阅读说明：本技术 一种免打结可吸收医用缝合线及非闭环缝合结构 (Knot-free absorbable medical suture and non-closed loop suture structure ) 是由 富灵杰 王宁 郝永强 于 2021-09-15 设计创作，主要内容包括：本发明涉及医疗器械及材料领域,特别是涉及一种免打结可吸收医用缝合线及非闭环缝合结构,所述医用缝合线包括线体,所述线体一端设有固定尾,另一端用于连接缝合针,所述线体上均布若干倒刺,所述倒刺的头部朝向均与线体的行针方向相反所述医用缝合线为改良的带有倒刺的可吸收缝合线,在原有倒刺缝合线的基础上安装了固定尾,可代替线结将缝合线一端固定于表皮,既保证了切口闭合的强度,又避免了打结,缩短了切口缝合时间,此缝合线有望广泛应用于临床。(The invention relates to the field of medical instruments and materials, in particular to a knotting-free absorbable medical suture line and a non-closed loop suture structure.)

1. The utility model provides a medical suture line, its characterized in that, medical suture line includes the line body (1), line body (1) one end is equipped with fixed tail (2), and the other end is used for connecting suture needle (3), a plurality of barbs (4) of equipartition on the line body (1), the head orientation of barb (4) all with the line needle direction of needle of line body (1) opposite.

2. The medical suture according to claim 1, characterized in that said wire body (1) is an absorbable suture.

3. The medical suture of claim 2, wherein said absorbable suture is selected from the group consisting of catgut, a polymer chemical synthetic thread, and a pure natural collagen suture.

4. The medical suture of claim 3, wherein the polymer chemical synthetic thread is made of one or more selected from PGA, poly glycol carbonic acid, Polyglactin 910, poly lactic glycolic acid, poly-p-dioxanone, and PVA.

5. The medical suture according to claim 1, characterized in that said wire body (1) is single-stranded or multi-stranded.

6. The medical suture as claimed in claim 1, characterized in that the fixing tails (2) are selected from fixing tabs, fixing strips or fixing rings.

7. The medical suture as claimed in claim 1, characterized in that the fixing tail (2) is a circular piece.

8. The medical suture as claimed in claim 1, characterized in that the anchoring tail (2) is connected to the wire body (1) by means of heat fusion, heat extrusion or knotting.

9. The medical suture according to claim 1, characterized in that said barbs (4) are of unitary structure with the wire body (1) and/or in that said barbs (4) are arranged spirally or staggered on the wire body (1).

10. A non-closed loop suture structure, characterized in that the non-closed loop suture structure comprises the medical suture line as claimed in any one of claims 1 to 9, the line body (1) is formed with a suture section (11), a first suture section (12), a backstitch section (13), a second suture section (14), and a suture section (15), the fixed tail (2) is arranged at a free end of the suture section (11), the suture section (11) extends in a direction perpendicular to the fixed tail (2), the first suture section (12) extends in a plane parallel to the fixed tail (2) and forms a suture surface with the backstitch section (13) and the second suture section (14) in a surrounding manner, the suture section (15) extends in a direction opposite to the extending direction of the suture section (11), and the suture section (15) extends to the plane of the fixed tail (2).

Technical Field

The invention relates to the field of medical instruments and materials, in particular to a knotting-free absorbable medical suture and a non-closed loop suture structure.

Background

Lumbar Spinal Stenosis (LSS) refers to a disease with a series of clinical symptoms, such as a narrowing of the gap around the neurovascular structure of lumbar vertebrae, leg and back pain caused by stimulation or compression of nerve roots and cauda equina, and walking disorder, which are caused by degenerative changes of lumbar vertebrae and peripheral soft tissues due to various reasons. Lumbar spinal stenosis is common to people over 50 years old, and patients with severe lumbar spinal stenosis in multiple segments (not less than 3) often need surgical treatment. Lumbar surgery is different from other surgeries such as knee joint open surgery, and because vertebral plate decompression needs to be carried out on a plurality of lumbar vertebra segments, an incision is usually larger than 10cm, the surgery time is long, blood supply of skin and muscles around the incision can be affected, the incision is difficult to heal after the surgery, early rehabilitation after severe lumbar spinal stenosis surgery is affected, and even more, the surgery of multi-segment severe lumbar spinal stenosis is affected. Therefore, how to improve the postoperative incision healing is a hot spot and difficulty for clinically treating the multi-segment severe lumbar spinal stenosis.

The choice of the way the incision is sutured after surgery is a key factor affecting the healing of the incision. The use of a horizontal continuous suture does not provide a good guarantee of closure strength and if the patient moves early there may be suture breakage and varying degrees of incision dehiscence. The most common form of suturing in the clinic today is the traditional vertical mattress suture, which provides adequate closure strength and balanced incision tension distribution. However, excessive pulling of the suture during knotting can cause the skin edges of the incision to turn outwards, which affects the blood supply around the incision, causes ischemic necrosis of the local skin and scar generation, and is not good for healing of the incision and beautifying of the wound. Therefore, how to select the suture mode to facilitate the healing of the incision becomes a problem to be solved by the clinician. The Allgower-Donati suturing technique is an improved suturing technique based on vertical mattress suturing, wherein a needle is vertically inserted from one side of an incision during suturing, and a suture is fixed under the skin of the opposite side, so that the blood perfusion at one side of the incision is improved. Researchers have demonstrated in animal models that the Allgower-Donati suture method has less effect on wound blood supply at equivalent tension relative to vertical mattress sutures. Clinical studies have shown that the Allgower-Donati suture is more favorable for maintaining blood perfusion of the skin at the incision as compared to the vertical mattress suture, as shown by the postoperative angiographic results. However, the Allgower-Donati suture requires a knot to be tied to one side of the incision, and excessive traction still affects blood supply to one side of the incision, so that the healing of the incision for a multi-stage severe lumbar spinal stenosis operation may still not be as good as desired. In addition, both the vertical mattress and Allgower-Donati sutures use non-absorbable silk threads, the stitches can lead to ischemia or inflammatory reactions in the tissues, and extensive scarring may occur after the stitches are removed.

Therefore, at present, the urgent need is to develop a suture mode that can satisfy incision closed strength and the local blood circulation of incision simultaneously to and exempt from the stylolite of knoing, with the influence that furthest reduces incision blood supply after the lumbar vertebrae operation, and reduce postoperative scar formation, in order to satisfy the demand of modern patient in the pleasing to the eye aspect of skin healing.

Disclosure of Invention

In view of the above-mentioned drawbacks of the prior art, it is an object of the present invention to provide a medical suture and a non-closed loop suture structure for solving the problems of the prior art.

In order to achieve the above objects and other related objects, the present invention provides a medical suture comprising a thread body, wherein one end of the thread body is provided with a fixing tail, the other end of the thread body is used for connecting a suture needle, a plurality of barbs are uniformly distributed on the thread body, and the heads of the barbs face in a direction opposite to the needle moving direction of the thread body.

Preferably, the wire body is an absorbable suture.

Preferably, the absorbable suture is selected from the group consisting of catgut, polymer chemical synthetic suture, and pure natural collagen suture.

Preferably, the wire body may be single-stranded or multi-stranded.

Preferably, the anchoring tail is selected from the group consisting of an anchor tab, an anchor strip, an anchor ring, or other shape that prevents removal during suturing.

Preferably, the barbs are arranged on the wire body in a spiral or staggered manner.

The invention also provides a non-closed loop suture structure which comprises the medical suture line, wherein a suture section, a first suture section, a backstitch section, a second suture section and a suture section are formed on the line body, the fixed tail is arranged at the free end of the suture section, the suture section extends in the direction vertical to the fixed tail, the first suture section extends in the plane parallel to the fixed tail and forms a suture surface with the backstitch section and the second suture section in a surrounding mode, the suture section extends in the direction opposite to the extending direction of the suture section, and the suture section extends to the plane of the fixed tail.

As described above, the medical suture and the non-closed loop suture structure according to the present invention have the following advantageous effects: the medical suture is an improved absorbable suture with barbs, the fixing tail is installed on the basis of the original barbed suture, one end of the suture can be fixed on the skin instead of a knot, the closed strength of an incision is guaranteed, the suture time of the incision is shortened, and the suture is expected to be widely applied to clinic.

The blood supply of the two sides of the incision of the non-closed loop suture structure can not be affected by the thread knots, the incision healing of patients after lumbar spinal stenosis operation is facilitated, the incision healing time and the operation time are shortened, the scar tissue formation is reduced, the postoperative rehabilitation of the patients is facilitated, the hospitalization time is shortened, and the suture mode is superior to the traditional suture mode in terms of clinical curative effect or the attractive angle of the postoperative incision.

Drawings

Fig. 1 is a schematic view of a medical suture of the present invention.

Fig. 2 is a schematic view showing a suture structure formed by the medical suture of the present invention.

Description of the element reference numerals

1 line body

11 sewing-in section

12 first suture section

13 backstitch section

14 second suture section

15 sewing out the section

2 fixed tail

3 suture needle

4 barbs

Detailed Description

The following description of the embodiments of the present invention is provided for illustrative purposes, and other advantages and effects of the present invention will become apparent to those skilled in the art from the present disclosure.

Please refer to fig. 1-2. It should be understood that the structures, ratios, sizes, and the like shown in the drawings and described in the specification are only used for matching with the disclosure of the specification, so as to be understood and read by those skilled in the art, and are not used to limit the conditions under which the present invention can be implemented, so that the present invention has no technical significance, and any structural modification, ratio relationship change, or size adjustment should still fall within the scope of the present invention without affecting the efficacy and the achievable purpose of the present invention. In addition, the terms "upper", "lower", "left", "right", "middle" and "one" used in the present specification are for clarity of description, and are not intended to limit the scope of the present invention, and the relative relationship between the terms and the terms is not to be construed as a scope of the present invention.

As shown in fig. 1, the invention provides a medical suture, which comprises a thread body 1, wherein one end of the thread body 1 is provided with a fixing tail 2, the other end of the thread body is used for connecting a suture needle 3, a plurality of barbs 4 are uniformly distributed on the thread body 1, and the head directions of the barbs 4 are opposite to the needle moving direction of the thread body 1.

In one embodiment, the wire body 1 is an absorbable suture. The absorbable suture can be absorbed by human body under the action of hydrolysis. As long as the absorbable suture line ensures good healing of the wound and provides support for a sufficiently long period of time during normal absorption. The fixing tail 2 is removed after the wound is healed, the line body 1 can be automatically absorbed, and the formed scar is obviously less than that of the traditional suture mode.

The absorbable suture is selected from catgut, high molecular chemical synthetic suture and pure natural collagen suture. The material of the polymer chemical synthetic thread is selected from PGA (polyglycolide), poly glycol carbonic acid, Polyglactin 910, poly lactic acid glycolic acid, PDS (poly-p-dioxanone) or PVA.

The different materials may be absorbable to different degrees, and the selection of suitable materials may be made according to the nature of the sutured tissue.

The wire body 1 may be single-stranded or multi-stranded.

The length of the wire body 1 can be customized according to the clinical operation requirement. Generally, the length of the wire body 1 is 45cm to 90 cm.

The medical suture line of this application can be exempted from to tie a knot to the setting of fixed tail 2. The fixing tail 2 can fix one end of the medical suture line on the surface of the skin without knotting, so that blood supply on both sides of the operation incision is not influenced by suturing.

The fixing tail 2 is selected from a fixing sheet, a fixing strip, a fixing ring or other shapes for preventing falling off during sewing.

In one embodiment, the fixation tail 2 is a circular piece. The circular sheet can be provided with a through hole. The through hole is used for the line body to pass through so as to connect the line body 1 with the fixing tail 2.

The fixing tail 2 can be connected with the wire body 1 in a hot melting, hot extrusion or knotting mode.

The material of the fixation tail 2 is selected from materials with good biocompatibility.

In one embodiment, the barbs 4 are integral with the wire body 1.

In one embodiment, the barbs 4 are arranged in a spiral or staggered arrangement on the wire body 1.

The arrangement density of the barbs 4 is not particularly limited as long as the sliding of the thread body 1 in the sewing direction is prevented during the sewing process. For example, the number of the barbs 4 on each inch of the wire body 1 is 10-25. The tail parts of the barbs are equally or unequally spaced.

The head of the barb is the part far away from the wire body 1. The tail part of the barb refers to the part which is contacted with the wire body 1.

In one embodiment, the depth of the barbs 4 is not particularly limited, such as 15% to 35% deep into the inner core of the wire body 1.

The angle of the barbs 4 is not particularly limited, and is, for example, 10 ° to 30 °.

The medical suture line is used for Allgower-Donati suture or vertical mattress suture.

As shown in fig. 2, the present application further provides a non-closed loop suture structure, where the non-closed loop suture structure includes the medical suture, the medical suture includes a wire body 1, the wire body 1 includes a suture section 11, a first suture section 12, a back suture section 13, a second suture section 14, and a suture section 15, a fixed tail 2 is disposed at a free end of the suture section 11, the suture section 11 extends in a direction perpendicular to the fixed tail 2, the first suture section 12 extends in a plane parallel to the fixed tail 2, and forms a suture plane by enclosing with the back suture section 13 and the second suture section 14, the suture section 15 extends in a direction opposite to an extending direction of the suture section 11, and the suture section 15 extends to the plane of the fixed tail 2.

The suture face is substantially parallel to the plane of the fixation tail 2.

Taking the Allgower-Donati suture method as an example, the application method of the medical suture and the forming method of the non-closed loop suture structure are specifically as follows:

on one side (for example, the left side in fig. 2) of an incision (namely, a V-shaped opening in fig. 2) of a tissue to be sutured, a suture needle 3 of a medical suture is inserted into a needle perpendicular to the tissue to be sutured, the suture needle drives a line body 1 to extend towards the interior of the tissue to be sutured after the needle is inserted, the needle moving direction of the suture needle is changed after the suture needle extends to a proper depth according to the incision condition, the needle moving direction continues to extend towards the incision, the suture needle 3 can drive the line body 1 to pass through the incision to the other side (for example, the right side in fig. 2), the needle returning is determined according to the incision condition and starts to extend to the position, so that the suture needle can continue to move from the tissue on the side (the right side) of the incision to the tissue on the opposite side (the left side), the depth of the suture needle is kept unchanged during the needle returning, the suture needle 3 can drive the line body 1 to pass through the incision again to the tissue on the opposite side of the incision, the incision after the suture needle moving direction is changed again after the suture needle is moved to a certain distance from the incision, so that the suture needle 3 drives the thread body 1 to penetrate out of the tissue to be sutured. The closed incision of taut medical suture slightly hard, fixed tail 2 hugs closely simultaneously and treats the suture tissue surface, confirms suitable elasticity after, thereby each barb 4 can grasp treat suture tissue and prevent that line body 1 from sliding, and 1 one end of line body is fixed through fixed tail 1, and the other end and whole line body are all fixed through the barb, so final suture structure who forms is the non-closed loop suture structure of exempting from to tie a knot. After the incision is healed, the fixed tail is only cut off without removing stitches.

In conclusion, the barb structure of the medical suture line ensures the closing strength of the incision, the fixing tail can be used as an anchoring point to fix one end of the suture line on the surface of the skin to replace the original knot, the suture is not required to be removed after the incision is healed, and a patient can automatically cut off the fixing tail.

The foregoing embodiments are merely illustrative of the principles and utilities of the present invention and are not intended to limit the invention. Any person skilled in the art can modify or change the above-mentioned embodiments without departing from the spirit and scope of the present invention. Accordingly, it is intended that all equivalent modifications or changes which can be made by those skilled in the art without departing from the spirit and technical spirit of the present invention be covered by the claims of the present invention.