KR20190012351A - Medical Suture and Producing Method for the Same - Google Patents

Abstract

The present invention relates to a medical suture and a manufacturing method therefor. The medical suture manufacturing method comprises: a first step of winding two raw material sutures, which are bioabsorbable medical polymer composed of one or two selected from polydioxanone, a polylactic acid, and copolymers thereof, to be intersected on a guide rod of a cylindrical shape on which a release agent is coated; a second step of performing thermocompression bonding of the guide rod wound by the two raw material sutures by a molding groove of 150-200°C for 2-10 seconds; a third step of separating the guide rod wound by the raw material sutures from the molding groove, and naturally cooling the same; and a fourth step of separating the raw material sutures from the guide rod. When two hollow sutures are inserted into a human tissue, the present invention prevents lumps of the sutures by maximizing an area touched to the human tissue to uniformly disassemble the sutures in a human body. An uneven surface generated in a process of performing the thermocompression bonding of the two sutures can improve fixed force. A natural lifting effect can be provided since the hollow sutures have excellent flexibility for human body movement, and time and processes for manufacturing the medical suture can be minimized.

Description

Technical Field [0001] The present invention relates to a medical suture,

The present invention relates to a medical suture and a method of manufacturing the same, and more particularly, to a medical suture and a method of manufacturing the suture using the same. To a medical suture used for tissue regeneration, facial elevation, wrinkle forming, etc., and a manufacturing method thereof.

In general, sutures are divided into absorbable sutures and non-absorbable sutures for surgical and cosmetic surgery. Biodegradable sutures, which are absorbable sutures, are sutures which can be decomposed naturally in the human body and have functions such as strength, flexibility, bioabsorbability and biocompatibility Related technologies and products have been actively developed since the mid 1990s. In addition, the demand for biodegradable medical sutures is also rapidly increasing due to the rapid increase in cosmetic surgery. Biodegradable medical sutures include microbial production polymers, synthetic polymers, and natural polymers. In recent years, synthetic polymers such as polyclicolide, poly (lactide), and polygrapholactone have been increasingly used.

Korean Utility Model Publication No. 20-2017-0001288 discloses a surgical suture having a structure in which a plurality of spiral units are twisted by twisting the two strands of the thread. The suture is inserted into the skin and pulled, , It is inserted into the cylindrical rear part of the syringe and comes out of the hole of the syringe and has a spring effect and a spontaneous effect. However, since the suture is cut and inserted into the needle at the folded position in half, the production time and efficiency are deteriorated, There is a problem that the suture wound with the spiral is moved in a fluid manner and the fixing force is lowered.

In addition, the suture disclosed in Korean Utility Model Registration No. 20-0468362 is also wound on the outer side of the suture so as to form a spiral, but when inserted into the skin tissue, the strength of the nose cut through the laser cutter is lowered, And the production time and efficiency are degraded.

Korean Utility Model Publication No. 20-2017-0001288 (Apr. 13, 2013) Korean Utility Model Registration No. 20-0468362 (2013.08.01)

In order to solve the above-mentioned problems, in the present invention, when two sutures cross each other and are thermocompression-bonded to each other to maximize the contact area of the suture to the human tissue when inserting into the tissue of the human body, A medical suture in which a skin tissue is fixed, a physical stimulation is easily caused according to a movement, and a hollow suture is fixed to skin tissue in a flexible manner, and a method of manufacturing the same.

A method for manufacturing a medical suture includes: a first step of winding two raw material sutures crossing each other in a cylindrical guide rod coated with a release agent, and a second step of winding a guide rod, And a fourth step of separating the guide rod from which the raw material suture is wound and separating the guide rod and the sutured raw material suture from each other in a second step of thermocompression for 2 to 10 seconds .

In another aspect of the present invention, the temperature of the mold cavity is in a range of 150 ° C to 200 ° C, and the raw material suture material is a bioabsorbable medical material comprising one or two selected from polydioxanone, polylactic acid, It is a medical suture made of polymer.

As described above, the medical suture according to the present invention and the method for manufacturing the suture do not require a cutting step, so that the time and the time required for manufacturing a medical suture are minimized, and two hollow sutures, It is possible to prevent the suture from being clumped in the living body and to improve the fixation force by the uneven surface created by the thermal compression process of the two sutures, and the hollow suture is excellent in the flexibility for the biological movement There is a natural lifting effect.

1 is a side view of a conventional medical suture;
2 is a front view and a top view of a medical suture according to the present invention, respectively.
3 is a conceptual view of a method for manufacturing a medical suture according to the present invention.
4 is a conceptual view of a method of manufacturing a medical suture according to the present invention.
5 is a flowchart of a method of manufacturing a medical suture according to the present invention.

A method of manufacturing a medical suture. A first step S10 of winding the two raw material suture yarns 20 to each other in a cylindrical guide rod 10 coated with a release agent and a first step S10 of winding the two guide rods 10 wound with the raw material suture 20 into a mold groove A third step S30 for separating the guide rod 10 wrapped by the suture material 20 from the metal mold 30 and cooling the same, And a fourth step (S40) of separating the suture material (10) and the suture material (20) squeezed from the suture material (10).

FIG. 2 is a front view and a top view of a medical suture according to the present invention. Referring to FIG. 2, detailed components of the present invention will be described as follows. The raw material suture 20 of the cylindrical medical suture is made of a bioabsorbable medical polymer composed of one or two selected from polydioxanone, polylactic acid and a copolymer thereof, and its cross section is a hollow circular shape .

In addition, it is possible to apply a material capable of being injected into a suture that can be naturally decomposed in a known human body.

In the case of two different bioabsorbable medical polymers, the bioabsorbable medical polymers may have different effects of immediate lifting and volume depending on the characteristics of the respective bioabsorbable medical polymers, differences in the sustaining force depending on the decomposition rate, and differences in collagen production.

In addition, the medical suture manufactured by the above-described method can be produced only by the injection process through the mold without the cutting process, thereby minimizing the time and process time required for manufacturing the medical suture.

FIGS. 3 and 4 are conceptual views of a method of manufacturing a medical suture according to the present invention, and FIG. 5 is a flowchart of a method of manufacturing a medical suture according to the present invention. Other details of the present invention will now be described with reference to the drawings.

The guide rods 10 wound with the two suture raw materials 20 are inserted into the mold grooves 31 heated to a temperature of 150 to 200 DEG C which is a temperature condition below the melting point of the bioabsorbable medical polymer and equal to or higher than the glass transition temperature When the suture 20 is thermocompression-bonded for 2 to 10 seconds, the two raw material suture materials 20 wrapped around each other are squeezed in a state of being adhered to each other, and a hollow cylindrical medical suture is formed in which the raw material suture 20 is formed as a mesh.

In this case, the uneven surface formed as the mesh serves as a hindrance to the body tissue, thereby enhancing the fixation force to the body tissue, and when inserted into the human tissue, the contact area with the body tissue And it has an effect of preventing the suturing of the suture by decomposing evenly in the living body.

In addition, the medical suture manufactured as described above has an appropriate strength and maximized flexibility for the skin tissue due to the hollow shape, and therefore has excellent flexibility with respect to the biological movement, and thus has a natural lifting and volume effect without being artificial.

Although the present invention has been shown and described with respect to specific embodiments and applications thereof, it will be understood by those skilled in the art that various changes and modifications may be made without departing from the spirit and scope of the invention as defined by the appended claims. Anyone with knowledge will know easily.

10. Guide rods 20. Raw material sutures
30. Mold 31. Mold Home
S10. First step S20. Step 2
S30. Third step S40. Step 4

Claims (4)

A method of manufacturing a medical suture.
A first step (S10) of winding two raw material suture yarns (20) crossing each other on a cylindrical guide rod (10) coated with a release agent;
A second step (S20) of thermocompression bonding the guide rod 10 wound with the two raw material suture yarns 20 by the mold 30;
A third step (S30) of separating the guide rod 10 wound with the raw material suture 20 from the mold 30 and then naturally cooling the guide rod 10;
And a fourth step (S40) of separating the guide rod (10) and the squeezed raw material suture (20) from each other. The method according to claim 1,
Wherein the temperature of the groove of the mold (31) is 150 ° C to 200 ° C. The method according to claim 1,
Wherein the thermocompression bonding is performed for 2 to 10 seconds by the mold groove (31) in the second step (S20). A medical suture manufactured by the method for manufacturing a medical suture of any one of claims 1 to 3,
Wherein the raw material suture 20 is a bioabsorbable medical polymer composed of one or two selected from polydioxanone, polylactic acid, and a copolymer thereof.

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