Ligator and ligation method

A ligator for ligating body duct(s), said ligator enabling quick, easy and damage-free repetition of ligation and release of one or more body ducts in a body cavity through an operation outside the body cavity, and having an excellent performance of blocking the flow of a body fluid such as blood or lymph in a body duct. In an abdominal surgery, the ligator can be provided at such a position as not disturbing the surgery per se or hindering the vision during the surgery, while leaving the back-end thereof outside the body cavity, and can be operated outside the body cavity. In an endoscopic surgery, the ligator can be inserted from an opening that is a surgical wound while leaving the back-end thereof outside the body cavity, and can be operated outside the body cavity.

CROSS REFERENCE TO RELATED APPLICATIONS

This application is a U.S. national stage application of PCT/JP2011/072942 filed on Oct. 5, 2011, and claims priority to, and incorporates by reference, Japanese Patent Application No. 2010-226110 filed on Oct. 5, 2010.

TECHNICAL FIELD

The present invention relates to a ligator and a ligation method and, more particularly, to a ligator for ligating one or two or more body ducts in a body cavity, the ligator including a predetermined tubular member and a predetermined string member, a method of ligating the body ducts, and a method of ligating flexible ducts that are present on the inside of a closed spatial body and through which fluid circulates.

BACKGROUND ART

Temporary ligation of body ducts such as blood vessels is performed in ablative surgery of a disease region, plastic surgery such as a change of a duct line, and the like. Various instruments for performing ligating operation have been developed. For example, as an instrument used for temporary ligation of body ducts in abdominal surgery, there are known, for example, a blood vessel forceps for nipping and ligating body ducts and a tape for ligation looped double around body ducts and drawn to ligate the body ducts. Patent Literature 1 discloses a tissue ligator for nipping and ligating body ducts. On the other hand, as an instrument used for ligation of body ducts in laparoscopic surgery, there are known, for example, clips made of resin and made of metal. Patent Literature 2 discloses a clip device for a living tissue for drawing out an operation wire and continuously performing ligation by a clip.

CITATION LIST

Patent Literature

SUMMARY OF INVENTION

Technical Problem

However, in the abdominal surgery, the blood vessel forceps or the tissue ligator disclosed in Patent Literature 1 is detained in a range from a ligating region to the vicinity of the ligating region to perform the surgery. Therefore, it is likely that the blood vessel forceps or the tissue ligator disturbs the surgery and hinders the vision in the surgery. On the other hand, in the laparoscopic surgery, an instrument has to enable a surgeon to insert the instrument from an opening, which is a surgical wound, and ligate body ducts while operating the instrument on the outside of a body cavity. It is difficult to use the blood vessel forceps or the tissue ligator disclosed in Patent Literature 1 for the purpose of ligating body ducts in the laparoscopic surgery. Further, both of the clips made of resin and made of metal and the clip device disclosed in Patent Literature 2 require specific work for removing the clip. Therefore, the clips and the clip device are poor in quickness and convenience.

The present invention has been devised to solve the problems and it is an object of the present invention to provide a ligator for ligating body ducts, the ligator enabling quick, easy and damage-free repetition of ligation and release of one or more body ducts in a body cavity through an operation outside the body cavity, and having an excellent performance of blocking the flow of a body fluid such as blood or lymph in a body duct, in abdominal surgery, the ligator being able to be provided at such a position as not disturbing the surgery per se or hindering the vision during the surgery, while leaving the back-end thereof outside the body cavity, and in laparoscopic surgery, the ligator being able to be inserted from an opening that is a surgical wound, while leaving the back-end thereof outside the body cavity, and to be operated outside the body cavity, a method for ligating body ducts, the method being effective for blocking the flow of a body fluid such as blood or lymph in a body duct and being able to be operated outside a body cavity and therefore enabling quick, easy and damage-free repetition of ligation and release of the body ducts, and a method of ligating flexible ducts that are present on the inside of a closed spatial body and through which fluid circulates, the method being effective for blocking the flow of the fluid in the flexible ducts that are present on the inside of the closed spatial body and through which the fluid circulates and being able to be operated on the outside of the closed spatial body and therefore enabling quick and easy repetition of ligation and release of the flexible ducts.

Solution to Problem

Advantageous Effects of Invention

With the ligator according to the present invention, the ligator enables quick, easy and damage-free repetition of ligation and release of one or two or more body ducts in a body cavity through an operation outside a body cavity. The ligator is excellent in blocking the flow of a body fluid such as blood or lymph in a body duct. In abdominal surgery, the ligator can be provided at such a position as not disturbing the surgery per se or hindering the vision during the surgery, while leaving the back-end thereof outside the body cavity. In laparoscopic surgery, the ligator can be inserted from an opening that is a surgical wound, while leaving the back-end thereof outside the body cavity, and can be operated outside the body cavity. With the method of ligating a body duct according to the present invention, the method is effective for blocking the flow of a body fluid such as blood or lymph in the body duct and can be operated outside a body cavity and therefore enables quick, easy and damage-free repetition of ligation and release of the body duct. For example, in laparoscopic liver resection, it is possible to surely excise a tumor in a deep part of the liver, which cannot be excised in the past, with an ordinary laparoscopic surgery skill without causing bleeding. Further, with the method of ligating a flexible duct that is present on the inside of a closed spatial body and through which fluid circulates according to the present invention, for example, even on the inside of the closed spatial body in which manual work is difficult, the method enables quick, easy and damage-free repetition of ligation and release of the flexible duct through operation on the outside of the closed spatial body.

DESCRIPTION OF EMBODIMENTS

A ligator and a ligation method according to the present invention are explained below in detail. The ligator according to the present invention is a ligator for ligating one or two or more body ducts in a body cavity. The ligator includes a tubular member through which at least two string members can be inserted and a string member for bringing the body ducts close to a front-end portion of the tubular member. The tubular member has length extending from a ligating position of the body ducts in the body cavity to the outside of the body cavity. The string member has length equal to or larger than a double of the length extending from the ligating position to the outside of the body cavity.

In the present invention, a “body cavity” refers to a cavity place in a body of an animal. Examples of the “body cavity” include an abdominal cavity and a thoracic cavity. A “body duct” refers to an organ having a tubular form in a living organism. Examples of the “body duct” include blood vessels such as an artery, a vein, and a portal vein, digestive organs such as an esophagus, a duodenum, a small intestine, and a large intestine, a lymph duct, a bile duct, a trachea, a urinary duct, a urethra, an oviduct, and a spermatic duct.

In the present invention, a “closed spatial body” is an object, a region, or the like having a space closed by a partition, a barrier, or the like. The inside and the outside of the space only have to be distinguished even after the closed space is opened. Examples of the “closed spatial body” include an object from which a closed space can be perceived such as a manhole besides objects having completely closed spaces such as a tank and a container. However, the “closed spatial body” is not limited to these objects. A “flexible duct” only has to be a duct having flexibility through which fluid can circulate. Examples of the “flexible duct” include a cross-linked polyethylene duct, a polybutene duct, and a rubber duct. However, the “flexible duct” is not limited to these ducts.

In the present invention, a “ligation” refers to narrowing or eliminating an air gap of an inner cavity of the body duct or the flexible duct in a specific position and stopping, suppressing, or blocking the flow of the circulating body fluid or fluid.

In the present invention, when the body duct is ligated, not only one body duct but also two or more body ducts can be ligated collectively. A body duct surrounded by a soft tissue can be ligated together with the tissue. For example, an artery, a vein, a portal vein, a bile duct, and the like surrounded by ligaments such as a hepatoduodenal ligament, a hepatogastric ligament, a gastrocolic ligament, and a mesentery can be ligated together with the ligaments.

In the present invention, “bringing a body duct close to a front-end portion of a tubular member” includes not only reducing the distance between the body duct and the front-end portion of the tubular member but also, for example, bringing the body duct and the front-end portion of the tubular member into contact with each other and drawing the body duct into the inside of the tubular member.

In the present invention, a “front-end portion of a tubular member”, a “front-end portion of a string member”, or a “front-end portion of a holding instrument” refers to an arbitrary portion from a front-end to the middle in a longitudinal direction of the tubular member, the string member, or the holding instrument. Similarly, a “back-end portion of a tubular member”, a “back-end portion of a string member”, or a “back-end portion of a holding instrument” refers to an arbitrary portion from a back-end to the middle in the longitudinal direction of the tubular member, the string member, or the holding instrument. An “end portion of a tubular member”, an “end portion of a string member”, or an “end portion of a holding instrument” refers to a front-end portion or a back-end portion of the tubular member, the string member, or the holding instrument.

In the present invention, a “tubular member” only has to have an inner diameter through which at least two string members can be inserted and desirably has an inner diameter through which two string members having width larger than 3 mm can be inserted. The outer diameter of the “tubular member” can be set as appropriate according to an environment in which the tubular member is used, operability of the tubular member, and the like.

In the present invention, the length of the tubular member only has to be length extending from a ligating position of the body duct in the body cavity to the outside of the body cavity or length extending from a ligating position of the flexible duct in the closed spatial body to the outside of the closed spatial body. The length of the tubular member can be set as appropriate according to the length of the string member in use, the shape and the material of the tubular member, the ligating position, a the position and the diameter of a surgical wound or an opening formed in the closed spatial body, the physique of a patient or the size and the scale of the closed spatial body, or the like. For example, in a ligator for ligating body ducts, the length of the tubular member can be set to 25 to 60 cm for adult male, 20 to 55 cm for adult female, 15 to 50 cm for infant, and the like. The tubular member may be a tubular member that can be cut to enable the length of the tubular member to be adjusted according to a situation.

In the present invention, as the shape of the tubular member and the shape of the cross section substantially perpendicular to the longitudinal direction of the tubular member, an arbitrary shape can be selected in a range in which the characteristics of the present invention are not spoiled. Examples of the shape of the tubular member include a columnar shape, a prism shape, a substantially conical shape, a substantially pyramid shape, an entasis shape, a lens shape, a drum shape, and a gourd shape. Examples of the shape of the cross section include a circular shape, an elliptical shape, an eyeglass shape (including two hollows), and a gourd shape. That is, the shape of the tubular member and the shape of the cross section substantially perpendicular to the longitudinal direction of the tubular member may be the same throughout the entire tubular member or may be different. As the front-end or the back-end of the tubular member, a shape not edged at the ends is desirable. For example, a chamfered shape is desirable.

The material of the tubular member that can be used in the present invention is not specifically limited in a range in which the characteristics of the present invention are not spoiled. Examples of the material include rubber such as natural rubber, synthetic rubber, and hard rubber, synthetic resin such as nylon elastomer, tetrafluoroethylene-perfluoroalkoxyethylene copolymer resin (PFA), tetrafluoroethylene-hexafluoropropylene copolymer resin (FEP), polyvinylidene fluoride (PVDF), silicone, polyvinyl chloride, low density polyethylene (LDPE), high density polyethylene (HDPE), polyurethane, polypropylene, nylon, and polycarbonate, other natural resin, glass, and various kinds of metal. The material is not limited to a single material and may include two or more materials.

In the present invention, the tubular member is desirably a tubular member that is not bent by a pressing force received in the longitudinal direction or not reduced in length in the longitudinal direction. Such a tubular member can be formed by setting the inner diameter and the outer diameter, the length, the material, the structure, and the like of the tubular member as appropriate. The tubular member can be formed by, for example, using a hard material such as melamine resin, acrylic resin, urea resin, or hard rubber or, even if a soft material is used, incorporating a hard material such as a wire therein as a framework.

The color tone and the transparency of the tubular member can be selected as appropriate. For example, the tubular member can be formed to have high transparency to enable a user to visually check a state of the string member inserted through the tubular member, a ligated state of the body duct, and the like. Besides, the tubular member can be formed to assume a color different from the color of the inserted string member, the body duct, or the flexible duct.

In the present invention, a scale indicating a distance from the front-end or the back-end can be marked in the tubular member in a range in which the body cavity, the closed spatial body, the body duct, and the flexible duct are not adversely affected. A method of marking the scale is not specifically limited. Examples of the method include, besides a method of marking the scale using ink, in particular, ink having biocompatibility, a method of marking the scale by shaving the surface of a side surface of the tubular member and a method of marking the scale by applying embossing to the surface. The scale may be marked only in a part of the tubular member, for example, only a portion arranged on the outside of the body cavity or the outside of the closed spatial body when the body duct or the flexible duct is ligated or may be marked over the entire length of the tubular member as long as the scale can indicate the distance from the front-end or the back-end. A mode of the scale is not limited as long as the scale can indicates the distance from the front-end or the back-end. Examples of the scale include, besides a simple mark, for example, a scale formed by arranging symbols such as stripes or lines, bars, circles, triangles, diamonds, or the like at an appropriate interval, a scale formed by arranging numbers indicating distances at an appropriate interval, and a scale formed by arranging combinations of symbols and numbers at an appropriate interval.

The tubular member that can be used in the present invention may include any structure in a range in which the characteristics of the present invention are not spoiled. For example, the tubular member in the ligator according to the present invention may include a coating structure or a front-end portion structure formed by a soft material or a non-adhesive material, an air valve for gas leak prevention, or a clip for holding the string member.

In the present invention, a “string member” can be selected as appropriate in a range in which the characteristics of the present invention are not spoiled. Examples of the string member include a string-like member, a thread-like member, a belt-like member, and a tape-like member. However, the tape-like member is desirable. The length of the string member may be length equal to or larger than a double of length extending from the ligating position of the body duct in the body cavity to the outside of the body cavity or length equal to or larger than a double of length extending from the ligating position of the flexible duct in the closed spatial body to the outside of the closed spatial body. The length of the string member can be set as appropriate according to the length of the tubular member in use, the shape of the string member, the ligating position, the position and the diameter of a surgical wound or an opening formed in the closed spatial body, the physique of a patient or the size and the scale of the closed spatial body, or the like. For example, when the tubular member used simultaneously with the string member is 30 cm, the length of the string member can be set to 1 m and when the tubular member is 40 cm, the length of the string member can be set to 1.2 m. The string member may be a string member that can be cut such that the length of the string member can be adjusted as appropriate according to a situation.

Presence or absence of a hollow does not matter in the string member according to the present invention. The width of the string member may be fixed or not fixed. Examples of the shape of a cross section substantially perpendicular to the longitudinal direction of the string member include shapes same as those in the case of the tubular member. The shape of the cross section may be the same throughout the entire string member or may be different. It is possible to adopt a mode in which a portion (a contact section) that comes into contact with the body duct or the flexible duct in ligation is formed in a tape shape and a section other than the contact section is formed in a thread shape or a mode in which the contact section is formed in a tape shape having width larger than 3 mm and the section other than the contact section is formed in a tape shape having width of 3 mm.

The material of the string member that can be used in the present invention can be selected as appropriate in a range in which the characteristics of the present invention are not spoiled. Examples of the material include plant fiber materials such as cotton, flux, ramie, cannabis, jute, Manila hemp, sisal, maguey, and hemp, animal fiber materials such as silk, wool, gut, mohair, cashmere, camel, llama, alpaca, vicuna, and angora, regenerated fiber such as plant cellulose, and synthetic resin such as nylon, vinylon, polyester, acrylic, polyolefin, polyurethane, and silicone. The material is not limited to a single material and may include two or more materials.

The contact section of the string member in the ligator according to the present invention desirably has a shape and size that do not cause damage to the body duct when the body duct is brought close to the front-end portion of the tubular member and ligated. Such a shape and size of the contact section can be selected as appropriate according to the body duct to be ligated, the material in use, or the like. A tape-like contact section having width (W12) larger than 3 mm is desirable, a tape-like contact section having width of 4 to 10 mm is more desirable, a tape-like contact section having width of 4 to 8 mm is still more desirable, and a tape-like contact section having width of 5 to 7 mm is yet still more desirable.

In the present invention, a scale can be marked in the string member in a range in which the body cavity or the closed spatial body, the body duct, the flexible duct, and the like are not adversely affected. The scale may be marked only in positions before and behind a portion of the string member looped around the body duct or the flexible duct and led out from the back-end portion of the tubular member or may be marked in a portion including the portion, for example, over the entire length of the string member. Examples of a mode for marking the scale include modes same as those of the tubular member.

Examples of the “damage to the body duct” include a tear and breakage of the body duct. Specific examples of the “damage to the body duct” include leakage of lymph due to a tear of a lymph duct, leakage of bile due to a tear of a bile duct, bleeding due to a tear of a blood vessel, and occurrence of thrombus due to breakage of a blood vessel.

The ligator according to the present invention may include a holding instrument inserted through the tubular member, through which the string member is inserted, and capable of holding an end portion of the string member. Such a holding instrument is not specifically limited as long as the holding instrument is inserted through the tubular member, through which the string member is inserted, and is capable of holding the end portion of the string member. Examples of the holding instrument include, besides a gripping forceps used for laparoscopic surgery and the like, a wire-like holding instrument including a hook structure to be pierced through the end portion of the string member or hooked to a ring formed at the end portion of the string member to hold the end portion of the string member and a holding member including a hook-like section formed in a hook shape that can hook one or two string members at a front-end portion thereof and draw the string members into the tubular member. However, the holding member having the hook-like section is desirable.

The hook-like section desirably has a shape for preventing the hooked one or two string members from easily coming off. When holding instrument13is configured with rod130and the hook-like section, the hook-like section is formed and connected to a leading portion of rod130. Examples of such a shape include a shape in which the front-end portion of the holding member is bent in a direction substantially perpendicular to the longitudinal direction or an inner direction of the hook-like section. In the embodiments, the hook-like section is in a arch shape and the shape is determined with three points:

i) first one is proximal point140that is one end of the hook-like section and is connected to the rod, ii) second one is distal point142that is the other end and is the most distant from the leading portion of the rod in the longitudinal direction (X direction) of the rod,

iii) third one is vertex point141that is located between the proximal point and the distal point and is the most distant from the rod in a vertical direction (Y direction) with respect to the rod. The size (or gap G15) of an opening portion of the hook-like section is desirably size for preventing the opening portion of the hook-like section from being easily caught by the end edge of the tubular member when the hook-like section hooks the string member and draws the string member into the tubular member. Specifically, the size of the opening portion of the hook-like section is more desirably smaller than a difference between the outer diameter and the inner diameter of the tubular member, i.e., thickness δ11of the tubular member in a range in which the hook-like section can hook one or two string members and draw the string members into the tubular member. Specific examples of the shape of the front-end portion of the holding instrument including the hook-like section according to the present invention include shapes shown inFIGS. 5, 6, 7, 8, and 9. However, the shape of the front-end portion of the holding instrument is not limited to these shapes. Compared with the shape shown inFIG. 5indicated by a broken line, the shape shown inFIG. 6is a shape in which the vertex (or vertex point141) of the hook-like section is low. The shape shown inFIG. 7is a shape in which the front-end portion of the holding instrument is bent at distal point142in the direction (Y direction) substantially perpendicular to the longitudinal direction (X direction). Linear extension143alies vertical. The shape shown inFIG. 8is a shape in which the front-end portion of the holding instrument is bent once at the distal point142in the inner direction of the hook-like section. Linear extension143binclines toward proximal point140. The embodiment shown inFIG. 9has a shape in which the front-end portion of the holding instrument is bent twice (at distal point142and at mid point144) in the inner direction of the hook-like section. Linear portion of extension143cis determined between mid point144and tip point145, inclining toward vertex point141.

Next, the action of a ligator1according to this embodiment is explained in detail with reference toFIGS. 1, 2A, 2B, 3A, 3B, 4, 5, 6, 7, 8, and 9.FIG. 1is a diagram showing a first mode of the ligator1according to this embodiment.FIGS. 2A and 2Bare diagrams showing a mode in which a body duct2is brought close to a front-end portion of a tubular member11and ligated.FIGS. 3A and 3Bare diagrams showing a second mode of the ligator1according to this embodiment.FIG. 4is a diagram showing a second mode of a front-end portion and an end edge of the tubular member11according to this embodiment.FIG. 5is a diagram showing a second mode of a front-end portion of a holding instrument13according to this embodiment.FIG. 6is a diagram showing a third mode of the front-end portion of the holding instrument13according to this embodiment.FIG. 7is a diagram showing a fourth mode of the front-end portion of the holding instrument13according to this embodiment.FIG. 8is a diagram showing a fifth mode of the front-end portion of the holding instrument13according to this embodiment.FIG. 9is a diagram showing a sixth mode of the front-end portion of the holding instrument13according to this embodiment.

As shown inFIG. 1, when the body duct2is ligated by the ligator1, first, both end portions of the string member12looped around a ligating position5of the body duct2in a body cavity inside3are led out from a back-end portion of the tubular member11. The front-end portion of the tubular member11is arranged in the vicinity of the ligating position5of the body duct2and the back-end portion of the tubular member11is arranged on a body cavity outside4. A scale indicating distances from the front-end and the back-end is marked in the tubular member11as shown inFIG. 4, whereby it is possible to sequentially check or grasp the length of a portion of the tubular member11inserted in the body cavity inside3. Consequently, it is possible to easily arrange the tubular member11. When the length of the tubular member11adjusted by cutting the tubular member11, it is possible to accurately and easily adjust the length by marking the scale indicating the distances from the front-end and the back-end on the tubular member11.

Subsequently, in the body cavity outside4, the body duct2is brought close to the front-end portion of the tubular member11and ligated by drawing both end portions of the string member12(an arrow a) or pushing the tubular member11in the front-end direction (an arrow b) or both kinds of operation. Note that scales are marked at least in positions before and behind a portion of the string member12looped around the body duct2and led out from the back-end portion of the tubular member11, whereby it is possible to sequentially accurately check a positional relation between the string member12and the tubular member11when both end portions of the string member12are drawn or the tubular member11is pushed in the front-end direction or both kinds of operation are performed. Consequently, it is possible to easily grasp how much pressure is applied to the body duct2ligated in the ligating position5.

In the present invention, “looping” the string member12“around” the ligating position5or the ligation planned region means that the string member12is encircled around the ligating position5or the ligation planned region or, as shown inFIG. 1, the string member12is encircled around the ligating position5or the ligation planned region to be folded back.

A mode for bringing the body duct2close to the front-end portion of the tubular member11and ligating the body duct2is different according to, for example, the diameter, flexibility, and elasticity of the body duct2, the shape of the tubular member11and the shape of the cross section substantially perpendicular to the longitudinal direction of the tubular member11, the outer diameter, the inner diameter, the material, and the structure of the tubular member11, and the structure, the sectional shape, the thickness, and the material of the contact section of the string member12. Examples of the mode include a mode in which a loop formed in the vicinity of the front-end portion of the tubular member11by the string member12looped around the ligating position5of the body duct2is reduced in size to ligate the body duct2as shown inFIG. 2Aand a mode in which the body duct2is drawn into the tubular member11and bent and the inner wall of the body duct2comes into contact with an opposed inner wall to ligate the body duct2as shown inFIG. 2B. If the end edge of the front-end portion of the tubular member11has a shape chamfered as shown inFIG. 4, it is possible to suppress invasion in the ligation of the body duct2. As shown inFIG. 2A, string member12is folded at folding portion12f. At the portion12f, the string member is divided into two parts, first string12aand second string12b. Folding portion12fis positioned in the vicinity of front-end portion11fof tubular member11in use. The opposite end of tubular member11is denoted with11bin the drawing.

When the string member12looped around the ligating position5of the body duct2is led out from the back-end portion of the tubular member11, the holding instrument13can be used as shown inFIGS. 3A and 3B. With the holding instrument13, as shown inFIG. 3A, it is possible to hold the string member12inserted through the tubular member11, through which the string member12is inserted, and looped around the ligation planned region of the body duct2. Further, as shown inFIG. 3B, it is possible to draw the string member12into the tubular member11and draw out the string member12from the back-end portion of the tubular member11while keeping the string member12held. As a result, it is possible to lead out the front-end portion and the back-end portion of the string member12from the back-end portion of the tubular member11. As shown inFIGS. 5, 6, 7, 8, and 9, when a hook-like section14having a hook shape that can hook one or two string members12and draw the string members12into the tubular member11is formed at the front-end portion of the holding instrument13, after the string member12looped around the ligation planned region of the body duct2is hooked to an opening portion15of the hook-like section14, it is possible to draw the string member12into the tubular member11and draw out the string member12from the back-end portion of the tubular member11. When the opening portion15of the hook-like section14is smaller than the thickness of the tubular member11, after the string member12looped around the ligation planned region of the body duct2is hooked, when the string member12is drawn into the tubular member11, the opening portion15of the hook-like section14is less easily caught by the end edge of the tubular member11. Therefore, it is possible to easily draw the string member12into the tubular member11. When the front-end portion of the holding instrument13is bent in the direction substantially perpendicular to the longitudinal direction as shown inFIG. 7, when the front-end portion of the holding instrument13is bent once in the inner direction of the hook-like section14as shown inFIG. 8, or when the front-end portion of the holding instrument13is bent twice in the inner direction of the hook-like section14as shown inFIG. 9, after the string member12looped around the ligation planned region of the body duct2is hooked to the opening portion15of the hook-like section14, the hooked string member12is much less easily comes off. Therefore, it is possible to easily perform operation for drawing the string member12into the tubular member11and draw out the string member12from the back-end portion of the tubular member11.

Next, the present invention provides a method of ligating a body duct in laparoscopic surgery. A first mode of the method of ligating a body duct in laparoscopic surgery according to the present invention is a method of inserting a front-end portion of a tubular member, into which a string member is inserted and from which a front-end portion of the string member is led out, into a first insertion hole, after looping the front-end portion of the string member around a ligation planned region, inserting the front-end portion of the string member into the tubular member and led out from a back-end portion again to thereby lead out both end portions of the string member from the back-end portion of the tubular member, and, subsequently, ligating the body duct by drawing both end portions of the string member or pushing the tubular member in a front-end direction thereof. That is, the first mode of the method of ligating a body duct in laparoscopic surgery according to the present invention includes the following steps (i) to (v):(i) a string member front-end portion arranging step for inserting a front-end portion of a tubular member, through which a string member is inserted, into a body cavity from a first insertion hole and arranging, in the vicinity of a ligation planned region of the body duct, a front-end portion of the string member led out from the front-end portion of the tubular member while leaving a back-end portion thereof outside the body cavity;(ii) a string member looping-around step for inserting a first holding instrument into the body cavity from a second insertion hole, holding the front-end portion of the string member, and looping the string member around the ligation planned region of the body duct;(iii) a second holding instrument inserting-through step for inserting a second holding instrument from the back-end portion of the tubular member, through which the string member is inserted, and leading out the second holding instrument from the front-end portion of the tubular member;(iv) a string member front-end portion drawing-out step for holding the front-end portion of the looped-around string member with the second holding instrument, drawing the front-end portion of the string member into the tubular member, and drawing out the front-end portion of the string member from the back-end portion of the tubular member; and(v) a ligating step for ligating the body duct by drawing the drawn-out front-end portion and the back-end portion of the string member and/or pushing the tubular member in a front-end direction thereof.

Next, a second mode of the method of ligating a body duct in laparoscopic surgery according to the present invention is a method of, after inserting a front-end portion of a string member into a first insertion hole and looping the string member around a ligation planned region, leading out the front-end portion of the string member from the first insertion hole, subsequently, inserting the front-end portion and a back-end portion of the string member into a tubular member and inserting a front-end portion of the tubular member into the first insertion hole to thereby lead out both end portions of the string member from a back-end portion of the tubular member, and, subsequently, ligating the body duct by drawing both end portions of the string member or pushing the tubular member in a front-end direction thereof. That is, the second mode of the method of ligating a body duct in laparoscopic surgery according to the present invention includes the following steps (i) to (v):(i) a string member front-end portion arranging step for holding a front-end portion of a string member with a first holding instrument, inserting the front-end portion of the string member into a body cavity from a first insertion hole, and arranging, in the vicinity of a ligation planned region of the body duct, the front-end portion of the string member while leaving a back-end portion thereof outside the body cavity;(ii) a string member looping-around step for inserting a second holding instrument into the body cavity from a second insertion hole, holding the front-end portion of the string member, and looping the string member around the ligation planned region of the body duct;(iii) a string member front-end portion drawing-out step for holding the front-end portion of the looped-around string member with the first holding instrument and drawing out the front-end portion of the string member to the outside of the body cavity from the first insertion hole;(iv) a tubular member arranging step for inserting, from a front-end portion of a tubular member, both end portions of the string member drawn out to the outside of the body cavity from the first insertion hole, leading out both ends of the string member from a back-end portion of the tubular member, inserting the front-end portion of the tubular member into the body cavity from the first insertion hole, and arranging the front-end portion of the tubular member in the vicinity of the ligation planned region of the body duct while leaving the back-end portion thereof outside the body cavity; and(v) a ligating step for ligating the body duct by drawing both ends of the string member led out from the back-end portion of the tubular member and/or pushing the tubular member in a front-end direction thereof.

Next, a third mode of the method of ligating a body duct in laparoscopic surgery according to the present invention is a method of, after inserting a front-end portion of a string member into a first insertion hole and looping the string member around a ligation planned region, inserting the front-end portion of the string member into a tubular member, a front-end portion of which is inserted into the second insertion hole, leading out the front-end portion of the string member from a back-end portion of the tubular member, and drawing a back-end portion of the string member into a body cavity from the first insertion hole, subsequently, inserting the back-end portion of the string member drawn into the body cavity into the tubular member, the front-end portion of which is inserted into the second insertion hole and leading out the back-end portion of the string member from a back-end portion of the tubular member to thereby lead out both end portions of the string member from the back-end portion of the tubular member, and, subsequently, ligating the body duct by drawing both end portions of the string member or pushing the tubular member in a front-end direction thereof. That is, the third mode of the method of ligating a body duct in laparoscopic surgery according to the present invention includes the following steps (i) to (vi):(i) a string member front-end portion arranging step for holding a front-end portion of a string member with a first holding instrument, inserting the front-end portion of the string member into a body cavity from a first insertion hole, and arranging the front-end portion of the string member in the vicinity of a ligation planned region of the body duct while leaving a back-end portion thereof outside of the body cavity;(ii) a string member looping-around step for inserting a front-end portion of a tubular member, through which a second holding instrument is inserted, into the body cavity from a second insertion hole, holding the front-end portion of the string member with the second holding instrument led out from the front-end of the tubular member while leaving a back-end portion thereof outside the body cavity, and looping the string member around the ligation planned region of the body duct;(iii) a string member front-end portion drawing-out step for drawing the front-end portion of the looped-around string member into the tubular member while keeping the front-end portion held by the second holding instrument, drawing out the front-end portion of the string member from the back-end portion of the tubular member, and drawing the back-end portion of the string member into the body cavity from the first insertion hole;(iv) a third holding instrument inserting-through step for inserting a third holding instrument from the back-end portion of the tubular member and leading out the third holding instrument from the front-end portion of the tubular member;(v) a string member back-end portion drawing-out step for holding the back-end portion of the string member with the third holding instrument, drawing the back-end portion of the string member into the tubular member, and drawing out the back-end portion of the string member from the back-end portion of the tubular member; and(vi) a ligating step for ligating the body duct by drawing the drawn-out front-end portion and the back-end portion of the string member and/or pushing the tubular member in a front-end direction thereof.

Next, a fourth mode of the method of ligating a body duct in laparoscopic surgery according to the present invention is a method of, after inserting a front-end portion of a string member into a first insertion hole and looping the string member around a ligation planned region, leading out the front-end portion of the string member from a second insertion hole and drawing a back-end portion of the string member into a body cavity from the first insertion hole, subsequently, leading out the back-end portion of the string member drawn into the body cavity from the second insertion hole, inserting the front-end portion and the back-end portion of the string member into a tubular member, and inserting a front-end portion of the tubular member into the second insertion hole to thereby lead out both end portions of the string member from a back-end portion of the tubular member, and, subsequently, ligating the body duct by drawing both end portions of the string member or pushing the tubular member in a front-end direction thereof. That is, the fourth mode of the method of ligating a body duct in laparoscopic surgery according to the present invention includes the following steps (i) to (vi):(i) a string member front-end portion arranging step for holding a front-end portion of a string member with a first holding instrument, inserting the front-end portion of the string member into a body cavity from a first insertion hole, and arranging, in the vicinity of a ligation planned region of the body duct, the front-end portion of the string member while leaving a back-end portion thereof outside the body cavity;(ii) a string member looping-around step for inserting a second holding instrument into the body cavity from a second insertion hole, holding the front-end portion of the string member, and looping the string member around the ligation planned region of the body duct;(iii) a string member front-end portion drawing-out step for drawing out the front-end portion of the looped-around string member while keeping the front-end portion of the looped-around string member held by the second holding instrument, drawing the back-end portion of the string member into the body cavity from the first insertion hole;(iv) a string member back-end portion drawing-out step for inserting a third holding instrument into the body cavity from the second insertion hole, holding the back-end portion of the string member, and drawing out the back-end portion of the string member from the second insertion hole;(v) a tubular member arranging step for inserting, from the front-end portion of the tubular member, the drawn-out front-end portion and the back-end portion of the string member, leading out the front-end portion and the back-end portion of the string member from the back-end portion of the tubular member, inserting the front-end portion of the tubular member into the body cavity from the second insertion hole, and arranging the front-end portion of the tubular member in the vicinity of the ligation planned region of the body duct while leaving the back-end portion thereof outside the body cavity; and(vi) a ligating step for ligating the body duct by drawing the drawn-out front-end portion and the back-end portion of the string member from the back-end portion of the tubular member and/or pushing the tubular member in a front-end direction thereof.

An “insertion hole” in the first to fourth modes of the method of ligating a body duct in laparoscopic surgery according to the present invention refers to a hole-like surgical wound opened in the abdomen of a patient in the laparoscopic surgery. Insertion holes can be formed using a usual method such as a method of inserting a trocar. Forming positions of the insertion holes can be set as appropriate according to the position of a diseased part, the size of an opening, a ligation planned region, operability, and the like. The sizes of the insertion holes can be set as appropriate according to, for example, modes of the tubular member, the first holding instrument, the second holding instrument, the third holding instrument, and the like.

Further, in the first to fourth modes of the method of ligating a body duct in laparoscopic surgery according to the present invention, as the holding instruments, holding instruments same as a holding instrument that can be provided in the ligator according to the present invention can be used. The first holding instrument, the second holding instrument, and the third holding instrument may be the same holding instrument or may be different holding instruments.

The first to fourth modes of the method of ligating a body duct in laparoscopic surgery according to the present invention can be performed more quickly, easily, and without causing damage according to a usual method, for example, by using an endoscope or, for example, filling gas in an abdominal cavity to secure a surgery space in the abdominal cavity. Besides, the first to fourth modes can include any steps in a range in which the characteristics of the present invention are not spoiled.

Next, the present invention provides a method of ligating a body duct. The method of ligating a body duct according to the present invention is a method of arranging a front-end portion of a tubular member, into which a string member is inserted and from which a front-end portion of the string member is led out, in the vicinity of a ligation planned region while leaving a back-end portion of the tubular member outside a body cavity, after looping the front-end portion of the string member around the ligation planned region, inserting the front-end portion of the string member into the tubular member and led out from the back-end portion again to thereby lead out both end portions of the string member from the back-end portion of the tubular member, and, subsequently, ligating the body duct by drawing both end portions of the string member or pushing the tubular member in a front-end direction thereof on the outside of the body cavity. That is, the method of ligating a body duct according to the present invention includes the following steps (i) to (v):(i) a string member front-end portion arranging step for arranging a front-end portion of a tubular member, through which a string member is inserted, in the vicinity of a ligation planned region of the body duct while leaving a back-end portion thereof outside a body cavity to thereby arrange, in the vicinity of the ligation planned region of the body duct, a front-end portion of the string member led out from the front-end portion of the tubular member;(ii) a string member looping-around step for holding the front-end portion of the string member with a first holding instrument and looping the string member around the ligation planned region of the body duct;(iii) a second holding instrument inserting-through step for inserting a second holding instrument from the back-end portion of the tubular member, through which the string member is inserted, and leading out the second holding instrument from the front-end portion of the tubular member;(iv) a string member front-end portion drawing-out step for holding the front-end portion of the looped-around string member with the second holding instrument, drawing the front-end portion of the string member into the tubular member, and drawing out the front-end portion of the string member from the back-end portion of the tubular member; and(v) a ligating step for ligating the body duct by drawing the drawn-out front-end portion and the back-end portion of the string member and/or pushing the tubular member in a front-end direction thereof.

In the method of ligating a body duct according to the present invention, as the first holding instrument and the second holding instrument, holding instruments same as a holding instrument that can be provided in the ligator according to the present invention can be used. Besides, the first holding instrument may be a hand of a surgeon. When the first holding instrument is not a hand of a surgeon, the first holding instrument and the second holding instrument may be the same holding instrument.

Next, the present invention provides a method of ligating a flexible duct that is present on the inside of a closed spatial body and through which fluid circulates. A first mode of the method of ligating a flexible duct that is present on the inside of a closed spatial body and through which fluid circulates according to the present invention is a method of inserting a front-end portion of a tubular member, into which a string member is inserted and from which a front-end portion of the string member is led out, into a first insertion hole formed in the closed spatial body, and, after looping the front-end portion of the string member around a ligation planned region, inserting the front-end portion of the string member into the tubular member and leading out the front-end portion of the string member from a back-end portion to thereby lead out both end portions of the string member from the back-end portion of the tubular member, and, subsequently, ligating the flexible duct by drawing both end portions of the string member or pushing the tubular member in a front-end direction thereof. That is, the first mode of the method of ligating a flexible duct that is present on the inside of a closed spatial body and through which fluid circulates according to the present invention includes the following steps (i) to (vi):(i) an insertion hole forming step for forming a first insertion hole communicating with the inside of the closed spatial body and a second insertion hole communicating with the inside of the closed spatial body;(ii) a string member front-end portion arranging step for inserting a front-end portion of a tubular member, through which a string member is inserted, into the closed spatial body from the first insertion hole and arranging, in the vicinity of a ligation planned region of the flexible duct, through which the fluid circulates, a front-end portion of the string member led out from the front-end portion of the tubular member while leaving a back-end portion thereof outside the closed spatial body;(iii) a string member looping-around step for inserting a first holding instrument into the closed spatial body from the second insertion hole, holding the front-end portion of the string member, and looping the string member around the ligation planned region of the flexible duct, through which the fluid circulates;(iv) a second holding instrument inserting-through step for inserting a second holding instrument from the back-end portion of the tubular member, through which the string member is inserted, and leading out the second holding instrument from the front-end portion of the tubular member;(v) a string member front-end portion drawing-out step for holding the front-end portion of the looped-around string member with the second holding instrument, drawing the front-end portion of the string member into the tubular member, and drawing out the front-end portion of the string member from the back-end portion of the tubular member; and(vi) a ligating step for ligating the flexible duct, through which the fluid circulates, by drawing the drawn-out front-end portion and the back-end portion of the string member and/or pushing the tubular member in a front-end direction thereof.

Next, a second mode of the method of ligating a flexible duct that is present on the inside of a closed spatial body and through which fluid circulates according to the present invention is a method of, after inserting a front-end portion of a string member into a first insertion hole formed in the closed spatial body and looping the string member around a ligation planned region, leading out the front-end portion of the string from the first insertion hole, subsequently, inserting the front-end portion and a back-end portion of the string member into a tubular member and inserting a front-end portion of the tubular member into the first insertion hole to thereby lead out both end portions of the string member from a back-end portion of the tubular member, and, subsequently, ligating the flexible duct by drawing both end portions of the string member or pushing the tubular member in a front-end direction thereof. That is, the second mode of the method of ligating a flexible duct that is present on the inside of a closed spatial body and through which fluid circulates according to the present invention includes the following steps (i) to (vi):(i) an insertion hole forming step for forming a first insertion hole communicating with the inside of a closed spatial body and a second insertion hole communicating with the inside of the closed spatial body;(ii) a string member front-end portion arranging step for holding a front-end portion of a string member with a first holding instrument, inserting the front-end portion of the string member into the closed spatial body from the first insertion hole, and arranging, in the vicinity of a ligation planned region of the flexible duct, through which the fluid circulates, the front-end portion of the string member while leaving a back-end portion thereof outside the closed spatial body;(iii) a string member looping-around step for inserting a second holding instrument into the closed spatial body from the second insertion hole, holding the front-end portion of the string member, and looping the string member around the ligation planned region of the flexible duct, through which the fluid circulates;(iv) a string member front-end portion drawing-out step for holding the front-end portion of the looped-around string member with the first holding instrument and drawing out the front-end portion of the string member to the outside of the closed spatial body from the first insertion hole;(v) a tubular member arranging step for inserting, from a front-end portion of a tubular member, both end portions of the string member drawn out to the outside of the closed spatial body from the first insertion hole, leading out both ends of the string member from a back-end portion of the tubular member, inserting the front-end portion of the tubular member into the closed spatial body from the first insertion hole, and arranging the front-end portion of the tubular member in the vicinity of the ligation planned region of the flexible duct, through which the fluid circulates, while leaving the back-end portion thereof outside the closed spatial body; and(vi) a ligating step for ligating the flexible duct, through which the fluid circulates, by drawing both ends of the string member led out from the back-end portion of the tubular member and/or pushing the tubular member in a front-end direction thereof.

Next, a third mode of the method of ligating a flexible duct that is present on the inside of a closed spatial body and through which fluid circulates according to the present invention is a method of, after inserting a front-end portion of a string member into a first insertion hole formed in a closed spatial body and looping the string member around a ligation planned region, inserting the front-end portion of the string member into a tubular member, a front-end portion of which is inserted into a second insertion hole formed in the closed spatial body, leading out the front-end portion of the string member from a back-end portion of the tubular member, and drawing a back-end portion of the string member into the closed spatial body from the first insertion hole, subsequently, inserting the back-end portion of the string member drawn into the closed spatial body into the tubular member, the front-end portion of which is inserted into the second insertion hole, and leading out the back-end portion of the string member from the back-end portion of the tubular member to thereby lead out both end portions of the string member from the back-end portion of the tubular member, and, subsequently, ligating the flexible duct by drawing both end portions of the string member or pushing the tubular member in a front-end direction thereof. That is, the third mode of the method of ligating a flexible duct that is present on the inside of a closed spatial body and through which fluid circulates according to the present invention includes the following steps (i) to (vii):(i) an insertion hole forming step for forming a first insertion hole communicating with the inside of the closed spatial body and a second insertion hole communicating with the inside of the closed spatial body;(ii) a string member front-end portion arranging step for holding a front-end portion of a string member with a first holding instrument, inserting the front-end portion of the string member into the closed spatial body from the first insertion hole, and arranging the front-end portion of the string member in the vicinity of a ligation planned region of the flexible duct, through which the fluid circulates, while leaving a back-end portion thereof outside of the closed spatial body;(iii) a string member looping-around step for inserting a front-end portion of a tubular member, through which a second holding instrument is inserted, into the closed spatial body from the second insertion hole, holding the front-end portion of the string member with the second holding instrument led out from the front-end of the tubular member while leaving a back-end portion thereof outside the closed spatial body, and looping the string member around the ligation planned region of the flexible duct, through which the fluid circulates;(iv) a string member front-end portion drawing-out step for drawing the front-end portion of the looped-around string member into the tubular member while keeping the front-end portion held by the second holding instrument, drawing out the front-end portion of the string member from the back-end portion of the tubular member, and drawing the back-end portion of the string member into the closed spatial body from the first insertion hole;(v) a third holding instrument inserting-through step for inserting a third holding instrument from the back-end portion of the tubular member and leading out the third holding instrument from the front-end portion of the tubular member;(vi) a string member back-end portion drawing-out step for holding the back-end portion of the string member with the third holding instrument, drawing the back-end portion of the string member into the tubular member, and drawing out the back-end portion of the string member from the back-end portion of the tubular member; and(vii) a ligating step for ligating the flexible duct, through which the fluid circulates, by drawing the drawn-out front-end portion and the back-end portion of the string member and/or pushing the tubular member in a front-end direction thereof.

Next, a fourth mode of the method of ligating a flexible duct that is present on the inside of a closed spatial body and through which fluid circulates according to the present invention is a method of, after inserting a front-end portion of a string member into a first insertion hole formed in a closed spatial body and looping the string member around a ligation planned region, leading out the front-end portion of the string member from a second insertion hole formed in the closed spatial body and drawing a back-end portion of the string member into the closed spatial body from the first insertion hole, subsequently, leading out the back-end portion of the string member drawn into the closed spatial body from the second insertion hole, inserting the front-end portion and the back-end portion of the string member into a tubular member, and inserting a front-end portion of the tubular member into the second insertion hole to thereby lead out both end portions of the string member from a back-end portion of the tubular member, and, subsequently, ligating the flexible duct by drawing both end portions of the string member or pushing the tubular member in a front-end direction thereof. That is, the fourth mode of the method of ligating a flexible duct that is present on the inside of a closed spatial body and through which fluid circulates according to the present invention includes the following steps (i) to (vii):(i) an insertion hole forming step for forming a first insertion hole communicating with the inside of the closed spatial body and a second insertion hole communicating with the inside of the closed spatial body;(ii) a string member front-end portion arranging step for holding a front-end portion of a tubular member with a first holding instrument, inserting the front-end portion of the string member into the closed spatial body from the first insertion hole, and arranging, in the vicinity of a ligation planned region of the flexible duct, through which the fluid circulates, the front-end portion of the string member while leaving a back-end portion thereof outside the closed spatial body;(iii) a string member looping-around step for inserting a second holding instrument into the closed spatial body from the second insertion hole, holding the front-end portion of the string member, and looping the string member around the ligation planned region of the flexible duct, through which the fluid circulates;(iv) a string member front-end portion drawing-out step for drawing out the front-end portion of the looped-around string member while keeping the front-end portion of the looped-around string member held by the second holding instrument, drawing the back-end portion of the string member into the closed spatial body from the first insertion hole;(v) a string member back-end portion drawing-out step for inserting a third holding instrument into the closed spatial body from the second insertion hole, holding the back-end portion of the string member, and drawing out the back-end portion of the string member from the second insertion hole;(vi) a tubular member arranging step for inserting, from the front-end portion of the tubular member, the drawn-out front-end portion and the back-end portion of the string member, leading out the front-end portion and the back-end portion of the string member from the back-end portion of the tubular member, inserting the front-end portion of the tubular member into the closed spatial body from the second insertion hole, and arranging the front-end portion of the tubular member in the vicinity of the ligation planned region of the flexible duct, through which the fluid circulates, while leaving the back-end portion thereof outside the closed spatial body; and
(vii) a ligating step for ligating the flexible duct, through which the fluid circulates, by drawing the drawn-out front-end portion and the back-end portion of the string member from the back-end portion of the tubular member and/or pushing the tubular member in a front-end direction thereof.

Next, a fifth mode of the method of ligating a flexible duct that is present on the inside of a closed spatial body and through which fluid circulates according to the present invention is a method of opening the inside of the closed spatial body, arranging a front-end portion of a tubular member, through which a string member is inserted and a front-end portion of the string member is led out, in the vicinity of a ligation planned region while leaving a back-end portion thereof outside the closed spatial body to thereby arrange, and, after looping the front-end portion of the string member around the ligation planned region, inserting the front-end portion of the string member into the tubular member and leading out the front-end portion of the string member from the back-end portion to thereby lead out both end portions of the string member from the back-end portion of the tubular member, and, subsequently, ligating the flexible duct by drawing both end portions of the string member or pushing the tubular member in a front-end direction thereof on the outside of the closed spatial body. That is, the fifth mode of the method of ligating a flexible duct that is present on the inside of a closed spatial body and through which fluid circulates according to the present invention includes the following steps (i) to (vi):(i) an opening step for opening the inside of the closed spatial body;(ii) a string member front-end portion arranging step for arranging a front-end portion of a tubular member, through which a string member is inserted, in the vicinity of a ligation planned region of the flexible duct, through which the fluid in the closed spatial body circulates, while leaving a back-end portion thereof outside the closed spatial body to thereby arrange, in the vicinity of the ligation planned region of the flexible duct, through which the fluid in the closed spatial body circulates, a front-end portion of the string member led out from the front-end portion of the tubular member;(iii) a string member looping-around step for holding the front-end portion of the string member with a first holding instrument and looping the string member around the ligation planned region of the flexible duct, through which the fluid circulates;(iv) a second holding instrument inserting-through step for inserting a second holding instrument from the back-end portion of the tubular member, through which the string member is inserted, and leading out the second holding instrument from the front-end portion of the tubular member;(v) a string member front-end portion drawing-out step for holding the front-end portion of the looped-around string member with the second holding instrument, drawing the front-end portion of the string member into the tubular member, and drawing out the front-end portion of the string member from the back-end portion of the tubular member; and(vi) a ligating step for ligating the flexible duct, through which the fluid circulates, by drawing the drawn-out front-end portion and the back-end portion of the string member and/or pushing the tubular member in a front-end direction thereof on the outside of the closed spatial body.

In the first to fourth modes of the method of ligating a flexible duct that is present on the inside of a closed spatial body and through which fluid circulates according to the present invention, the insertion hole is a hole formed in a partition or a barrier in the closed spatial body and refers to a relatively small opening (hole) communicating with the inside of the closed spatial body. The first insertion hole and the second insertion hole in (i) the insertion hole forming step in the present invention can be formed according to a usual method as appropriate to correspond to the structure, the material, the thickness, or the like of the partition or the barrier. The first insertion hole and the second insertion hole can be formed using, for example, a drill, a gimlet, a blade, or the like. However, the first insertion hole and the second insertion hole are not limited to these. Insertion hole forming positions can be set as appropriate according to the sizes of the holes, the ligation planned region, operability, and the like. The sizes of the insertion holes can also be set as appropriate according to, for example, modes of the tubular member, the first holding instrument, the second holding instrument, and the third holding instrument.

Further, the method of ligating a flexible duct that is present on the inside of a closed spatial body and through which fluid circulates according to the present invention can include any steps in a range in which the characteristics of the present invention are not spoiled.

The ligator and the ligation method according to the present invention are explained below on the basis of examples. The technical scope of the present invention is not limited by characteristics indicated by the examples.

EXAMPLES

Ligation performed using a blood vessel tape of polyester having width of 3 mm and length of 60 cm and a clamp cover of silicone rubber (VESSEL-CLUDE; Argon Medical Devices, Inc.) having an inner diameter of 5 mm and length of 110 cm, 120 cm, or 130 cm

The abdomen of a patient A having a tumor in the liver was incised about 10 cm and, after the abdominal incision, using a blood vessel tape of polyester having width of 3 mm and length of 60 cm and a clamp cover of silicone rubber (VESSEL-CLUDE; Argon Medical Devices, Laparoscopy-cm, 120 cm, or 130 cm, the hepatic artery, the portal vein, and the bile duct traveling in the hepatoduodenal ligament were ligated together with the hepatoduodenal ligament to stem the blood. Thereafter, laparoscopy-assisted liver resection was performed according to a usual method to dissect and remove the liver parenchyma in which the tumor was present.

CT images in the vertical direction of the patient A after the surgery are shown inFIG. 10. As shown inFIG. 10, it was confirmed that, although the tumor was removed, thrombus occurred in the right portal branch and the left portal branch.

After stemming the blood according to the method described in the Example (1), laparoscopy-assisted liver resection was performed with a patient B having a tumor in the liver according to a usual method. CT images in the horizontal direction before and after the surgery are shown inFIG. 11. As shown inFIG. 11, it was confirmed that, in the patient B, although the tumor was removed, thrombus occurred in the left portal branch.

From these results, it was clarified that, in some case, thrombus occurs in the portal vein when the hepatoduodenal ligament is ligated using the blood vessel tape of polyester having width of 3 mm and the clamp cover of silicone rubber having an inner diameter of 5 mm.

Ligation performed using a tape of polyester having width of 5 mm and length of 1 m and a tube of silicone rubber having an outer diameter of 10 mm, an inner diameter of 5 to 6 mm and length of 30 cm

A tape of polyester having width of 5 mm and length of 1 m inserted through a tube of silicone rubber having an outer diameter of 10 mm, an inner diameter of 5 to 6 mm and length of 30 cm was prepared and used as a ligator. Six trocars in total having a diameter of 12 mm were inserted into the abdomen of a patient C having an 8 cm tumor in the posterior segment of the right lobe. The prepared ligator was inserted into one of the trocars. The hepatic artery, the portal vein, and the bile duct traveling in the hepatoduodenal ligament were ligated together with the hepatoduodenal ligament to stem the blood using the ligator. Thereafter, pure laparoscopic liver resection was performed according to a usual method to dissect and remove the liver parenchyma in which the tumor was present.

CT images in the horizontal direction before and after the surgery are shown inFIG. 12. As shown inFIG. 12, it was confirmed that, in the patient C, the tumor was completely excised. Occurrence of bleeding during the surgery and thrombus after the surgery was not observed.

From these results, it was clarified that it is possible to extremely effectively and safely perform hemostasis in pure laparoscopic liver resection by ligating, together with the hepatoduodenal ligament, the hepatic artery, the portal vein, and the bile duct traveling in the hepatoduodenal ligament using the tape of polyester having width of 5 mm and length of 1 m and the tube of silicone rubber having an outer diameter of 10 mm, an inner diameter of 5 to 6 mm and length of 30 cm. Further, it was clarified that it is possible to safely excise, in pure laparoscopic surgery, a relatively large tumor present in the posterior segment, which is considered difficult to be excised in the pure laparoscopic surgery in the past, by performing hemostasis using the tape and the tube.

Note that the examples explained above are applied to not only a method of ligating a body duct but also a method of ligating a flexible duct that is present on the inside of a closed spatial body and through which fluid circulates.

REFERENCE SIGNS LIST