of the large intestine are cut by the joining device 700. At the same time, the operator operates the joining device 700 to join the periphery of the excised portion with staples (not shown).

Next, as shown in FIG. 12, the operator takes out the joining device 700 from, for example, the anal side A2 of the large intestine to the outside of the living body via the anus. At this time, the surgeon has a part of the oral side A1 of the large intestine located inward from the region E1 punched by the second engaging instrument 720, a part of the main body 110 of the fusion promoting device 100, and a holding part. A part of the traction part 210 of the 200, the connection part 220, and a part of the anal side A2 of the large intestine can be taken out of the living body together with the joining device 700.

Next, the operator removes the auxiliary device 300 from the biological organ using forceps or the like. The hook portion 340 of the removed auxiliary device 300 is connected to the joining device 700 and the rest of the traction portion 210 that has not been taken out of the living body. The auxiliary device 300 utilizes the fact that the auxiliary device 300 is made of an elastic material, and as shown in FIG. 13, the auxiliary device 300 is deformed substantially linearly according to the shape of the lumen of the port R and is located near the abdomen of the patient. It is taken out of the body from the formed port R. This allows the operator to remove the rest of the traction portion 210 of the holding portion 200 and the auxiliary device 300 from the body to the outside of the body.

According to such a treatment method, a joining technique (for example, gastrointestinal tract) is performed by a simple method in which the sheet-shaped main body portion of the fusion promoting device is sandwiched between one joined portion and the other joined portion. The risk of suture failure after anastomosis) can be reduced.

Further, since the fusion promoting device 100 used enhances the holding force of the main body 110 with respect to the biological organ to be joined by the holding portion 200, the fusion promoting device 100 is operated by the operator (when placed in the body). It is possible to prevent it from falling off from a living organ. Therefore, the risk of anastomotic insufficiency after surgery or the like can be reduced.

As described above, the medical device 1 according to the present embodiment is arranged between the biological organs to be joined, from the fusion promoting device 100 that promotes the fusion of living tissues, and from the inner side of the fusion promoting device 100. It has a holding portion 200 that extends outward and assists in holding the fusion promoting device 100 to a living organ.

According to the medical device 1 as described above, the fusion of the biological tissues of the biological organs can be promoted by sandwiching the fusion promoting device 100 between the biological organs to be joined. Further, while the procedure is being performed, the surgeon assists the holding of the fusion promoting device 100 with respect to the living organ to be joined by using the holding portion 200, so that the fusion promoting device 100 is displaced from the living organ. It is possible to prevent it from being twisted and deformed. Therefore, the operator can effectively reduce the risk of anastomotic insufficiency of the living organ.

Further, it has a hooking portion (first hooking portion) 340 that can be connected to the holding portion 200 and a mounting portion 310 that can be mounted along the outer circumference of the living organ, and is a fusion promoting device in a state of being mounted on the living organ. Auxiliary device 300 for holding 100 against a living organ is provided. Thereby, the operator can maintain the holding unit 200 holding the fusion promoting device 100 against the living organ by using the auxiliary device 300.

Further, the auxiliary device 300 includes an insertion portion 320 formed in the mounting portion 310 through which a living organ is inserted, a communication portion 330 formed in the mounting portion 310 and communicating the outer peripheral side surface 317 of the mounting portion 310 and the insertion portion 320. Has. Thereby, the operator can guide the biological organ into the insertion portion 320 through the communication portion 330 when the attachment portion 310 is attached to the biological organ.

Further, the holding portion 200 includes a plurality of traction portions 210 that impart a holding force to the fusion promoting device 100 by being pulled. This allows the operator to more reliably hold the fusion promoting device 100 to the living organ via the traction portion 210.

Further, the holding portion 200 includes a connecting portion 220 provided with a plurality of hooking portions (second hooking portions) 222 that enable connection with each of the towing portions 210. As a result, the connecting portion 220 is connected to each of the traction portions 210 by the hooking portion 222, and each of the traction portions 210 can easily hold the fusion promoting device 100 to the living organ by the connecting portion 220.

Further, the connecting portion 220 has a rotationally symmetric planar shape, and at least one set of hooking portions (second hooking portions) 222 is provided in pairs at opposite portions of the connecting portion 220. As a result, the operator can apply traction force to the two opposing positions of the fusion promoting device 100, so that the fusion promoting device 100 can be held more stably with respect to the living organ.

Further, the connecting portion 220 has a first engaging device 710 arranged at one joining site of the living organ and a second engaging device 710 arranged at the other joining site of the living organ and facing the first engaging device 710. It has an instrument 720 and a hole 114 through which a joining device (medical instrument) 700 including the instrument 720 can be inserted. As a result, when the surgeon uses the fusion promoting device 100 for colorectal anastomosis or the like, the surgeon can easily attach the fusion promoting device 100 to the joining device 700 or the like by using the hole 114.

Further, the connecting portion 220 is located on the inner side of the region E1 punched out by the second engaging device 720 when the fusion promoting device 100 is joined to the living tissue by the joining device (medical device) 700. Thereby, the operator can remove the connection portion 220 by the joining device 700. Further, when the joining device 700 is taken out from the living body, the operator can take out the connecting portion 220 from the living body.

Further, the connection portion 220 is provided integrally with the fusion promotion device 100. Thereby, the operator can arrange the holding portion 200 in the biological organ when the fusion promoting device 100 is arranged in the biological organ.

Further, the connection portion 220 is provided separately from the fusion promotion device 100. As a result, the fusion promoting device 100 and the traction unit 210 connected to the connecting unit 220 can be used in an appropriate combination according to the progress of the procedure or the like.

Although the fusion promoting device and the medical device according to the present invention have been described above through the embodiments, the present invention is not limited to the contents described in the embodiments, and the invention is appropriately modified based on the description of the claims. It is possible.

For example, the biological organ to be joined, the site to be joined, the specific procedure, and the like are not limited to those described in the embodiment. Further, the material, size, shape, specific structure, etc. of the medical device are not particularly limited as long as the main body of the fusion promoting device has a function of promoting fusion of living tissue at the jointed portion.

This application is based on Japanese Patent Application No. 2019-179528 filed on September 30, 2019, the disclosure of which is cited as a whole by reference.

1 medical device,
100 fusion promotion device,
200 holder,
210 Tow part,
220 connection,
222 Hooking part (1st hooking part),
300 auxiliary devices,
310 mounting part,
320 insertion part,
330 Communication Department,
340 hooking part (second hooking part),
700 joining equipment,
710 First Engagement Device,
711 Engaged part,
720 Second Engagement Device,
721 engagement pin,
A1 mouth side,
A11 sutured part,
A2 anal side,
A21 through hole,
D hole diameter,
Area where the E1 joining device punches the joined biological organ,
H body surface,
O1 Center position of the main body,
Center position of O2 connection,
P pitch,
R port,
T The thickness of the main body.

Claims (10)

1. A fusion-promoting device that is placed between the biological organs to be joined and promotes the fusion of living tissues.
   A medical device having a holding portion extending from the inside to the outside of the fusion promoting device and assisting the holding of the fusion promoting device with respect to the living organ.
2. It has a first hooking portion that can be connected to the holding portion and a mounting portion that can be mounted along the outer circumference of the living organ.
   The medical device according to claim 1, further comprising an auxiliary device that holds the fusion promoting device against the living organ while being attached to the living organ.
3. The auxiliary device has an insertion portion formed in the attachment portion through which the biological organ is inserted, and a communication portion formed in the attachment portion and communicating with the outer peripheral side surface of the attachment portion and the insertion portion. Item 2. The medical device according to item 2.
4. The medical device according to any one of claims 1 to 3, wherein the holding portion includes a plurality of traction portions that impart holding force to the fusion promoting device by being pulled.
5. The medical device according to claim 4, wherein the holding portion includes a connecting portion provided with a plurality of second hook portions that enable connection with each of the traction portions.
6. The connection portion has a rotationally symmetric planar shape.
   The medical device according to claim 5, wherein at least one set of the second hooking portions is provided in pairs at opposite portions of the connecting portions.
7. The connecting portion is a first engaging device arranged at one joining site of the living organ and a second engaging device placed at the other joined site of the living organ and facing the first engaging device. The medical device according to claim 5 or 6, further comprising a hole through which a medical device comprising the above can be inserted.
8. The medical device according to claim 7, wherein the connecting portion is located on the inner side of a region punched by the second engaging device when the fusion promoting device is joined to the living tissue by the medical device.
9. The medical device according to any one of claims 5 to 8, wherein the connection portion is provided integrally with the fusion promoting device.
10. The medical device according to any one of claims 5 to 8, wherein the connection portion is provided separately from the fusion promoting device.

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