Patent Description:
A surgeon performing surgery generally needs to use a tissue closure instrument to suture a wound to be sutured of a patient, such as an incision of the abdominal cavity, etc..

When an existing tissue closure instrument is used to perform suturing, a puncture needle needs to be used to puncture tissue. An experienced surgeon can use the puncture needle with experience to puncture properly without deviation. However, for many surgeons, a deviated puncture often occurs due to shaking of a puncture needle, and therefore a plurality of punctures need to be performed. Although an anesthetic has been injected to an incision situs of a patient, a plurality of punctures increase injury to tissue at the incision of the patient.

Additionally, in endoscopic surgery, a surgeon establishes a channel via a puncture cannula. The channel allows some surgical instruments to pass therethrough to perform related surgical operations. After completing the surgery, an incision needs to be sutured. Therefore, the puncture cannula needs to be pulled out, and then a tissue closure instrument needs to be inserted to suture the incision. In actual operation, however, the tissue closure instrument may not be capable of being subjected to such an insertion operation again along the original incision due to various factors. Therefore, a new wound may be made in the tissue, and the new wound is sutured. Such a suturing position is not the correct suturing position of the original incision.

Additionally, it is not easy to use an existing tissue closure instrument to accurately arrange a suture in a desired position in an inner cavity, so that some surgeons need to shake a puncture needle a plurality of times to search for the suture. However, such shaking damages a puncture in tissue to some extent.

<CIT> discloses apparatus and methods for treating a tissue opening, for example a trocar opening used in a minimally invasive surgical procedure. Introducers can be used having a suture holder, an alignment indicator and insertion limits. <CIT> discloses a surgical access device which includes a cannula and a housing coupled to the cannula. A cannula lumen and a housing interior communicate to define a working channel that extends along a central axis of the device between proximal and distal device ends. A needle entrance port is arranged on a side portion of the housing and opens to the working channel. A needle exit port is arranged distally of the needle entrance port on a side portion of the cannula, and communicates with the needle entrance port to define a suture path extending through the surgical access device at an oblique angle relative to the central axis. The needle ports are configured to guide a suture passer device distally through the surgical access device and first and second tissues of different thicknesses, while maintaining the same tissue bite distance in each of the first and second tissues. <CIT> discloses a surgical suture for a laparoscopic port site closure device. The surgical suture is configured such that a cartridge receiving surgical suture therein is provided at a fore-end of a needle guide for port site closure; the surgical suture is caught in a needle tip that is pierced through a body tissue by being guided by the needle guide; and when the needle is withdrawn, the surgical suture is pulled out along a path through which the needle was pierced into the tissue, and the surgical suture is tied outside a patient's body, thereby being capable of closing a laparoscopic port site. The laparoscopic port site closure device is in a tube shape for being introduced into a port site, and includes: a tubular body provided with needle guides that face each other and guide insertion of a needle; wings mounted to a lower portion of the tubular body such that the wings are opened and closed through a cam method; and an operating stick penetrating through the tubular body to operate the wings by being rotated to push and open the wings and to pull and close the wings by being rotated reversely.

The present invention provides a suture needle guide tube according to claim <NUM>. Optional features are recited in the dependent claims. The suture needle guide tube can guide a suture needle to puncture accurately in a predetermined direction, and a deviated puncture caused by shaking of the suture needle is avoided, thereby reducing injury to tissue of a wound to be sutured of a patient.

In the technical solution, the tube body is capable of being inserted into a wound to be sutured, and the tube body comprises the internal axial channel for arranging the handling tube provided with the suture arrangement member and the handling member. In this manner, during suturing, the tube body does not need to be pulled out of the wound or an incision, and the handling tube only needs to be inserted into the internal axial channel of the tube body, so that the suture arrangement member only needs to arrange a suturing member in an inner cavity, thereby avoiding additional tissue injury caused by a mistake made in the second puncture. The suture needle guide is provided on the tube body, and the suture needle passing path on the tube body correspondingly communicates with the suture needle guide channel on the suture needle guide. In this manner, effective guiding performed by the suture needle guide channel prevents shaking, so that the suture needle can pass through the suture needle passing path stably, so as to pass through parietal tissue of the inner cavity and then enter the inner cavity so as to hook or hold an arranged suture. Additionally, after the suture needle hooks or holds the suture, effectively guided by the suture needle guide channel, the suture needle with the suture can stably pass through the parietal tissue and then exit. Therefore, the suture needle guide tube can guide the suture needle to puncture accurately in a predetermined direction, and a deviated puncture caused by shaking of the suture needle is avoided, thereby reducing injury to tissue of a wound to be sutured of a patient. Furthermore, the internal axial channel of the tube body may provide an access channel for other surgical instruments.

The present invention also provides a tissue suturing device according to claim <NUM>. Optional features are recited in the dependent claims. The tissue suturing device not only can guide a suture needle to puncture accurately in a predetermined direction to prevent a deviated puncture caused by shaking of the suture needle, but also can accurately arrange a suture in a desired position, so that the suture can be led out after the suture needle punctures once, thereby significantly reducing injury to tissue of a wound to be sutured of a patient.

In the technical solution, the suture needle path on the sleeve tube main body can effectively guide the suture needle to pass therethrough, for example, vertically or obliquely. In this manner, the suture needle can be prevented from shaking during a puncture, so that the suture needle can pass through the suture needle passing path stably, so as to pass through parietal tissue of an inner cavity and then enter the inner cavity. Additionally, the handling member drives, by means of the transmitting member, the suture arrangement member to change, in the inner cavity, from the folded position to the unfolded position, so that the suture is accurately extended to and arranged on two sides of the wound to be sutured in the inner cavity. After the suture needle having entered the inner cavity holds the suture, effectively guided by the suture needle path on the sleeve tube main body, the suture needle with the suture can stably pass through the parietal tissue and then exit. Therefore, the tissue suturing device not only can guide a suture needle to puncture accurately in a predetermined direction to prevent a deviated puncture caused by shaking of the suture needle, but also can accurately arrange a suture in a desired position, so that the suture can be led out after the suture needle punctures once, thereby significantly reducing injury to tissue of a wound to be sutured of a patient.

To better understand the above and other objectives, features, advantages, and functions of the present invention, reference may be made to the preferred embodiments shown in the accompanying drawings. The same or similar reference numerals in the accompanying drawings refer to the same or similar components. It should be understood by those skilled in the art that the accompanying drawings are intended to schematically illustrate preferred embodiments of the present invention, instead of setting any limitations on the scope of the present invention. The various components in the drawings are not drawn to scale.

<NUM> - tube body, <NUM> - suture needle guide, <NUM> - suture needle guide channel, <NUM> - suture needle passing port, <NUM> - sleeve, <NUM> - oblique cylinder, <NUM> - protuberant piece, <NUM> - sleeve tube main body, <NUM> - handling member, <NUM> - transmitting member, <NUM> - suture arrangement member, <NUM> - suture arrangement wing, <NUM> - linkage, <NUM> - suture accommodating gap, <NUM> - suture needle guide tube, <NUM> - handling tube, <NUM> - suture receiving recess, <NUM> - vertical rod, <NUM> - transverse rod, <NUM> - cross, <NUM> - suture passing hole, <NUM> - suture, <NUM> - suture support column, <NUM> - suture bypassing column, <NUM> - suture needle suture-holding port.

In the following detailed description of embodiments, illustration is provided with reference to the accompanying drawings that constitute a part of the description. The accompanying drawings illustrate, by means of examples, specific embodiments, and the present invention is implemented in these embodiments. The illustrated embodiments are not intended to be exhaustive embodiments of the present invention. It will be appreciated that other embodiments may be utilized, and changes in structures or logic may be made without departing from the scope of the present invention. For the accompanying drawings, directional terms, such as "lower," "upper," "left," "right," etc., are used with reference to the positions and directions in the accompanying drawings. Since the components of the embodiments of the present invention can be implemented in a variety of positions and directions, these directional terms are for illustrative purposes, rather than limiting purposes. Therefore, the following specific embodiments are not intended to set limitations, and the scope of the present invention is defined by the appended claims.

In a first aspect, referring to <FIG>, <FIG>, <FIG>, <FIG>, a suture needle guide tube <NUM> provided in a specific embodiment of the present invention includes a tube body <NUM> and a suture needle guide <NUM>. The tube body <NUM> is for being inserted into a wound to be sutured. The tube body <NUM> includes an internal axial channel for arranging a handling tube provided with a suture arrangement member and a handling member. The tube body <NUM> is provided with a plurality of suture needle passing paths located in different positions for guiding a suture needle to pass therethrough. The suture needle guide <NUM> is provided with a plurality of suture needle guide channels <NUM> located in different positions. The suture needle guide <NUM> is provided on the tube body <NUM>, and each suture needle guide channel <NUM> respectively communicates with the corresponding suture needle passing path so as to guide the suture needle to move out of the suture needle guide channel <NUM> and then pass through the suture needle passing path to enter an inner cavity and to allow the suture needle to exit with a suture.

In the suture needle guide tube <NUM>, the tube body <NUM> is capable of being inserted into a wound to be sutured, and the tube body <NUM> includes the internal axial channel for arranging the handling tube provided with the suture arrangement member and the handling member. In this manner, during suturing, the tube body does not need to be pulled out of the wound or an incision, and the handling tube only needs to be inserted into the internal axial channel of the tube body, so that the suture arrangement member only needs to arrange a suturing member in an inner cavity, thereby avoiding additional tissue injury caused by a mistake made in the second puncture. The suture needle guide <NUM> is provided on the tube body <NUM>, and the suture needle passing path on the tube body <NUM> correspondingly communicates with the suture needle guide channel <NUM> on the suture needle guide <NUM>. In this manner, effective guiding performed by the suture needle guide channel <NUM> prevents the suture needle from shaking during a puncture, so that the suture needle can pass through the suture needle passing path stably, so as to pass through parietal tissue of the inner cavity and then enter the inner cavity so as to hook or hold an arranged suture. Additionally, after the suture needle hooks or holds the suture, effectively guided by the suture needle guide channel <NUM>, the suture needle with the suture can stably pass through the parietal tissue and then exit, so that the suture is guided to pass through the wound to be sutured so as to suture the same. Therefore, the suture needle guide tube <NUM> can guide the suture needle to puncture accurately in a predetermined direction, and a deviated puncture caused by shaking of the suture needle is avoided, thereby reducing injury to tissue of a wound to be sutured of a patient. Furthermore, the internal axial channel of the tube body may provide an access channel for other surgical instruments.

In the suture needle guide tube <NUM>, the suture needle guide <NUM> is capable of being adjusted to a predetermined position by means of axial movement along the tube body so that one suture needle guide channel <NUM> correspondingly communicates with one suture needle passing path in the predetermined position. For example, the tube body <NUM> is provided with a plurality of suture needle passing paths that are axially spaced apart from each other. Due to personal differences, the thickness of the tissue of the wound to be sutured may be different, so that the suture needle guide <NUM> can be adjusted to the predetermined position by means of the axial movement along the tube body according to the different thickness of the tissue. In the predetermined position, each suture needle guide channel <NUM> respectively correspondingly communicates with the corresponding suture needle passing path in the predetermined position, thereby better meeting wound suturing requirements of different patients.

Additionally, in the suture needle guide tube <NUM>, the suture needle guide <NUM> can be held and positioned in the predetermined position by using a variety of methods. For example, in a method, a plurality of concave parts axially spaced apart from each other are formed on the tube body <NUM>, and a positioning ball is connected to the suture needle guide <NUM> by means of an elastic member such as a spring. The positioning ball may slide into or out of each concave part. In this manner, after the suture needle guide <NUM> moves to the predetermined position, the positioning ball under the action of the elastic member slides into the concave part in the predetermined position, so that the suture needle guide <NUM> is held and positioned in the predetermined position relative to the tube body <NUM>. In order to adjust the position of the suture needle guide <NUM> again, only pushing force for overcoming the elastic member needs to be exerted, and the positioning ball slides out of the concave part. Alternatively, in another method, the suture needle guide tube includes a positioning structure capable of locking and unlocking the tube body <NUM> and the suture needle guide <NUM>. When the positioning structure is unlocked, the suture needle guide <NUM> is allowed to move axially, and when the suture needle guide moves axially to the predetermined position, the positioning structure is locked. In this case, a user handles the positioning structure to unlock the tube body <NUM> and the suture needle guide <NUM> from each other, so that the suture needle guide <NUM> can be moved axially. After the suture needle guide <NUM> is moved to the predetermined position, the user handles the positioning structure to lock the tube body <NUM> and the suture needle guide <NUM>, so that the suture needle guide <NUM> can be held and positioned in the predetermined position.

Certainly, a plurality of types of positioning structures may be provided. For example, in a certain type of positioning structure, the positioning structure includes a positioning hole and a pin. For example, a plurality of positioning holes axially spaced apart from each other are formed on the tube body <NUM>, and a pin hole is formed on the suture needle guide <NUM>. After the suture needle guide <NUM> moves to the predetermined position, the pin passes through the pin hole, and is inserted into the positioning hole in the predetermined position, so that the suture needle guide <NUM> is held and positioned in the predetermined position. Alternatively, in another type of positioning structure, a positioning hole is formed on the suture needle guide <NUM>, and a locking bolt may be thread-fitted in the positioning hole. In this manner, when the locking bolt is loosened, the suture needle guide <NUM> can move axially to the predetermined position. In the predetermined position, the locking bolt is tightened, so that an end portion of the locking bolt is pressed against an outer surface of the tube body <NUM>, and the suture needle guide <NUM> is held and positioned in the predetermined position.

Additionally, in the suture needle guide tube <NUM>, for the suture needle passing path on the tube body <NUM>, a plurality of types thereof may be provided. For example, in a type, two protuberant plates circumferentially spaced apart from each other are formed on an outer surface on each of two sides opposite across the diameter of the tube body <NUM>. Axially staggered holes are formed on the two protuberant plates on each side. An oblique distance between the holes of the two protuberant plates is the suture needle passing path. Alternatively, in another type, referring to <FIG>, a plurality of pairs of suture needle passing ports are formed on a tube wall of the tube body <NUM>, and each pair of suture needle passing ports includes one suture needle passing port <NUM> and the other suture needle passing port <NUM> that are axially spaced apart from each other and circumferentially staggered, so that an oblique distance between each pair of the two suture needle passing ports <NUM> forms the suture needle passing path. In this manner, the tube wall of the tube body <NUM> can be directly used to form the plurality of pairs of suture needle passing ports that are staggered, and the oblique distance between the two suture needle passing ports <NUM> of each pair of suture needle passing ports is the suture needle passing path. An oblique connecting line between the two suture needle passing ports <NUM> of each pair of suture needle passing ports may be substantially close to the central axis of the tube body <NUM>, or located away from the central axis of the tube body <NUM>, for example, located at an edge of the tube body <NUM>.

Additionally, in the suture needle guide tube <NUM>, a plurality of types of suture needle guides <NUM> may be provided. For example, in a type of the suture needle guide <NUM>, the suture needle guide <NUM> is a slide block, and the slide block is provided on the outer surface of the tube body <NUM>, and is axially slidable. The suture needle guide channel <NUM> is formed on the slide block. Alternatively, in another type of the suture needle guide <NUM>, referring to <FIG>, the suture needle guide <NUM> includes a sleeve <NUM> and a plurality of oblique cylinders <NUM>. The sleeve <NUM> is sleeved on the tube body <NUM>. The plurality of oblique cylinders <NUM> are provided on an outer peripheral surface of the sleeve <NUM>, and circumferentially spaced apart from each other. An internal channel of each oblique cylinder <NUM> is the suture needle guide channel <NUM>. In this manner, referring to <FIG>, the sleeve <NUM> only needs to be easily sleeved on the tube body <NUM>. Additionally, annular mating and annular restriction between the sleeve <NUM> and the tube body <NUM> can also improve the stability of the sleeve <NUM>, thereby further improving stability of a puncture performed by the suture needle.

Additionally, referring to <FIG>, a protuberant piece <NUM> extends axially from an end surface of a sleeve wall at one end of the sleeve <NUM>, and has a positioning hole, and a positioning column capable of being pressed against the tube body <NUM> is provided in the positioning hole. When the positioning column is pressed against the tube body <NUM>, the sleeve <NUM> is held in the predetermined position, and when the positioning column disengages from the tube body <NUM>, the sleeve <NUM> is allowed to move axially. The positioning column may be the locking bolt or pin described above.

A specific embodiment of the suture needle guide tube <NUM> is described below. The suture needle guide tube <NUM> includes a tube body <NUM> and a suture needle guide <NUM>. A plurality of pairs of suture needle passing ports are formed on a tube wall of the tube body <NUM>, and each pair of suture needle passing ports includes one suture needle passing port <NUM> and the other suture needle passing port <NUM> that are axially spaced apart from each other and circumferentially staggered. An oblique distance between each pair of the two suture needle passing ports <NUM> forms a suture needle passing path. The suture needle guide <NUM> includes a sleeve <NUM> and a plurality of oblique cylinders <NUM>. The sleeve <NUM> is sleeved on the tube body <NUM>. The plurality of oblique cylinders <NUM> are provided on an outer peripheral surface of the sleeve <NUM>, and circumferentially spaced apart from each other. An internal channel of each oblique cylinder <NUM> is a suture needle guide channel <NUM>. A protuberant piece <NUM> is formed on the sleeve <NUM>, and is provided with a locking bolt. The sleeve <NUM> is capable of being adjusted to a predetermined position by means of axial movement along the tube body <NUM>. After being tightened, the locking bolt is pressed against the tube body <NUM>, so that the sleeve <NUM> is held in the predetermined position. In the predetermined position, each suture needle guide channel <NUM> communicates with the corresponding suture needle passing path in the predetermined position. In this manner, the suture needle can be inserted obliquely via the suture needle guide channel <NUM>, then pass through the suture needle passing path, then be obliquely inserted into parietal tissue so as to enter an inner cavity.

In a second aspect, referencing to <FIG>, <FIG>, <FIG>, and <FIG>, a tissue suturing device provided in a specific embodiment of the present invention includes a sleeve tube main body <NUM>, a handling member <NUM>, and a suture arrangement member <NUM>. The sleeve tube main body <NUM> is for being inserted into a wound to be sutured. The sleeve tube main body <NUM> includes a proximal handling end, a distal insertion end, and an axial channel between the proximal handling end and the distal insertion end. The sleeve tube main body <NUM> includes a plurality of suture needle paths located in different positions for guiding a suture needle to pass therethrough. The handling member <NUM> is provided at the proximal handling end, and includes a transmitting member <NUM> located in the axial channel. The suture arrangement member <NUM> is provided at the distal insertion end and for positioning a suture. The handling member <NUM> is capable of driving, by means of the transmitting member <NUM>, the suture arrangement member <NUM> to switch between a folded position in which the distal insertion end and the suture arrangement member <NUM> are allowed to pass through the wound to be sutured of parietal tissue of an inner cavity and an unfolded position in which the suture is extended to and arranged on two sides of the wound to be sutured in the inner cavity. The suture needle path is for guiding the suture needle to pass through the parietal tissue to enter the inner cavity and for allowing the suture needle to exit with the suture.

In the tissue suturing device, the suture needle path on the sleeve tube main body <NUM> can effectively guide the suture needle to pass therethrough. In this manner, the suture needle can be prevented from shaking during a puncture, so that the suture needle can pass through the suture needle passing path stably, so as to pass through parietal tissue of an inner cavity and then enter the inner cavity. Additionally, the handling member <NUM> drives, by means of the transmitting member <NUM>, the suture arrangement member <NUM> to change, in the inner cavity, from the folded position to the unfolded position of spanning the wound to be sutured, so that the suture is accurately extended to and arranged on two sides of the wound to be sutured in the inner cavity. After the suture needle having entered the inner cavity holds the suture, effectively guided by the suture needle path on the sleeve tube main body <NUM>, the suture needle with the suture can stably pass through the parietal tissue and then exit. Therefore, the tissue suturing device not only can guide a suture needle to puncture accurately in a predetermined direction to prevent a deviated puncture caused by shaking of the suture needle, but also can accurately arrange a suture in a desired position, so that the suture can be led out after the suture needle punctures once, thereby significantly reducing injury to tissue of a wound to be sutured of a patient.

In this tissue suturing device, a plurality of types of suture arrangement members <NUM> may be provided. For example, in a type of the suture arrangement member <NUM>, the suture arrangement member <NUM> may include a main body and two opposite movable telescopic suture arrangement rods. When the two telescopic suture arrangement rods move to a retracted position, the distal insertion end and the suture arrangement member <NUM> can enter and exit the wound to be sutured. In the inner cavity, after moving and extending, the two telescopic suture arrangement rods can span two sides of the wound to be sutured, so as to cause the suture to be accurately extended to and arranged on the two sides of the wound to be sutured. Alternatively, in another type of the suture arrangement member <NUM>, referring to <FIG>, <FIG>, and <FIG>, the suture arrangement member <NUM> includes two suture arrangement wings <NUM>. Respective ends of the two suture arrangement wings <NUM> are hinge-connected to the transmitting member <NUM>. A linkage <NUM> is hinge-connected between each suture arrangement wing and the distal insertion end. The transmitting member <NUM> is capable of driving the two suture arrangement wings <NUM> to fold and unfold when driven by the handling member <NUM> to move telescopically axially. In this manner, since the two suture arrangement wings <NUM> can rotate, an occupied space is reduced, and injury to the wound to be sutured caused by entering or exiting the wound to be sutured can be reduced as much as possible. In <FIG>, when the handling member <NUM> drives the transmitting member <NUM> to move downwards, the two suture arrangement wings <NUM> can be driven by the two linkages <NUM> to rotate, so as to change from the folded position shown in <FIG> to the unfolded position shown in <FIG>, so that the two suture arrangement wings <NUM> span the two sides of the wound to be sutured, so as to cause the suture to be accurately extended to and arranged on the two sides of the wound to be sutured. In this manner, after the suture needle respectively punctures into the inner cavity obliquely from the two sides, the suture <NUM> can be respectively pulled to the outside from the two suture arrangement wings <NUM>, so as to suture the wound to be sutured. Additionally, the transmitting member <NUM> may be one single rod or other activation force transmitting members connected to each other.

Additionally, in order for the suture needle to hook or hold the suture easily, with reference to a type of suture arrangement wing <NUM> shown in <FIG>, and another type of suture arrangement wing <NUM> shown in <FIG>, the suture arrangement wing <NUM> is provided with a suture needle suture-holding port <NUM>. For example, the suture arrangement wing <NUM> shown in <FIG> has one suture needle suture-holding port <NUM>. The suture arrangement wing <NUM> shown in <FIG> has two suture needle suture-holding ports <NUM> corresponding to suture needles inserted in different inclination angles. In this manner, after the suture needle is obliquely inserted into the suture needle suture-holding port <NUM>, the suture can be easily hooked or held.

Additionally, in the tissue suturing device, with reference to <FIG> and <FIG>, the suture arrangement member <NUM> includes a cross <NUM> having a vertical rod <NUM> and a transverse rod <NUM>. One end of the vertical rod <NUM> is connected to the transmitting member <NUM>, and the other end of the vertical rod <NUM> is for allowing the suture to bypass the same. Two ends of the transverse rod <NUM> are respectively for allowing the suture to pass therethrough. In this manner, winding of the suture <NUM> by means of the cross <NUM> and the two suture arrangement wings <NUM> enables the suture needle to easily hold the suture <NUM> so as to pull the suture <NUM> to the outside to suture the wound to be sutured. For example, referring to <FIG>, after moving downwards from the left side, the suture is then wound on a suture support column <NUM> of the suture arrangement wing <NUM> on the left side, is then wound downwards in a left hole of the transverse rod <NUM>, then extends upwards to be wound on a suture bypassing column <NUM> of the suture arrangement wing <NUM> on the left side, then extends downwards obliquely to be wound in a receiving recess on a lower end of the vertical rod <NUM>, is then subjected, on the right side, to winding of the left side type, and then extends upwards.

Additionally, in order for the two suture arrangement wings <NUM> to change from the folded position to the unfolded position more easily to improve easiness of handling, an elastic member is provided in a position where the respective ends of the two suture arrangement wings <NUM> and the transmitting member <NUM> are hinge-connected to each other. The elastic member may be an elastic sleeve or a torsional spring, and is capable of accumulating force when the two suture arrangement wings are in the folded position, so as to apply biasing force to the two suture arrangement wings <NUM> to cause the same to rotate towards the unfolded position. In this manner, when applying force, the elastic member drives the two suture arrangement wings <NUM> to extend rapidly.

Additionally, the suture <NUM> may be affixed to the suture arrangement member <NUM>. Alternatively, in order to further improve reliability of pre-positioning of the suture <NUM>, referring to <FIG> and <FIG>, a suture accommodating gap <NUM> for pre-positioning the suture and allowing the suture to be hooked out by the suture needle is formed on the suture arrangement member <NUM>. In this manner, the suture <NUM> can be pre-positioned in the suture accommodating gap <NUM>, so that when the suture arrangement member <NUM> carrying the suture passes through the wound to be sutured, the suture does not separate accidentally from the suture arrangement member <NUM>.

Additionally, the tissue suturing device includes a suture needle (not shown) capable of holding the suture. The suture needle is capable of passing through the suture needle path to pass through the parietal tissue to enter the inner cavity and exiting with the suture. That is, after a front end of the suture needle is obliquely transmitted into the inner cavity, the front end of the suture needle hooks or holds, on the suture arrangement member <NUM> in the unfolded position, the suture, so that when exiting along the entry path, the suture needle can pull the suture to the outside.

Additionally, it should be noted that in the tissue suturing device, a plurality of types of sleeve tube main bodies <NUM> may be provided. For example, the sleeve tube main body <NUM> may be a separate tube, and the tube may include a plurality of suture needle paths located in different positions for guiding the suture needle to pass therethrough. Alternatively, with reference to <FIG>, <FIG>, <FIG>, and <FIG>, the sleeve tube main body <NUM> includes a suture needle guide tube <NUM> and a handling tube <NUM>. The suture needle guide tube <NUM> includes a suture needle path. The handling tube <NUM> is provided in an internal axial channel of the suture needle guide tube <NUM>. The handling member <NUM> is provided at a proximal handling end of the handling tube <NUM>. The transmitting member <NUM> is located in an axial channel of the handling tube <NUM>. The suture arrangement member <NUM> is provided at a distal insertion end of the handling tube <NUM>. In this manner, when used, the handling tube <NUM> can be inserted into the suture needle guide tube <NUM> so as to form an annular gap therebetween, and the suture needle can enter or exit by means of the suture needle path on the suture needle guide tube <NUM>. For example, the suture needle can pass through the annular gap. Alternatively, if the handling tube <NUM> is likely to interfere with the suture needle, an oblique suture passing hole <NUM> can be formed on the handling tube <NUM> as shown in <FIG>, so that the suture needle can pass through the suture passing hole <NUM>, thereby preventing the handling tube <NUM> from interfering with the suture needle.

Additionally, with reference to <FIG>, <FIG>, and <FIG>, a plurality of suture receiving recesses <NUM> circumferentially spaced apart from each other and extending axially are formed on an outer side surface of the handling tube <NUM>. In this manner, the suture can be pre-positioned in the suture receiving recess <NUM>. By means of restriction performed by the suture receiving recess <NUM>, the suture can be prevented from being dislocated due to looseness, so that the suture needle can more easily pull the suture to the outside.

Additionally, in order to facilitate arrangement and pulling of the suture, the handling member <NUM> includes suture leading holes spaced apart from each other, so as to allow the suture to pass through the suture leading hole on one side, then extend axially along the handling tube <NUM>, for example, along the suture receiving recess <NUM>, be wound around the suture arrangement member <NUM>, then return along the handling tube <NUM>, and extend out from the suture leading-out hole on the other side. In this manner, for example in <FIG>, the suture can be perpendicularly pulled between the handling member <NUM> and the handling tube <NUM>, thereby preventing the suture from sticking.

Additionally, it should be further noted herein that the suture needle guide tube <NUM> described in the second aspect of the present invention may be a separate tube, and no other suture needle guide component is provided on the outer surface of the tube. Alternatively, with reference to <FIG>, the suture needle guide tube <NUM> in the second aspect of the present invention is the suture needle guide tube <NUM> according to the first aspect, and the suture needle passing path and the suture needle guide channel <NUM> form the suture needle path. In this manner, as described above, effective guiding performed by the suture needle guide channel <NUM> prevents a suture needle from shaking during a puncture, so that the suture needle can pass through the suture needle passing path stably obliquely, so as to pass through parietal tissue of an inner cavity and then enter the inner cavity. Additionally, after the suture needle holds the suture, effectively guided by the suture needle guide channel <NUM>, the suture needle with the suture can stably pass through the parietal tissue and then exit, so that the suture is guided to pass through the wound to be sutured so as to suture the same. Therefore, the suture needle guide tube <NUM> in the first aspect can guide a suture needle to puncture accurately in a predetermined direction, and a deviated puncture caused by shaking of the suture needle is avoided, thereby reducing injury to tissue of a wound to be sutured of a patient.

Claim 1:
A suture needle guide tube (<NUM>), comprising:
a tube body (<NUM>), for being inserted into a wound to be sutured, the tube body (<NUM>) comprising an internal axial channel for arranging a handling tube (<NUM>) provided with a suture arrangement member (<NUM>) and a handling member (<NUM>) therein, and the tube body (<NUM>) being provided with a plurality of suture needle passing paths located in different positions for guiding a suture needle to pass therethrough; and
a suture needle guide (<NUM>), provided with a plurality of suture needle guide channels (<NUM>) located in different positions;
wherein the suture needle guide (<NUM>) is provided on the tube body (<NUM>), and each suture needle guide channel (<NUM>) respectively communicates with a corresponding one of the plurality of suture needle passing paths so as to guide the suture needle to move out of the suture needle guide channel (<NUM>) and then pass through the suture needle passing path to enter an inner cavity and to allow the suture needle to exit with a suture, and characterized in that:
the suture needle guide (<NUM>) is capable of being adjusted to a plurality of predetermined positions by means of axial movement along the tube body (<NUM>) so that each of the suture needle guide channels (<NUM>) communicates with a corresponding one of the plurality of suture needle passing paths in a corresponding one of the plurality of predetermined positions.