SUTURE MATERIAL DEVELOPED FOR END-TO-END ANASTOMOSIS

Abstract

A suture material to be placed in blood vessels which is developed for end-to-end anastomosis of blood vessels with a lumen in microsurgery in a way to enable end-to-end suturing of blood vessels while at the same time increasing the success of vessel sutures and contributing to keeping the lumen open, wherein the straight wires form the body structure such that a rhombic lattice structure will be obtained, and then the oval wires are passed through the circles positioned at the end portions and knitted by the practitioner.

Claims

1. A suture material to be placed in blood vessels which is developed for end-to-end anastomosis of blood vessels with a lumen in microsurgery in a way to enable end-to-end suturing of blood vessels while at the same time increasing the success of vessel sutures and contributing to keeping the lumen open, characterized in that: straight wires form the body structure such that a rhombic lattice structure will be obtained, and then oval wires are passed through circles positioned at the end portions and knitted by the practitioner.

2. The suture material of claim 1, wherein the material is coated with antithrombotic or antibiotic medicaments.

3. The suture material of claim 1, wherein said straight wires and oval wires are made of metal, metal alloys, polymer or composite material.

4. The operating method of the suture material, characterized in comprising the process steps of: obtaining the suture material as a result of straight wires forming the body structure such that a rhombic lattice structure will be obtained, and then oval wires being passed through circles positioned at the end portions and knitted, placing a intravascular end of the suture material into blood vessels on which end-to-end anastomosis will be performed by way of an applicator or catheter such that it will remain inside the lumen, passing the straight wire which has the closest position to the blood vessel wall at a extravascular end of the suture material, through the circle of the proximate oval wire first, removing the straight wire, which is passed through the circle of the oval wire, by piercing the vessel wall, joining the ends of the blood vessels to be sutured such that their ends will face one another, and suturing together the suture material, which is now placed in both blood vessels, as a result of knotting the straight wires removed out of the blood vessel wall.

Description

FIGURES FOR A BETTER UNDERSTANDING OF THE INVENTION

[0027] FIG. 1: Perspective view of the suture material.

[0028] FIG. 2: Outside-in view of the suture material.

[0029] FIG. 3: Top view of the suture material when placed in the vessel.

[0030] FIG. 4: Detailed view of the suture material when placed in the vessel.

[0031] FIG. 5: Overall view showing the placement of vessels which comprise suture material in a way to one another.

[0032] FIG. 6: Overall view of the vessels the end-to-end anastomosis of which is conducted by means of the suture material.

[0033] The drawings do not necessarily need to be scaled and the details that are not necessary to understand the present invention may have been omitted. Furthermore, the elements which are at least substantially identical or have at least substantially identical functions are indicated with the same numeral.

DESCRIPTION OF PART REFERENCES

[0034] 10. Suture material

[0035] 11. Straight wire

[0036] 12. Oval wire

[0037] 121. Circle

[0038] 20. Blood vessel

[0039] 21. Blood vessel wall

[0040] 22. Lumen

[0041] A. Lattice structure

[0042] D. Knot

[0043] X. Intravascular end

[0044] Y. Extravascular end

DETAILED DESCRIPTION OF THE INVENTION

[0045] In this detailed description, the preferred embodiments of the suture material (10) developed for end-to-end anastomosis of blood vessels (20) with lumen (22) in microsurgery according to the invention will be explained in order for the invention to be better understood, without any limitation.

[0046] FIG. 1 illustrates the perspective view of the suture material (10). In general, the suture material (10) which is placed in blood vessels (20) in order to ensure end-to-end suturing of blood vessels (20) with lumen (22) while at the same time increasing the success of vessel sutures and contributing to keeping the lumen (22) open, is formed such that the straight wires (11) will form the body structure in a way to obtain a rhombic lattice structure (A), and then the oval wires (12) will be passed through the circles (121) positioned at the end portions and knitted by the practitioner.

[0047] The suture material (10) has a cylindrical form and has the appearance of a wire mesh thanks to a plurality of rhombic lattice structures (A) that it contains. Hence, the suture material (10) encloses the blood vessel walls (21) from inside and ensures that the lumen (22) remains hollow. Therefore, the lumen (22) is enabled to remain open.

[0048] In the preferred embodiment of the invention, the suture material (10) may be coated with antithrombotic or antibiotic medicaments.

[0049] At least six straight wires (11) and at least six oval wires (12) are used while forming the suture material (10). The straight wires (11) and oval wires (12) can be made of metal, metal alloys, polymer or composite material.

[0050] The intravascular end (X) of the suture material (10) is the portion which remains inside the vessel (20), i.e. within lumen (22). In the intravascular end (X), the ends of the straight wires (11) and oval wires (12) have a closed structure due to knitting. The extravascular end (Y), on the other hand, consists of straight wires (11) the knitting of which is completed and left in sets of two in a long and respective manner and oval wires (12) which are left in short form such that their circles (121) will be hollow. FIG. 2 shows outside-in view of the suture material (10).

[0051] The Operating Principle of the Suture Material (10) According to the Invention is as Follows:

[0052] The intravascular end (X) of the suture material (10) which is formed as a result of the straight wires (11) forming the body structure in a way to obtain a rhombic lattice structure (A), and then the oval wires (12) being passed through the circles (121) positioned at the end portions and knitted, is placed in the blood vessel (20) on which end-to-end anastomosis is to be performed such that it will remain inside the lumen (22) by means of an applicator or a catheter. The straight wire (11) which has the closest position to the blood vessel wall (21) at the extravascular end (Y) of the suture material (10) is first passed through the circle (121) of the proximate oval wire (12), and immediately thereafter it is taken out by piercing the blood vessel wall (21). The same is also applied to the other blood vessel (20) on which end-to-end anastomosis will be performed. FIG. 3 shows the top view of the suture material (10) when placed in the blood vessel (20) whilst FIG. 4 illustrates the detailed view thereof.

[0053] FIG. 5 shows the overall view showing the placement of blood vessels (20) which comprise suture material (10) in a way to oppose one another. The ends of the blood vessels (20) to be sutured are joined together such that their ends will face one another. The suture material (10), which is now placed in both blood vessels (20), is sutured together as a result of knotting (D) the straight wires (11) removed out of the blood vessel wall (21). FIG. 6 shows the overall view of the blood vessels (20) the end-to-end anastomosis of which is conducted by means of the suture material (10).

[0054] It is envisaged that the suture material (10) according to the invention will result in remarkable improvements in medical field, especially in the area of organ transplantation, as well as contributing to the related field such that success rates of organ transplantation surgeries will be increased. Moreover, it is expected to be widely applied in microsurgery and enable the surgeons to be more confident of themselves and of their surgery.