CN116269569A - Surgical suture line is with reason line instrument - Google Patents

Abstract

The invention relates to a wire arranging tool for surgical suture, which aims at the fact that the surgical suture is a flat wire or a round flat wire, and mainly comprises a wire pressing plate and a handle connected with the wire pressing plate; the line pressing plate is of a strip-shaped structure, one side surface of the strip-shaped structure is a surface which can be attached to one footprint surface of the suture line, the surface is marked as an attaching surface, and an inlet groove for the surgical suture line to pass through is formed in the attaching surface; a flat slot (strip slot) for the surgical suture to pass through is arranged on the handle, and the slotting direction is consistent with the length direction of the line pressing plate; the side walls of the inlet groove and the flat-mouth groove are respectively attached to the two footprint surfaces of the surgical suture line to keep the surgical suture line sliding in the groove and not curled; the wire arranging method comprises the following steps: attaching the footprint surface of the surgical suture line to the attaching surface of the line pressing plate, sequentially penetrating into the inlet groove and the flat-mouth groove and penetrating out of the flat-mouth groove, and finishing the surgical suture line; the invention ensures that the round flat wire of the suture section is not curled and knotted in the operation process.

Description

Surgical suture line is with reason line instrument

Technical Field

The invention belongs to the technical field of medical instruments, and relates to a wire arranging tool for surgical flat wires/round flat wires.

Background

Surgical sutures are mainly of the round wire, flat wire or round flat wire type. The round wire means that the whole suture line is a cylinder, the suture line is generally not easy to be knotted and wound, the round wire can conveniently enter human tissues to be sutured, and the suture line is in line contact with the human tissues, so that a certain cutting effect is achieved; the round flat wire is a suture line with round ends and flat wires in the middle; the flat wire is a rectangular section, and in the surgical suturing process, the flat wire or the round flat wire is in surface contact with human tissues, so that the cutting effect of the suture line on a suturing area can be greatly reduced; compared with round wires, flat wires or round flat wires can provide a larger footprint contact surface (i.e. a footprint surface, a larger contact area with the area to be sutured), especially in meniscus suturing, shoulder joint and other operations, the cutting effect of the sutured part is reduced, and the larger footprint surface is also beneficial to wound healing. However, due to the influence of the shape of the round flat wire/the flat wire, the flat wire section is easier to knot and wind, the difficulty of wire arrangement and stitching is increased, the operation efficiency is greatly influenced, and the advantage of large footprint can not be exerted. Currently, for sorting round flat wires/flat wires, a doctor can manually sort the round flat wires/flat wires with a probe hook (as shown in fig. 1), mainly uses the probe hook to hook the flat wires and then sorts the wires by means of slowly straightening and the like, and the method causes long operation time consumption and low sorting efficiency. And there is no special tool for round flat wire/flat wire arrangement.

Therefore, the development of a special tool and a method for sorting round flat wires/flat wires, which can be used quickly, efficiently and conveniently, has very important significance.

Disclosure of Invention

The invention aims to solve the problems in the prior art and provides a wire arranging tool and a wire arranging method for surgical flat wires/round flat wires.

In order to achieve the above purpose, the invention adopts the following scheme:

the surgical suture is a flat wire or round flat wire, and mainly comprises a wire pressing plate and a handle connected with the wire pressing plate;

the line pressing plate is of a strip-shaped structure, one side surface of the strip-shaped structure is a surface which can be attached to one footprint surface of the suture line, the surface is marked as an attaching surface, and an inlet groove for the surgical suture line to pass through is formed in the attaching surface;

the handle is provided with a flat slot for the surgical suture to pass through, the flat slot is a strip slot, and the slotting direction of the flat slot is consistent with the length direction of the line pressing plate;

the side walls of the inlet groove and the flat mouth groove are respectively attached to the two footprint surfaces of the surgical suture, and the distance between the two sides of the inlet groove and the flat mouth groove attached to the surgical suture is matched with the thickness of the string of the surgical suture to keep the surgical suture sliding in the groove and not curled.

The inlet groove corrects the flat line segment to realize that the flat line segment is not curled and knotted after entering the flat slot. The thickness of the unordered flat line segment is increased compared with the unordered state, and only the unordered state can be entered according to the fact that the height of the flat slot is matched with the thickness of the flat line segment. In the flat slot, the shape of the flat wire is fixed (the thickness is limited and the flat wire cannot be deformed), and meanwhile, the head of the flat wire is hardened, so that the flat wire can be ensured to easily enter the flat slot and then easily penetrate into the flat slot without deformation.

The round flat wire head is round, and can be tidied by using the tool. Only the round wire section is required to pass through the handle. In the actual operation process, the round head is only used for threading, and the round wire section is not used for stitching in practice (otherwise, the advantage of flat wire cannot be exerted), and just because one round head wire section is not used for stitching, the round head can be directly cut off by the wire arranging tool, or the round wire section can be directly skipped, and the flat wire section is clamped into the wire arranging tool from the side opening.

As a preferable technical scheme:

the surgical suture thread arranging tool has the advantages that the inlet groove and the flat groove are both side opening grooves, and the surgical suture thread can be plugged in or taken out from the side surfaces (if the thread arranging effect is poor due to uncontrollable factors, the thread can be directly taken out from the side surfaces for replacement or re-arrangement); the side surface refers to a surface perpendicular to the thickness direction of the surgical suture. In order to further facilitate threading, the notch is designed to be open at one side, so that the surgical suture can be plugged in or taken out from the opening. If the bundling is unsuccessful in the wire arranging process, the wire can be directly taken out from the side opening; meanwhile, the round flat wire can be directly plugged in from the side opening.

The surgical suture thread arranging tool has the advantages that the flat slot is positioned in the handle and is an integral part with the handle; the junction of line ball board and handle is the entry in flat mouthful of groove, and the other end of handle (i.e. with the opposite one end of junction) is the export in flat mouthful of groove, and flat mouthful of groove and operation suture line laminating one side with the line ball board the laminating face coplane, the other side and the entry groove of flat mouthful of groove and operation suture line laminating are located the same side of laminating face.

The thread arranging tool for the surgical suture thread has the advantages that the inlet groove is a U-shaped structure groove, the cross section of the U-shaped structure groove is U-shaped, but two opposite sides of the U-shaped structure groove are parallel to each other and are in a straight line or curve, one of two opposite side surfaces of the U-shaped structure groove is coplanar with the joint surface (the position where the inlet groove is not arranged on the joint surface can be a plane or a curved surface, and the joint surface can be only jointed with one footprint surface of the suture thread);

the number of the inlet grooves is n, and n is more than or equal to 2; the inlet groove closest to the flat-mouth groove is denoted as an nth inlet groove, and the inlet groove farthest is denoted as a first inlet groove; the surgical suture line can be sequentially penetrated in a straight line and non-overturning state according to the serial number of the inlet groove. The cross-section of the inlet slot may be, but is not limited to, rectangular or curvilinear (e.g., a combination of arcuate shapes).

The surgical suture thread arranging tool has the advantages that the bevel structures are designed at the inlet of each inlet groove and the inlet of each flat-mouth groove; the bevel structure is inclined along the entering direction of the surgical suture at the entrance of each entrance groove and each flat groove (namely, the side which is attached to the surgical suture is inclined away from the surgical suture along the thickness direction of the surgical suture) so as to increase the distance between the entrance groove and the two sides which are attached to the surgical suture on the flat groove; the inclined angle is reduced along with the increase of the serial number of the inlet groove until the inclined angle of the flat-mouth groove is 0-5 degrees. Different notch inlet wire angle designs (inlet bevel angles) are provided for different inlet wire positions, so that surgical suture lines can be conveniently preassembled into a wire arranging tool, and a wire passing groove is formed in the handle end of the wire arranging tool. For example, if a 75 ° bevel is provided in the first entry slot, then the flat wire will easily pass into the finishing tool, the second bevel is provided at 60 °, the third bevel is provided at 45 °, and the third bevel is provided at 30 ° … to a final bevel to the slot opening of the wire passing slot within 0 to 5 °, ensuring that the wire entering the wire passing slot is perfect.

After the surgical suture thread arranging tool passes through the bevel structure of the flat slot, the ratio of the distance between the two sides of the flat slot, which are attached to the surgical suture thread, to the thickness of the band of the surgical suture thread is 1:1-1.3. The flat wire section can conveniently enter the notch and cannot deform in the notch.

The wire arranging tool for the surgical suture is characterized in that the handle is internally provided with the wire passing groove which has the same structure as the flat-mouth groove and is positioned on the same horizontal plane, the joint of the wire pressing plate and the handle is an inlet of the wire passing groove, and a single roller or a double roller for compacting the surgical suture is arranged between the wire passing groove and the flat-mouth groove; the single roller or the double rollers are fixed on the handle through roller pins (namely, a pin is used for rolling and clamping the handle). The cross section of the slot after the slot is passed through is rectangular or curved (such as arc arch and other combined shapes). The single roller is matched with the flat slot to realize compaction, and the double rollers are engaged with the upper roller and the lower roller to realize compaction. Compression refers to placing the surgical suture in tension. The flexible material of the roller is tightly pressed against the surgical suture, and in the surgical process, a doctor can tighten the whole surgical suture by tightly pulling the other end. The tightening effect can enable the line segment to have better binding effect (the tightening operation suture line is not easy to deform), and meanwhile, the length is controlled by a single roller or a double roller when the line is passed, so that the line passing efficiency is improved. After the roller presses the wire, the wire inlet and outlet functions can be realized by pushing the roller.

The surgical suture thread arranging tool has the advantages that the outer side of the single roller or the double rollers is wrapped with a layer of ductile material (such as rubber, the ductile material is convenient for compressing the thread); protrusions are arranged on the surface of the ductile material, which is in contact with the surgical suture (the efficiency of threading can be improved, and the thread threading slipping is avoided).

The wire arranging tool for the surgical suture is characterized in that the length of the wire passing groove is 100-200 mm, and the wire passing groove is specifically selected according to the length required by a surgery.

The invention also provides a method for arranging the surgical suture by adopting the thread arranging tool for the surgical suture, which is characterized in that one footprint surface of the surgical suture is attached to the attaching surface of the thread pressing plate and sequentially penetrates into the inlet groove, then penetrates into the flat mouth groove along the attaching surface of the thread pressing plate and penetrates out of the flat mouth groove, namely the arrangement of the complete surgical suture.

The mechanism of the invention is as follows:

because the flat wire which is not in a tight state is easy to deform, the side surface of the flat wire is promoted to deform when the flat wire passes through soft tissues in actual use, and the flat wire is not easy to recover after deformation. The wire arranging tool can arrange the flat wire penetrating tool at the moment, a doctor pulls the suture line at the other end, and then pushes the roller to cover the arranged wire in the flat slot on the part needing to be sutured.

The invention designs the inlet groove, the wire passing groove and the flat mouth groove to attach the round flat wire/flat wire harness to the wire harness plane of the wire arranging tool (limit and can keep the suture in a tight state to a certain extent), the front end inlet groove of the handle of the wire arranging tool continuously corrects the flat wire state, the head end of the handle is provided with the wire passing groove, the height of the groove is matched with the thickness of the flat wire, and the flat wire is ensured not to be curled and knotted after entering the flat mouth groove; the roller design ensures that the flat wire can pass smoothly and the flat wire can be kept in a good state in the wire passing process; in the actual operation process, a doctor pulls the round flat wire/the flat wire at the opposite side while operating the roller wire outlet, and the tidy flat wire segment can cover the area needing to be sutured.

Advantageous effects

(1) The wire arranging tool for the surgical suture is suitable for arranging flat wires/round flat wires, is easy to operate and has high wire arranging efficiency;

(2) According to the wire arranging tool for the surgical suture, the round flat wire section is limited to be attached to the plane of the handle through the inlet groove, the round flat wire is well pressed by the toothed roller design to carry out shape control and wire inlet and outlet operation, and the arranged round flat wire is attached to the inner groove of the handle;

(3) According to the thread arranging tool for the surgical suture, the suture is pressed by designing the bevel angle of each groove, the section beam of the inlet groove and the roller, so that the thread arranging effect is greatly improved;

(4) The thread arranging method for the surgical suture thread, provided by the invention, can conveniently arrange the round flat thread in the surgical process, so that the footprint surface of the round flat thread can be better attached to the suture position, and the round flat thread of the suture section is ensured not to be curled and knotted; the doctor only needs to pull the opposite side outgoing line to attach the tidied round flat wire to the surgical suture area;

(5) The invention can better exert the advantages of the round flat wire/flat wire in clinical application, ensure that the footprint surface of the flat wire segment is attached to human tissues after the round flat wire/flat wire enters the human body in the surgical suture process, the flat wire of the suture segment is not curled, the knotted area is not arranged in the wire segment, and reduce the cutting effect of the surgical suture on the human tissues.

Drawings

FIG. 1 is a schematic diagram of a prior art wire management tool;

FIG. 2 is a front view of the wire management tool of the present invention;

FIG. 3 is a cross-sectional view of the wire management tool of the present invention;

FIG. 4 is an isometric view of a wire management tool of the present invention;

FIG. 5 is an enlarged partial cross-sectional view of the first inlet tank of the present invention;

FIG. 6 is an enlarged partial cross-sectional view of a second inlet tank of the present invention;

FIG. 7 is a cross-sectional view of a roller of the present invention;

FIG. 8 is a cross-sectional shape I of an inlet slot of the present invention;

FIG. 9 is a cross-sectional shape II of the inlet slot of the present invention;

wherein 1-a first inlet slot; 2-a second inlet tank; 3-wire passing grooves; 4-line pressing plates; 5-a handle; 6-a roller; 7-a flat slot; 8-surgical suture.

Detailed Description

The invention is further described below in conjunction with the detailed description. It is to be understood that these examples are illustrative of the present invention and are not intended to limit the scope of the present invention. Further, it is understood that various changes and modifications may be made by those skilled in the art after reading the teachings of the present invention, and such equivalents are intended to fall within the scope of the claims appended hereto.

Example 1

As shown in fig. 2 to 4, the surgical suture thread arranging tool for surgical suture thread is composed of a thread pressing plate 4 and a handle 5 connected with the thread pressing plate 4;

the line pressing plate 4 is of a strip-shaped structure, one side surface of the strip-shaped structure is a surface which can be attached to one footprint surface of the suture line, the surface is marked as an attaching surface, and an inlet groove for the surgical suture line to pass through is formed in the attaching surface; the inlet groove is a side-opening U-shaped structure groove and is used for inserting or taking out the surgical suture 8 from the side surface, and the side surface is one surface perpendicular to the thickness direction of the surgical suture 8; the U-shaped structure groove is U-shaped in cross section, but two opposite sides of the U-shaped are parallel to each other and are in a straight line or curve (as shown in fig. 5, 6, 8 and 9, fig. 5 and 6 are corresponding plane passing lines, fig. 8 and 9 are cambered surfaces and combined-shaped passing lines), and one of two opposite side surfaces of the U-shaped structure groove is coplanar with the joint surface; the number of the inlet grooves is n, and n is more than or equal to 2; the inlet groove closest to the flat-mouth groove 7 is denoted as an nth inlet groove, the inlet groove farthest from the flat-mouth groove 7 is denoted as a first inlet groove 1, and the inlet groove second farthest from the flat-mouth groove 7 is denoted as a second inlet groove 2; the surgical suture 8 can be sequentially inserted in a state of being straight and not turned over according to the serial number of the entrance slot.

The handle 5 is internally provided with a wire passing groove 3 and a flat mouth groove 7 for the surgical suture 8 to pass through, the structure of the wire passing groove 3 and the flat mouth groove 7 are the same, the slotting direction is on the same straight line and is positioned on the same horizontal plane (namely, the side walls of the wire passing groove 3 and the flat mouth groove 7 are respectively coplanar with each other); the wire passing groove 3, the flat opening groove 7 and the handle 5 are integrated into a whole; the length of the wire passing groove 3 is 100-200 mm, the wire passing groove 3 is a strip-shaped groove with an open side surface, and is used for inserting or taking out the surgical suture 8 from the side surface, wherein the side surface is one surface perpendicular to the thickness direction of the surgical suture 8, and the slotting direction is consistent with the length direction of the wire pressing plate 4; the joint of the line pressing plate 4 and the handle 5 is an inlet of the line passing groove 3, the other end of the handle 5 is an outlet of the flat slot 7, one side surface of the line passing groove 3, which is attached to the operation suture line 8, is coplanar with the attaching surface of the line pressing plate 4, and the other side surface of the line passing groove 3, which is attached to the operation suture line 8, and the inlet slot are positioned on the same side of the attaching surface; a roller 6 for pressing the surgical suture thread 8 is arranged between the thread passing groove 3 and the flat mouth groove 7, and the roller 6 is a single roller or a double roller (the double roller is shown as figure 7) and is fixed on the handle 5; the outer side of the single roller or the double rollers is wrapped with a layer of ductile material; the surface of the ductile material in contact with the surgical suture 8 is provided with protrusions.

The inlet groove, the wire passing groove 3 and the flat opening groove 7 are attached to two sides of the surgical suture line 8 perpendicular to the thickness direction;

the inlet of each inlet groove, the inlet of the wire passing groove 3 and the inlet of the flat-mouth groove 7 are respectively designed with bevel structures; the bevel structure is inclined along the entering direction of the surgical suture at the entrance of each entrance groove, each wire passing groove 3 and each flat-mouth groove 7 so as to increase the distance between the two sides of the entrance groove, the wire passing groove 3 and the flat-mouth groove 7, which are attached to the surgical suture; the inclined angle is reduced along with the increase of the serial number of the inlet groove until the inclined angle of the wire passing groove 3 and the flat-mouth groove 7 is 0-5 degrees; after passing through the bevel structures of the wire passing groove 3 and the flat opening groove 7, the ratio of the distance between the two sides of the wire passing groove 3 and the flat opening groove 7, which are attached to the surgical suture, to the thickness of the band of the surgical suture 8 is 1:1-1.3.

Example 2

A wire arranging tool for surgical suture is aimed at the surgical suture which is a flat wire or a round flat wire and consists of a wire pressing plate and a handle connected with the wire pressing plate;

the line pressing plate 4 is of a strip-shaped structure, one side surface of the strip-shaped structure is a surface which can be attached to one footprint surface of the suture line, the surface is marked as an attaching surface, and an inlet groove for the surgical suture line to pass through is formed in the attaching surface; the entrance groove is a U-shaped structure groove with an opening side surface and is used for inserting or taking out the surgical suture line from the side surface, and the side surface is one surface perpendicular to the thickness direction of the surgical suture line; the U-shaped structure groove is U-shaped in cross section, but two opposite sides of the U-shaped are parallel to each other and are in a straight line or curve (as shown in fig. 5, 6, 8 and 9, fig. 5 and 6 are corresponding plane passing lines, fig. 8 and 9 are cambered surfaces and combined-shaped passing lines), and one of two opposite side surfaces of the U-shaped structure groove is coplanar with the joint surface; the number of the inlet grooves is n, and n is more than or equal to 2; the inlet groove closest to the flat-mouth groove is denoted as an nth inlet groove, the farthest inlet groove is denoted as a first inlet groove, and the second distant inlet groove is denoted as a second inlet groove; the surgical suture line can be sequentially penetrated in a straight line and non-overturning state according to the serial number of the inlet groove.

A flat slot for the surgical suture to pass through is arranged in the handle, and the flat slot and the handle are integrated into a whole; the flat slot is a strip-shaped slot with an open side surface, and is used for inserting or taking out the surgical suture line 8 from the side surface, wherein the side surface is one surface perpendicular to the thickness direction of the surgical suture line 8, and the slotting direction is consistent with the length direction of the line pressing plate; the junction of line ball board and handle is the entry in flat mouthful of groove, and the other end of handle is the export in flat mouthful of groove, and flat mouthful of groove and operation suture line laminating one side with the line ball board the laminating face coplanarity, another side and the entry groove that flat mouthful of groove and operation suture line laminated are located the same side of laminating face.

The inlet groove and the flat groove are attached to two sides of the surgical suture line perpendicular to the thickness direction;

the inlets of the inlet grooves and the inlets of the flat-mouth grooves are respectively designed with bevel structures; the bevel structure is inclined along the entering direction of the surgical suture at the entrance of each entrance groove and each flat groove so as to increase the distance between the entrance groove and the flat groove and the two sides attached to the surgical suture; the inclined angle is reduced along with the increase of the serial number of the inlet groove until the inclined angle of the flat-mouth groove is 0-5 degrees; after the bevel structure of the flat slot, the ratio of the distance between the two sides of the flat slot and the surgical suture to the thickness of the suture tape of the surgical suture is 1:1-1.3.

Example 3

The method for arranging the surgical suture by using the suture arranging tool in the embodiment 1 specifically comprises the following steps: laminating a footprint face of operation suture 8 with the laminating face of line ball board 4, and penetrate each entry groove in proper order, penetrate wire casing 3 along the laminating face of line ball board 4 afterwards, compress tightly the line along the inlet wire direction through gyro wheel 6, promote gyro wheel 6 for operation suture 8 wears out from flat mouthful of groove 7, the arrangement of complete operation suture.

Example 4

The method for arranging the surgical suture by using the suture arranging tool in the embodiment 2 specifically comprises the following steps: one foot print surface of the operation suture line is attached to the attaching surface of the line pressing plate, and sequentially penetrates into each inlet groove, then penetrates into the flat mouth groove along the attaching surface of the line pressing plate, and penetrates out of the flat mouth groove, and the operation suture line is pulled along the direction of outgoing line, so that the operation suture line is finished completely.

Claims (9)

1. A surgical suture management tool, comprising:

an axially extending base member having a substantially planar upper surface, a distal end of said upper surface being covered with a first crimping member, said first crimping member forming a strip-like opening with said upper surface;

a handle is disposed at the proximal end of the base member to deliver the distal end of the base member to a target location.

2. The wire management tool of claim 1, wherein:

the upper surface of the base member is also provided with at least one crimping accessory having substantially the same shape as the first crimping member to crimp the suture smoothly to the upper surface of the base member.

3. The wire management tool of claim 2, wherein:

the distal ends of the first wire pressing member and the upper surface of the base member form a U-shaped structure with a lateral opening.

4. The wire management tool of claim 4, wherein:

the line pressing accessory is consistent with the lateral opening direction of the first line pressing component.

5. The wire management tool of any one of claims 3 or 4, wherein:

the handle is provided with a passage communicating with the upper surface of the base member for passage of the suture thread.

6. The wire management tool of claim 5, further comprising:

a roller assembly is disposed on the handle with a radial surface parallel to the axial direction of the base member and with its outer periphery adjacent the center of the channel for frictionally compressing the suture.

7. The wire management tool of claim 5, wherein:

the lateral sides of the channel communicate with the lateral sides of the handle for lateral loading of the suture from the handle.

8. The wire management tool of claim 5, wherein:

the strip-shaped opening is gradually reduced from far to near along the axial direction.

9. The wire management tool of claim 5, wherein:

the inclination angle of the shrinkage of the strip-shaped opening is larger than zero degrees and not larger than 5 degrees, and the amplitude of the opening at the proximal end of the strip-shaped opening is smaller than the thickness of the suture line.

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