WO2014061968A1 - Apparatus and method for processing surface of in vivo insertion member, said in vivo insertion member, and injection apparatus for injecting said in vivo insertion member - Google Patents

Apparatus and method for processing surface of in vivo insertion member, said in vivo insertion member, and injection apparatus for injecting said in vivo insertion member Download PDF

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Publication number
WO2014061968A1
WO2014061968A1 PCT/KR2013/009204 KR2013009204W WO2014061968A1 WO 2014061968 A1 WO2014061968 A1 WO 2014061968A1 KR 2013009204 W KR2013009204 W KR 2013009204W WO 2014061968 A1 WO2014061968 A1 WO 2014061968A1
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WO
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Prior art keywords
member
living body
insertion member
insertion
surface
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PCT/KR2013/009204
Other languages
French (fr)
Korean (ko)
Inventor
박민재
Original Assignee
Park Min Jae
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    • AHUMAN NECESSITIES
    • A61MEDICAL OR VETERINARY SCIENCE; HYGIENE
    • A61BDIAGNOSIS; SURGERY; IDENTIFICATION
    • A61B17/00Surgical instruments, devices or methods, e.g. tourniquets
    • A61B17/04Surgical instruments, devices or methods, e.g. tourniquets for suturing wounds; Holders or packages for needles or suture materials
    • A61B17/06Needles ; Sutures; Needle-suture combinations; Holders or packages for needles or suture materials
    • A61B17/06166Sutures
    • AHUMAN NECESSITIES
    • A61MEDICAL OR VETERINARY SCIENCE; HYGIENE
    • A61BDIAGNOSIS; SURGERY; IDENTIFICATION
    • A61B17/00Surgical instruments, devices or methods, e.g. tourniquets
    • A61B17/04Surgical instruments, devices or methods, e.g. tourniquets for suturing wounds; Holders or packages for needles or suture materials
    • A61B17/0469Suturing instruments for use in minimally invasive surgery, e.g. endoscopic surgery
    • AHUMAN NECESSITIES
    • A61MEDICAL OR VETERINARY SCIENCE; HYGIENE
    • A61BDIAGNOSIS; SURGERY; IDENTIFICATION
    • A61B17/00Surgical instruments, devices or methods, e.g. tourniquets
    • A61B2017/00526Methods of manufacturing
    • AHUMAN NECESSITIES
    • A61MEDICAL OR VETERINARY SCIENCE; HYGIENE
    • A61BDIAGNOSIS; SURGERY; IDENTIFICATION
    • A61B17/00Surgical instruments, devices or methods, e.g. tourniquets
    • A61B2017/00743Type of operation; Specification of treatment sites
    • A61B2017/00792Plastic surgery
    • AHUMAN NECESSITIES
    • A61MEDICAL OR VETERINARY SCIENCE; HYGIENE
    • A61BDIAGNOSIS; SURGERY; IDENTIFICATION
    • A61B17/00Surgical instruments, devices or methods, e.g. tourniquets
    • A61B17/04Surgical instruments, devices or methods, e.g. tourniquets for suturing wounds; Holders or packages for needles or suture materials
    • A61B17/06Needles ; Sutures; Needle-suture combinations; Holders or packages for needles or suture materials
    • A61B2017/06052Needle-suture combinations in which a suture is extending inside a hollow tubular needle, e.g. over the entire length of the needle
    • AHUMAN NECESSITIES
    • A61MEDICAL OR VETERINARY SCIENCE; HYGIENE
    • A61BDIAGNOSIS; SURGERY; IDENTIFICATION
    • A61B17/00Surgical instruments, devices or methods, e.g. tourniquets
    • A61B17/04Surgical instruments, devices or methods, e.g. tourniquets for suturing wounds; Holders or packages for needles or suture materials
    • A61B17/06Needles ; Sutures; Needle-suture combinations; Holders or packages for needles or suture materials
    • A61B17/06166Sutures
    • A61B2017/06176Sutures with protrusions, e.g. barbs
    • AHUMAN NECESSITIES
    • A61MEDICAL OR VETERINARY SCIENCE; HYGIENE
    • A61FFILTERS IMPLANTABLE INTO BLOOD VESSELS; PROSTHESES; DEVICES PROVIDING PATENCY TO, OR PREVENTING COLLAPSING OF, TUBULAR STRUCTURES OF THE BODY, E.G. STENTS; ORTHOPAEDIC, NURSING OR CONTRACEPTIVE DEVICES; FOMENTATION; TREATMENT OR PROTECTION OF EYES OR EARS; BANDAGES, DRESSINGS OR ABSORBENT PADS; FIRST-AID KITS
    • A61F2/00Filters implantable into blood vessels; Prostheses, i.e. artificial substitutes or replacements for parts of the body; Appliances for connecting them with the body; Devices providing patency to, or preventing collapsing of, tubular structures of the body, e.g. stents
    • A61F2/0059Cosmetic or alloplastic implants

Abstract

The present invention relates to an apparatus and method for processing the surface of an in vivo insertion member, to said in vivo insertion member, and to an injection apparatus for injecting said in vivo insertion member into a living body, and more particularly, to an apparatus and method capable of processing the surface of a living body insertion member in order to form a protrusion having a certain shape on the surface of the in vivo insertion member using a wire, and to an in vivo insertion member manufactured using same. Also, the present invention relates to an in vivo insertion member which is injected into the soft tissue of a living body and continuously keeps the tissue in an extended state, and to an injection apparatus for injecting said in vivo insertion member into the living body. The present invention may be variously applied to plastic surgery, dermatological surgery, cosmetic surgery, and general surgery.

Description

Surface processing apparatus and method of a living body for the insertion member, the insertion member and the injection mechanism for biological implantation in vivo for this

The present invention relates to an injection device for injecting into a living body inserted into the surface processing device and method of the member, a member for inserting in vivo and this biometric. More specifically, the present invention using the wire on the surface processing device and method and a member for a living body insert manufactured by using this in vivo insertion vivo insertion member with a specific shape of the projections on the surface of the member to be processed so as to form for will be. In another aspect, the present invention is a screw or a spiral protrusion on the surface of a member made of yarn-shaped or cylindrical; And it relates to an injection device that is implanted in the living body soft tissue injection member for continuously maintaining a state that can be inserted in vivo by extending the tissue and this, in the living body by providing a groove or lands and the tooth structure that is formed in the protruding portion. The present invention can be used for various applications in the cosmetic, dermatological surgery, cosmetic surgery, and general surgery.

As modern medicine advances, with the help of medical and he holds a part of the body forming the kind of confidence or a rapid cosmetic sector to make me feel satisfied with themselves evolve.

In particular, co-located at the center of the face from the part of the body, because it influences the first impression, nose to increase the nose can be said that a typical field in the cosmetic. In this case, the (e. G., Using a silicone implant or a Gore-Tex, self cartilage, self-fat, etc.) various methods used to naturally increase or molding the nose.

Among them, the silicone implants put in a sassy way to fill gamyeo surgery the ear cartilage and nose bone obtained from the patient's body, most commonly on the nose is a reliable surgical procedure with little reported side effects bars.

However, self disadvantages method of using the tissue is relatively a variety of benefits, but one must accept that it should proceed with a separate operation in accordance with to collect his body parts, and not the physical properties and absorption rate is not uniformly predict exist.

Moreover, if the cartilage harvested after insufficient surgery is approximately 5 years pass, the two molded nose shape deformation (because the cartilage can be easily moved and the room who fixed the cartilage loose cartilage positions may fluctuate so) repeatedly since a lot of cases that are reported to have carried out a revision can not be called ideal molding method. In addition, it is more a hindrance to daily life after surgery swelling occurs much treatment period is a minimum of one week soyodoem there are shortcomings there are many restrictions on its use.

In order to solve this problem for existing methods of rhinoplasty is the situation in the various rhinoplasty methods or tools are being invented and developed. In particular, the Patent No. 10-0761921 call (title of the invention: a tool for insertion in the living room and inserting it in vivo for use in the anti-pressure multi-fiber adhesion suture method for the living body soft tissue lengthening) the chamber for inserting the biometric for rhinoplasty It discloses a.

1 is a view showing a state in the chamber for inserting the biometric for conventional rhinoplasty.

1, the Patent Registration No. 10-0761921 discloses a human body inserted into chamber 10 for a projection having a direction that is used for the purpose of extending a portion of a human body is formed, the projections 12 of the wedge-shaped split from the real axis made of a wing (12b) and groove (12a), the projection (12) is composed of two sections (10A, 10B) which include another tapered end direction in which the blade is the opposite with respect to a reference point (P) on the real axis is inserted into the living body by the needles, when extended by pulling on the tissue in the living body inserted in vivo that the projection is increasingly the tissue without interfering with them, removing the pulling force projection configured to resist back bunched delayed and the power by the tissue elasticity discloses a seal for use in the living body insert, wherein a multi-fiber adhesion pressure sealing method for soft tissue lengthening.

For these in vivo insertion chamber for the suture structure was existing the presence of: using (a structure with a protrusion in the amount of the yarn direction, US publication No. 2005/0267532 No. (Name of the invention disclosed in Surgical thread)), this was used in the anti-multi-fiber adhesion apbap suture method for the living body soft tissue lengthening it is meaningful in this regard.

However, in the case of using the living body for insertion chamber described in the Patent Registration No. 10-0761921 call to the actual nose, since the two sets of projections to be operated in the other direction in the one present in the chamber the direction of the projections vary the initial biometric and this is not easy to inject the problem, since the living body insertion room for itself composed of a suture into a structure, despite the two-way projection exists and bearing capacity is very weak, and the disadvantage, the protrusion of the wedge-shaped on the surface of the chamber because this because smaller contact surface area that substantially does not resist the force trying again bunched delayed and by the tissue elasticity, pointed structure itself and the opposite ends of the chamber conditions after the treatment room in nose to more than about 40% of patients with the living body tissue there are problems that have serious side effects occur it emerges out. As a result of patient satisfaction with them, as well as the treatment itself with biological chamber for insertion it becomes very difficult for even experts doubt the disadvantage of very inferior.

In addition, however, in order to manufacture the living body for insertion chamber described in the Patent Registration No. 10-0761921 call by hand because it must be cut in the wings with the protrusions made of a groove having a thickness, length, and degree of protrusion of the wing and the groove is not constant If the problem is, and has the disadvantage that it can produce a yarn for a large number of living body inserted in a short time, the thickness and length of the wing and the groove does not schedule a procedure to nose is procedure results a disadvantage does seureopji existed satisfied .

Thus, the inventors have formed, a screw (screw) or projections and the projection of the spiral on the surface of a member made of yarn-shaped or cylindrical in order to solve the various problems occurring in the course of practice of using the chamber for the above-mentioned bio-insertion tooth groove or by providing a concave-convex structure section, leading to a living body it is injected into the soft tissue to the invention injection mechanism to the state introduced into the member, and this living body for insertion in vivo to more effectively maintained by extending the tissue. In addition, the present inventors to solve the manufacturing problems of the chamber for the above-mentioned living body insert, it is possible to use a wire to machine a particular shape of the projections on the surface of the living body insertion member so as to form a constant, whereby the manufacturing time and the procedure of the surface of the living body insertion member which can improve the satisfaction processing apparatus and method and leading to the invention of this member for a living body inserted prepared using.

The present invention is conceived to solve the above problems, an object of the present invention, since the surface of the member made of yarn-shaped or cylindrical provide a projection of the screw or spiral, and more easily in vivo insert that can be implanted in the living body to provide a member.

It is another object of the present invention is not carried out with a simple suture itself consists of a cover various alloys or silicon material to provide a member for inserting in vivo can be further improved bearing capacity in the living body tissue.

It is another object of the present invention, by further providing a screw or toothed groove or lands unit structure to the projection of the spiral increases the contact surface area of ​​the biological tissue substantially against the forces trying again bunched delayed and by the tissue elasticity thereby to to provide a living body insertion member that can be more effectively maintained in a state of extending the tissue.

In addition, by object of the present invention, one end or both ends of the member for a living body insert provides a rough surface, such as concave and convex portions, projecting portions, the bent portion in its cross-section and provide a structure to preclude where the maximum pressure concentration, the procedure after the member is to avoid problems in the nose protrudes to provide a member for biological inserted.

It is also an object of the present invention to provide an injection device for injecting into the can to perform a more easily by using the member for the above-mentioned bio-insertion procedures, and members for living body inserted to improve patient satisfaction by it, and this in vivo .

Further object of the present invention, using a wire to provide a surface processing apparatus and method to which the particular form of the projection can be processed to form a constant on the surface of the living body insertion member. In particular, by automating the surface processing step by using a wire-cut to provide a plurality of surface working apparatus which can be inserted in vivo processed more quickly and accurately to the surface of the member for the method.

It is another object of the present invention, by designing the cutting angle of the wire (direction), so as to adjust the cutting length and the depth of cut, according to the procedure type used for extrusion angle, thickness and length of the projection formed on the member for a living body inserted to provide an easily controlled, and surface processing apparatus and method capable of producing.

It is another object of the present invention is to provide a living body insertion member is formed to fit the user's intended shape of the projections by using a method with the above described surface processing device (that is, the projecting angle of the protrusion, thickness, and length, etc.). In particular, to provide a living body insertion member which can be effectively used for the extension and maintenance of living body soft tissue in cosmetic surgery or cosmetic surgery.

The present invention, the invention is part vivo insertion member for supplying the living body insertion member for providing possible biological insert member for continuously recovering relates to a surface processing apparatus of the living body member for insertion; At least one support for supporting the member between the supply and the recovery unit; Wire module for cutting a portion of the surface of the member so as to form a certain type of projection to a surface of the member; And is provided to at least any one of between the supply and the support and between the support and the stripping section, the at least one rotating member for rotating the member, it characterized in that it comprises a.

Preferably, the module wire, a wire which is located in the vertical direction on the side of the cutting member to a portion of the surface of the member; It characterized in that it further comprises; and the wire center of the axis of the X-axis and Y-axis wire moving means capable of moving in the direction of the wire.

Preferably, the at least one support portion, and the said member characterized in that for moving in a longitudinal direction of the member.

Preferably, the at least one support portion may be a roller.

Preferably, the at least one rotating member is characterized in that that in the circumferential direction of the member rotates the member in the 360 ​​° range.

Preferably, the surface processing device of the body insertion member, the rotation of the member according to the direction of movement of the wire, the moving speed and the at least one rotary member of said member by said at least one support part by the wire moving means It characterized in that it further comprises a control unit for controlling any one or more of the extent.

The invention also relates to a method of processing the surface of a living body for the insertion member by using a surface processing apparatus of the member for the above-mentioned living body insertion.

More specifically, the present invention, a) the step of using continuously the member for in vivo insertion or intermittent continuous bio-compatible insert member supply unit and the living body portion for the insertion member for providing a number-mounted member; b) a step of cutting a portion of the surface of said member to form a certain type of projection on the surface of said member using a wire module; c) rotating the member by using at least one rotating member; Characterized in that it comprises a; and d) forming a certain type of projection to a surface of the member by cutting a portion of the surface of said member is not cut by the wire module.

Preferably, (e) moving the member by using the support portion; characterized by further comprising: a.

Preferably, in step b) and step d), the wire module to move the wire and the wire which is located in the vertical direction on the side of the member in the X-axis and Y-axis direction based on a central axis of the wire using a wire moving device that is characterized by cutting the surface of said member.

Preferably, the b) and in step d), the wire moving means is characterized by cutting the surface of said member by changing the cutting angle of the wire at least twice.

Preferably, the (c) step, the at least one rotating member is characterized in that that in the circumferential direction of the member rotates the member in the 360 ​​° range.

Preferably, the b) and the d) step, rotation of the member according to the moving speed and the at least one rotary member of the member according to the direction of movement, wherein the at least one support portion of the wire by the wire moving means approximately using a controller for controlling any one or more of the features to control the shape of the projection.

In addition, present invention relates to a member for a living body inserted, the insertion member for in vivo according to the invention the projections are formed to extend helically on the surface of the member; And the tooth groove structure formed on the projecting portion; characterized in that it comprises a.

Preferably, the member for a living body insert according to the present invention, a body portion made of a yarn-shaped or cylindrical; Projection formed at a predetermined shape along the outer circumferential surface of the body portion; And it is cut by the wire cutting portion is a space formed; characterized in that it comprises a.

Preferably, the cutting unit may be formed with a two-stage inclined relative to the longitudinal direction of the body portion.

Preferably, the body insertion member, the said tissue increases when extending applying a force to the living tissue in the living body inserted, the case of removing the force the projecting portion and the tooth groove structure a force to the tissue will return to the original position against the characterized in that is configured to be maintained at a state where the tissue increased.

Preferably, the body comprises a member for insertion into the thread-like or cylindrical shape, and the protruding portion is characterized in that the extrusion spirally along the outer circumferential surface of the body member for insertion.

Preferably, the member for the body insert is characterized in that it comprises silicon. Preferably, the body member for the insertion may be a medical suture. Preferably, the suture, nylon, polypropylene, polydioxanon, polycarprolacton, poly-L-lactic acid (PLLA), polyglycolic acid (PGA), poly-lactic-glyolic acid (PLGA), cat gut, gold (Au), alloys, including alloys, platinum (Pt), platinum containing Au, characterized in that the material consisting of any one of alloys, including Titanium (Ti) and Titanium.

Preferably, one or both ends of the body insertion member is characterized by being divided into one or more strands.

Advantageously, said one end or both ends of the living body insertion member is characterized in that it is provided with a rough surface such as a concave-convex portion, protruding, curved portion in its cross-section.

Preferably, the body insertion member is characterized in that it is used in any one or more cosmetic, dermatological surgery, cosmetic surgery, and general surgery.

In addition, the body portion member for insertion in vivo according to the invention is made of yarn-shaped or cylindrical; Projections formed to extend along the outer circumferential surface of the body portion; And the tooth groove structure or a concave-convex structure formed on the projecting portion; characterized in that it comprises a.

Preferably, the body portion is in the said range of about 0.2mm to about 0.6mm diameter range.

In addition, the injection mechanism for injecting member for insertion in vivo according to the present invention in the living body is of a type which the living body insertion member inserted therein, characterized in that the insert member for the body part inserted into a living body.

Preferably, the body insertion member comprises a body portion formed in a cylindrical shape; Protrusions formed at a predetermined shape along the outer circumferential surface of the body portion; And is cut by a wire cutting portion is a space formed; if it contains, and the body insertion member is inserted into the living body soft tissue by the injection needle, the extension applied a force to the living body soft tissue in the living body inserted the tissue is extended and held, and configured such that when removing the force applied to the living body soft tissue against the force that the projection and the cutting unit structure to the tissue is restored to the original state held in the said living body soft tissue extended state, and the body portion end, and the one is added unevenness at least one service of the ends being configured to prevent the living body insertion members projecting in the state inserted into the living body to the outside, and the protrusions are present at least one, and the body portion in the longitudinal direction it is characterized in that formed at regular intervals in a spiral.

According to the invention, it is possible to machine a particular shape of the projections on the surface of the living body insertion member that is used for forming and cosmetic surgery, so as to form a constant. Also arises an effect that a large number of living body surface of the insert member can be more quickly and accurately for processing by an automated machining process, using a wire-cut.

It also occurs that effect by adjusting the cutting angle (direction), the cutting length and the depth of cut of the wire, can easily control the projection angle, thickness and length of the projection formed on the insertion member for a living body. Also arises an effect that the number and spacing to the extent of the protrusion formed on the member for a living body insertion can be controlled according to user's intention.

In addition, it is possible to, according to the invention, there is provided a living body insertion member is constantly formed by using the surface processing device and method described above in the form of projections (that is, the projecting angle of the protrusion, thickness, and length, etc.).

In addition to the one according to the present invention, since the surface of the member made of yarn-shaped or cylindrical provide a tooth groove or concave portion structure is formed on the protrusions and the protruding portion of the screw or spiral, it is injected into the living body soft tissue prolong the tissue conditions it is possible to maintain more effectively.

Referring specifically to the effect of the present invention is as follows.

According to the invention, by providing a screw or a spiral of protrusions extending along the outer circumferential surface on the surface of a member made of yarn-shaped or cylindrical, so that the living body insertion member can be injected into the living body more easily.

In addition, according to the present invention, there arises an effect that the biometric insert member is made up of simple sutures not carried out by self-contained, a variety of alloys or silicon material can be further improved bearing capacity in the living body tissue for.

In addition, because, according to the present invention, by further providing a serrated groove or lands unit structure to the projection of the screw or spiral, and increases the contact surface area of ​​the biological tissue substantially effectively resist the forces trying again bunched delayed and by the tissue elasticity thereof in a state of extending the organization it is able to maintain more effectively.

Also according to the present invention, by one end or both ends of the member for a living body insert provides a rough surface, such as concave and convex portions, projecting portions, the bent portion in its cross-section and provide a structure to preclude where the maximum pressure concentration, after the procedure member nose the problem comes out to be able to prevent.

According to the present invention, can be performed, such as by using the member for the above-mentioned living body insertion cosmetic, dermatological surgery, cosmetic surgery, and general surgery more efficient and the effect of being able to improve the patient satisfaction of the glow generated do.

1 is a view showing a state in the chamber for inserting the biometric for conventional rhinoplasty.

Figure 2 is the first to sixth of the living body inserted a view showing the section 100 for, Fig. 2 (a) through Fig. 2 (f) is a member (100) for bio-inserted each in accordance with one embodiment of the present invention exemplary is a view showing the sun,

3 is inserted into the living body member 100 according to the present invention and a view showing a state that acts when inserted into a living body tissue,

Figure 4 is a view showing that the living body insertion member 100 according to the present invention is configured in the form of a roll,

5 is a diagram illustrating a state applying member 100 for a living body according to the invention inserted into a living body soft tissue lengthening,

6 is a view schematically showing the step of applying the bio-Ta insert member 100 for the yungbisul to the invention,

7 is a view showing a state in which the living body is inserted into the insert member 100 for the needle according to the invention,

8 is a schematic view of an auxiliary tool for inserting into a living body inserting member 100 according to the present invention the needle,

9 is a schematic view of the needle is configured so that the living body insertion member (100) may be inserted therein in accordance with the invention,

10 is a diagram illustrating a machining surface 400 of the living body insertion member according to another embodiment of the invention,

11 is a view showing a surface processing step of a member (100 ') for insertion in vivo to be processed by the processing surface 400 of the insert member for a living body according to another embodiment of the present invention step by step,

12 is a flow chart schematically showing the surface processing method of a living body for the insertion member 100 'according to another embodiment of the present invention,

It said Figure 13 is a cross-sectional view of a surface portion of a living body for the insertion member 100 'produced by the surface processing method of a member for a living body insert according to another embodiment of the present invention,

14 is a perspective view of the living body insertion member 100 'produced by the surface processing method of a living body insertion member according to another embodiment of the present invention.

It will be described with reference to the accompanying drawings a preferred embodiment of the injection device for injecting into the surface processing device and method of the member for a living body insert according to the invention, the living body and the insertion member for this organism. Size and thickness of the lines or the components shown in the drawings in the process can be shown to be of illustration clarity and exaggerated. In addition, the terms are to be described later as the terms defined in consideration of functions in the present invention can be changed according to the custom or intention of users or operators. Therefore, definition of the terms will be described on the basis of information throughout the present specification.

Structure of the living body insertion member -1

Figure 2 is the first to sixth of the living body inserted a view showing the section 100 for, Fig. 2 (a) through Fig. 2 (f) is a member (100) for bio-inserted each in accordance with one embodiment of the present invention exemplary diagram showing the sun. Figure will be described in the living body insertion member 100 according to the present invention, one embodiment with reference to examples in detail.

Vivo insertion member 100 includes a body portion 110 made of a yarn-shaped or cylindrical, by default according to the present invention; And a protrusion 120 formed to protrude spirally extending along the outer circumferential surface of the body portion (see Fig. 2 (a)).

At this time, together diameter of the body portion 110 of the body of insertion member 100 is preferred for from about 0.1mm to 0.8mm within a range, for this reason that, if the diameter of the members 100 for insertion in vivo is less than about 0.1mm substantially is because when it is difficult to support a tissue in a living body, the diameter of the living body insertion member (100) becomes larger than about 0.8mm, the size of the element becomes large it is difficult to be used for molding, such as rhinoplasty .

Projection 120 as formed to extend spirally along the outer circumferential surface of the body portion 110, a biometric insert helps to be easily injected than in the living body member 100 for a bio-artificial extending in as described below It serves to resist the elastic tissue to tissue to maintain an extended state does not return by its own elasticity. This projection 120 is noted that the one that can perform the above-described role protrusion size, width and helix angle, and spacing, etc. are not particularly limited.

Vivo insertion member 100 according to the present invention may further comprise a groove or lands and the tooth structure 130, which is formed on the surface projection 120 (see Fig. 2 (b)).

Tooth groove or a concave-convex structure 130 may improve the tissue adhesion by increasing the surface area in contact with the biocompatible and as a constituent which increases the surface area, the living body insertion member 100 and the living body tissue for in vivo insertion member 100 for sikimyeo, effectively resist the forces trying again bunched delayed and by tissue elasticity and serves to maintain a more effective to extend the tissue state by it.

The tooth grooves or concave-convex structure 130 is also not intended to be necessarily limited to a particular structure it is noted that can be used are variously changed, if necessary.

On the other hand, such a biological insertion member 100 for a may be of a medical suture.

In this case, such a medical suture may be used various materials so as to strengthen the supporting force while increasing the adhesion force and the elasticity of the tissue, specifically, nylon, polypropylene, polydioxanon, polycarprolacton, poly-L-lactic acid (PLLA), polyglycolic acid, such as (PGA), poly-lactic-glyolic acid (PLGA), cat gut, gold (Au), an alloy including Au, platinum (Pt), an alloy containing platinum, an alloy including Titanium (Ti) and Titanium It can be made of the material.

Preferably, bio-insertion member 100 for is preferably comprised of a silicone material. The reason for this is that the silicon material is due to indicate the excellent effect in that has been used variously for medical use particularly favorable to biological insertion member 100 for a more flexible and the supporting force is above the suture material supporting the tissue extended in the state inserted into the living body to be.

That is, due to this arrangement, and increases without biological insert member 100 for the different tissue when extending applying a force to the living tissue in the state of insertion into a living body by resistance projection when removing the force applied to the living body tissue 120, since the tooth grooves or concave-convex structure 130 to resist the force to tissue is returned to the original state becomes a state in which the increased tissue can be maintained for a long period of time continuously.

Thereby, the living body inserting member 100 according to the present invention is able to be used very effectively like cosmetic, dermatological surgery, cosmetic surgery, and general surgery.

2 (f) Fig. 2 (c) to is a diagram showing various embodiments of a living body of insertion member 100 for. Figure 2 (c) to 2 (f), because the living body insertion member (100) shown is FIG. 2 (a), of the structural features in vivo insertion member (100) shown in (b), only different, and a different structure of the and which it will be described only for the additional effect caused.

FIG biometric insert member 100 for the city in 2 (c) a body portion (110) made of a yarn-shaped or cylindrical; And a projection (120a) formed to protrude on the outer peripheral surface of the body portion. In addition, the living body insertion member (100) shown in Figure 2 (d) comprises a serrated grooves or concave-convex structure 130 formed on the end side surface of the protruding part (120a).

At this time, this protrusion (120a) is characterized by a disk-shaped projection along a particular distance, rather than spirally formed along the outer circumferential surface that is provided in a form that is separately protruded. However, these projections and spacing structure is noted can be changed as needed. That is, the drawing, it is needless to say that the projection may be circle is shown as a plate-shaped, but formed with a variety of protrusions such as a plurality of cylindrical shape, that shape.

And the living body insertion member (100) shown in Figure 2 (e) shows a partitioned structure in one or more of the strands at both ends of the living body insertion member (100). At this time, in the drawing should be noted that the living body insertion been shown that both the opposite ends of the member 100 for the divided into four strands, one end only to one or more strands (e.g., the second strand, and so on) may be partitioned sufficient.

With such a configuration, the living body insertion member (100) is moved, even perhaps in the state inserted into the body it is possible to prevent secondarily to be projected out of the nose or on the skin also to prevent the pain caused by concentrated pain organ to the skin It can be so.

Figure 2 (f) comprises a body portion 110 consisting of a living body of insertion member 100 is shown for the yarn-shaped or cylindrical; Projection 120 formed along the outer peripheral surface of the body portion protrudes extends helically; And a tooth groove or concavo-convex structure 130 is provided to the protrusion 130 at the end. However, it is characterized by a particular reference point projection 120 extending into or molded into the boundary (M) extending in opposite directions (direction A, B direction).

At this time, the reference point (M) is based on the user's needs can be a mid-point of the living body insertion member (100), and also note that there may be located at the distal end of the living body insertion member (100). Can be, for example, be the reference point (M) in this case is located at the distal end is provided with a living body insertion member 100 as a whole in one direction for (A direction) (direction B) in the opposite direction only from the distal end doedaga projections are provided projections. In this case, the living body when the insertion member (100) is that a certain period of time in the state inserted into the body in only one direction is moved aboard the home's yireoham is formed with a spiral projection serves to prevent the protrusion out nose or on the skin to be able to perform.

Meanwhile, although not shown one or both ends of the living body insertion member (100) may be provided with a rough surface such as a concave-convex portion, protruding, curved portion in its cross-section.

This rough surface is noted that there may be previously formed in the process of manufacturing the member 100 for the living body inserted in accordance with, or required may be formed naturally in the course of cutting in order to use the living body insertion member (100).

Once or, if provided, these rough surface on the end surface of both ends of sikimyeo by increasing the surface area increase the tissue adhesive also to lower the pressure applied to both ends of the living body insertion member 100 for the living body inserted in the living body insertion member 100 for for member 100 is able to be prevented from protruding out of the skin.

Working principle and application of the state of the living body inserted member

Figure 3 is a view showing a state that acts when inserted in a living tissue in vivo insertion member 100 according to the present invention, Figure 4 is the configuration is the living insertion member (100) in the form of a roll according to the invention there is shown a view of the, member 5 is a diagram illustrating a state applying member 100 for a living body insert according to the invention to a living body soft tissue lengthening, 6 is according to the invention in vivo insertion ( 100) for a diagram illustrating the step of applying the yungbisul.

The reference to Figure 3 to 6 will be described in the operation principle and application of the state of the living body insertion member 100 according to an embodiment of the present invention in detail.

Is 3, the living body insertion member 100 according to the present invention may be inserted into a living body by using a tool such as a needle (see Fig. 3 (a)). The living body when inserting the extension applies a force against the tissues of the inserted portion of member 100, for there is to be no particular organization extends resistance (see Fig. 3 (b)). Then, if the case of removing the force applied to the organization common case there is presented the tissue by the elasticity of the tissue again reverted, when the living body insertion member (100) is inserted in position in accordance with the present invention, the return by the tissue elasticity this is possible due to the force even if there is a living body insertion member (100) and against the force exerted to prevent the body tissue back to its original position (Fig. 3 (see c)).

This effect is combined with the living tissue of the living body insertion member (100) and a tooth groove or a concave-convex structure 130 is provided at the end of the projecting portion 110 and the projecting portion of the spiral, such a structure that the extended state because the resistance force due to the structural features that organizations are again returning Prize.

4, it can be seen that the living body insertion member 100 according to the present invention is provided in the form wound around a roll. The used unit can be configured to be cut by a necessary length in the range 0.5cm to 6cm.

In this case, it is noted that there may be necessary a different type biometric insert member 100 for the adjuster or repeatedly wound around the roll, only the biometric adjuster insert member 100 for the same type of winding the roll. In particular, that the living body insertion member (100) of the type wound in such a roll can be deformed in a form that is cut to shape and using units which are inserted into the needle in advance in some cases, only one embodiment, such as Note.

Figure 5, is to use one or more of the living body inserting member 100 according to the present invention showing a state where the insertion into a living body.

When the one or more physiological insertion member 100 for use in this way is, unlike when using either have a significantly enhanced resistance strength whereby it is possible to more effectively maintain the extended state of the biological tissue.

At this time, in the case of the differs depending on the spacing distance state of the treatment the patient or tissue located between the living body insertion member 100, the thickness, length and in vivo insertion member (100) for, for example, general yungbisul is 21 gauge (Gauge ) using a needle, by the living body insertion member (100) having an outside diameter of about 0.3mm to about 5mm inserted approximately two to eight within the range will be able to obtain the extended effect.

Referring to Figure 6, by using the living body insertion member (100) to be inserted or previously supplied in a form inserted into the syringe the living body insertion member 100 for a syringe according to the invention schematically the step of applying the yungbisul shows.

More specifically, the living body insertion member (100) is inserted in the region extending to the needle while it is inserted state or into the injection needle. If therefore then it dropped slowly rotates to push the living body insert member 100 for the inner needle is to be inserted into a region where the living body insertion member 100 for to extend along the projection 120 of the spiral. At this time, when the living body insertion member 100 for ppopge a needle in a state inserted in the body only in vivo insertion member 100 for insertion into the body are presented. After repeating this process as many times as necessary when the extent necessary to extend the nose end of the living body insertion member (100) it is buried inside the skin naturally. In such a state, it maintained naturally, the two because of the sawtooth grooves or concave-convex structure 130 is provided at the end of the projecting portion 110 and the protruding portion of a living body insert member 100 for the tissue extended state, as described above the effect is generated.

As described, by providing a tooth groove or concave portion structure is formed with the present invention a screw or the projection and the projection of the spiral on the surface of a member made of yarn-shaped or cylindrical, according to, it is injected into the living body soft tissue which extends the tissue thereby generating an effect that can be more effectively maintained in the state.

Injection device for injecting into a living body for the living body insertion member

7 is an auxiliary tool for inserting member 100 for the living body insert according to the living body inserted a view showing a state in which for the member 100 is inserted into the needle, the invention Figure 8 is present according to the invention in the needle is a schematic view, Figure 9 is a schematic view of the needle is configured so that the living body insertion member (100) may be inserted therein in accordance with the present invention.

Refer to FIG. 7 to FIG. 9, the living body insertion member 100 according to the present invention will be explained in details with respect to the injection device for injecting into a living body. The injection mechanism is not specifically defined structure should note that you may use your existing needle or syringe.

Referring to Figure 7, a living body inserting member 100 according to the present invention in the needle 200 is previously inserted. At this time, in consideration of the characteristics of the procedure with cosmetic purposes it is preferable to use the needle of 21 gauge or less with no scarring occurs.

At this time, the more the inner diameter of the needle and in vivo insertion member (100) is a separate rotating core member 220 that can be passed through the needle hole in a state inserted in the needle is formed to have a clearance of about 0.1mm and out, it is additionally It can be provided.

This rotation the core member 220 may be configured to push and rotate the living body insertion member (100) positioned within the needle. I.e. rotating the core member 220 is preferably comprised of also rotating the core member 220 to be inserted into a living body while rotating the biometric insert member 100 for the spiral to the rotational motion. On the other hand, this arrangement because the specific description thereof is employed a known technique will be omitted.

8, a needle inserted into the auxiliary tool (300) for a thread corresponding to a spiral protrusion to two days side end in the hub of the needle 200 can be inserted and the other end has an easy insertion projection 120 of the helical and a structure is formed (310).

Vivo insertion member 100 according to the present invention due to such a construction is more easily the biometric insertion member 100 for by engaging by rotating the projection 120 of the spiral thread 310 without tools needles ( within 200) it is able to be inserted.

Meanwhile, although not shown, this needle insertion assistant tool 300 for the it is noted that the heart could start with a bore diameter of the needle such as larger toward the outer side be provided with a structure that is also tapered aperture is formed large.

9, is configured to be inserted into living body showing only the needle 200 for a living body inserting member 100 for, can be inserted more easily inserted into the living body member 100 is formed for the spiral projection.

For this purpose, the same configuration of the existing needle and the outer, center, the hole having an inner diameter for accommodating the living body insertion member 100 is formed for the spiral projection is formed. Also it has a structure that corresponds to the screw thread of the spiral protrusion 210 is formed in the other end of the injection needle has to be easily inserted into the protrusion 120 of the spiral.

Vivo insertion member 100 according to the present invention due to such a construction is more easily the biometric insertion member 100 for by engaging by rotating the projection 120 of the spiral thread 210 without tools needles ( within 200) it is able to be inserted.

As described above, the needle insertion assistant tool 300 and by forming a screw thread (310, 210) to the needle 200 can be inserted smoothly without tools in a living body insert member 100 for the needle 200, for in several treatments are able to shorten the time to insert the living body inserted into the member 100 for the needles much of, there arises the effect of being able to considerably reduce the operation time.

In addition, as described above, be more easily inserted into the living body member 100 for by using a tool such as a rotating core member 220 is able to be injected into a living body.

Thus, by providing a tooth groove or lands unit structure formed a screw or the projection and the projection of the spiral on the surface of a member made of yarn-shaped or cylindrical in accordance with the present invention, is implanted into the living body soft tissue in a state of extending the tissue it is possible to maintain more effectively. As a result, more efficient to be able to solve a variety of problems twenty-one people used in traditional "Miss Nose" and "hayiko molding" had effectively and is able to offer practitioners and patients to cosmetic methods and member satisfaction is high .

Members for insertion in vivo production apparatus and a production method

10 is a surface treatment apparatus of the member for in vivo insert according to a further embodiment of a view schematically showing a surface processing apparatus 400 of the living body insertion member according to another embodiment of the present invention, Figure 11 is the present invention ( 400) a view showing step by step the surface processing step of a living body for the insertion member 100 'to be processed by.

See Figs. 10 and 11, will be described a surface processing apparatus 400 of the living body insertion member according to another embodiment of the present invention in detail.

10 and 11, the surface processing apparatus 400 of the member for a living body insert according to another embodiment of the invention member supply part (420a), in vivo insertion member recovery unit (420b), at least one for the biometric insert may include a support portion (431, 432), the wire module 440 and one or more rotating members (450a, 450b). It may further include a control unit 460 for controlling the components such as the wire module 440.

On the other hand, the surface processing apparatus 400 according to another embodiment of the present invention, intermittent or member for biological inserted to allow for continuous processing supply (420a), the operation of the living body insertion member for the stripping section (420b) control feeders and various control modules; And various current apparatus used when performing wire-cut; It may further include components such as, but a detailed description which does not belong to a key technical elements of the present invention will be omitted.

Vivo insertion member supply part (420a) and in vivo insertion member for the stripping section (420b) for serves to provide a (bio insertion member 100) to proceed to a certain one direction member 100 'for the living body insertion .

The supply part (420a) and a recovery unit (420b) is noted the features of the configuration that is provided so as to be constantly cut by a living body insertion member wire module 440 that (100 ') is described below for is not limited .

At least one support (431, 432) is a supply portion (420a) and a recovery unit (420b), and serves to support the further biometric insert member (100 living body insertion member 100 'between a) in the longitudinal direction and also it serves to move.

The at least one support (431, 432) generally may be a roller type, it is noted that the a form of performing the above-described role not particularly limited. On the other hand, this at least one support (431, 432), the living body insertion surface plate portion 433 that is part of the machining process is carried out is for the member 100 'through a wire modules 440 to be described later may be additionally provided between the have. The plate portion 433 should be noted that this can be omitted as needed in the process.

Wire module 440 serves to cut the surface portion of the (member 100) so as to form a projection of a constant form in the surface of the (412a, 412b) (see FIG. 14) in vivo insertion member 100 'for.

Specifically looking, wire module 440 is a bio insertion member (100 ') for the wire (441 positioned vertically on the (side cutting a part of the surface (that is, a wire cutting) in vivo insertion member 100) so as to' ); It may include a; and the wires 441, based on the central axis of the wire 441 in X-axis and Y-axis to free the wire moving means capable of moving directions (442a, 442b).

According to the wire module 440, the wire moving means (442a, 442b) is a wire (441) in consideration of the desired cutting angle, the direction, the cutting length and the depth of cut, such as with respect to the living body insertion member 100 'in the vertical and it is possible to move back and forth.

As a result, the surface processing apparatus 400 according to the present invention as shown in Figure 14 it is possible to form a protrusion (412a, 412b) of predetermined shape on the surface of the living body insertion member 100 '. For example, the first cutting angle (θ ') and the secondary cutting angle (θ "), the secondary cutting length (a) and the total cutting depth (c), etc. in consideration of the wire moving means of the wire (441) (442a , in the case of 442b) moves the wire 441, the user is able to form a steady stream of the desired shape of the protrusion.

One or more rotating members (450a, 450b) is provided to at least any one of between the supply part (420a) and the support 431 and between the support portion 432 and the recovery unit (420b) for rotating the living body insertion member 100 ' It plays a role. In this case, it is preferable to rotate within a range of 360 ° (member 100) for inserting in vivo in the circumferential direction of the living body insertion member 100, one or more rotating members (450a, 450b).

According to the rotating member (450a, 450b), by the living body, after the surface portion of the cutting biological insert member (100 of insertion member 100 'for rotation a) members (450a, 450b) by a wire (441) when rotated with respect to the non-cutting surface of the wire 441, it is possible to cut the surface portion of the living body of insertion member 100 'for. As a result, as shown in Figure 14, so that the protrusions on different positions along the circumferential surface of the living body insertion member 100 'may be formed.

Control 460 is responsible for controlling the supporting section (431, 432), the wire moving means (442a, 442b) and the rotating member (450a, 450b). Specifically, the control unit 460, by controlling at least one support (431, 432) and controlling the moving speed of the living body insertion member 100 ', of by controlling the wire moving means (442a, 442b), the wire 441 the movement direction (i.e., X-axis and Y-axis direction) to be adjusted and, and the rotation angle and the extent of the rotating member in vivo insertion member 100 'according to (450a, 450b), the rotating member (450a, 450b) by controlling the It is adjusted.

That is, look at the surface processing step of a member (100 ') for insertion in vivo to be processed by the processing surface 400 of the insert member for a living body according to another embodiment of the invention according to this configuration in a stepwise manner as follows.

The living body insertion 'will be provided by the living body insertion member (100 for member 100, the wire 441 to the top) side is positioned by the supply part (420a) and a recovery unit (420b) ((a) of Figure 11 Reference).

Next, the cutting angle (direction), the cutting length and the cutting depth, and the like in consideration of the wire moving means (442a, 442b), the projections of a specific shape to the wire 441 cuts the surface part of a living body insertion member 100 'by is to be formed (see FIG. 11 (b)). Then, the wire is 441 by the wire moving means (442a, 442b) are returned to the original state (see (c) of Fig. 11).

And then, it is rotated by a certain angle, inserted into the living body member 100 'by the rotating member (450a, 450b) (see Fig. 11 (d)).

Next, the wire 441 by a wire moving means (442a, 442b) to form a particular type of projection by cutting the living body inserting part of the surface of member 100 'for (some of the non-cutting surface) (Fig. 11 (e), reference).

Then, the support portion (431, 432) biometric insertion member 100 'by is moved forward in vivo insertion member (100 for "is located at the lower portion of the additional cutting is not the surface of the wire 441).

Thus due to the same principle, according to the surface treatment apparatus 400 of the member for a living body insert according to another embodiment of the present invention, the projection particular form of the surface of the member (100 ') for the living body insert for use in forming and cosmetic surgery that it is able to be processed so as to form a constant, by automating the fabrication process by using a wire-cut, and a plurality of living body inserted quickly than the surface of the member (10) it is possible to precisely processed. In particular, by adjusting the cutting angle (direction), the cutting length and the factors such as the depth of cut of the wire 441, it can easily control the projection angle, thickness and length of the projection is formed in vivo insertion member 100 'for there also occurs effect.

12 is a flowchart schematically showing a surface processing method of a member for a living body insert according to another embodiment of the present invention. Refer to Fig. 12, it will be described a surface processing method of a living body insertion member according to another embodiment of the present invention in detail.

Step (S01) to Referring to Figure 12, the surface processing method of a living body inserted member provides (a) living body insert member (100 '); Step (b) by using a wire module 440 for cutting the surface of the living body insertion member (100 ') (S02); (C) the step of rotating the living body insertion member 100 'for (S03); (D) a wire module, step (S04) and (e) a member for biological embedded using a support (431, 432 and 100 for cutting the surface of a) using a 440 living body insertion member 100 ' and a step (S05) that moves in a forward direction.

Referring specifically to the following.

(A) step is a step of using the supply portion (420a) and a recovery unit (420b) provided continuously or intermittently continuous in vivo insertion member 100 'for.

(B) step is a step of using a wire module 440 'by cutting a part of the surface of the living body insertion member (100 living body insertion member 100' for forming a predetermined shape of the projections on the surface of). Here, the wire module 440 is a wire 441 which is located in the vertical direction on the (side vivo insertion member 100) so as to cut (that is, wire-cutting) a part of the surface of member 100 'for the living body insertion; And wire 441, the wire 441, the center axis of the X-axis and Y-axis as a free wire moving means capable of moving direction (442a, 442b) to cut the surface of the living body insertion member 100 'using and it characterized in that.

(C) step is a step for rotating the living body insertion member 100 'using one or more rotating members (450a, 450b). Here, one or more rotating members (450a, 450b) is characterized by rotating within a (living body insertion member 100) along the circumferential direction of the living body insertion member (100), 360 ° range.

(D) step is a step of cutting a part of the surface of the wire module vivo insertion member (10) for non-cutting using the 440 form a certain type of projection to the living body insertion member 100 '.

Step (e), by using the support portion (431, 432) is a step of moving the living body insertion member (10) in the forward direction. At this time, (b) in step (c) step and the (d) step, the wire movement means (442a, 442b) for the living body insert according to the direction of movement, the support (431, 432), the rotating member moving speed and one or more of the living body insertion member 100 'according to (450a, 450b) of the wire 441 by the it should be noted that the step of controlling the shape of the projections (projecting of the projection angle, thickness, and length, etc.) through a control unit for controlling at least one of rotation about the member 100 'may further include.

Structure of the living body insertion member -2

13 is a cross-sectional view of a surface portion of the living body insertion member 100 'produced by the surface processing method of a member for a living body insert according to another embodiment of the present invention, Figure 14 according to another embodiment of the present invention a perspective view of the living body insertion member 100 'produced by the surface processing method of a living body for the insertion member.

13 and 14, the living body of insertion member 100 'comprises a body portion (110 consisting of a thread-like or cylindrical shape essentially') according to the present invention; The protrusion 412 protrudes with a constant shape along an outer peripheral surface of the body portion (110 '); Includes; and are cut by the wire 410, the cutting section 413 is formed in a certain space. At this time, the projection portion 412 has a first projection (412a) and a may be of a second projection (412b), thus the cutting section 413 is also a two-stage relative to the longitudinal direction of the body portion (110 ') slopes ( 414) may include (a first inclined surface (414a) and a second inclined surface (414b)).

This is because hayeotgi wire 441 is cut a (bio insertion member 100) by setting the cutting angle in two steps in the case of cutting the living body insertion member 100 '. Specifically, the first cutting angle (θ ') and the secondary cutting angle (θ ") are different to result, the first inclined surface (414a) and the first projection slope is different and accordingly the second inclined surface (414b) ( the overhang of 412a) and second protrusions (412b) is also formed to be different.

On the other hand, the secondary cutting length (a), 1 primary cutting angle (θ ') and the secondary cutting angle (θ ") and overall response to the movement direction of the wire moving means (442a, 442b) according to the control of the controller 460, factors such as the cutting depth (c) that it is possible a user is formed is set in a desired form.

It may also be understood that one or more protrusions 412 are formed at regular intervals along the length of the body portion 110 '. I.e. projection 412 being formed at regular intervals in a spiral along the length of the body portion 110 '. The spacing of these protrusions 412. It should be noted that it can be variously set according to the degree of rotation of the rotating member (450a, 450b) as described above. For example, one or more protrusions 412 and 180 may be formed at an interval it is noted that 90 may be formed at intervals.

In this way, according to the present invention, the surface processing device 400 and using the surface processing method, as well as it forms the projection (i.e., the thickness of the wing and the groove length and fine angle, etc.), a user to count and spaced about the protrusion of it can be controlled in accordance with the intention.

Therefore, there is a living body insertion member 100 'according to the present invention can be effectively used for the extension and maintenance of living body soft tissue in cosmetic surgery or cosmetic surgery, and particularly such as thickness and length of the wing and the groove is constant when the treatment in the nose and the satisfactory effect in treatment results occurred.

On the other hand, the secondary cutting length (a) above is preferably a 0.6mm to 0.8mm, preferably in the first cutting angle (θ ') and the secondary cutting angle (θ ") between about 25 ° to 40 °, and , the entire cutting depth (c) is preferably from about 0.18 to about 0.25 mm., and preferably a diameter of the body portion is about 0.4mm to 0.6mm. However, these ranges are the various applications according to the user's intent and a mind that can be changed.

That is, when, due to this configuration, and stretched with no biological when the insertion member (100 ') for in the state inserted in the body extending applying a force to the living tissue organization is different from the specific resistance, to remove the force applied to the living body tissue the projection portion and the cutting portion structure, so to resist the force in vivo soft tissues to return to the original state becomes a state in which the increased tissue can be maintained for a long period of time continuously. Additionally, although not shown one or both ends of the living body insertion member 100 'may be provided with a rough surface such as a concave-convex portion, protruding, curved portion in its cross-section.

This rough surface is noted that there may be previously formed in the process for producing a (bio insertion member 100) in accordance with, or required may be formed naturally in the course of cutting in order to use the living body of insertion member 100 'for do.

If provided, the one end or such a roughened surface on the end face at both ends of the living body insertion member 100 'has sikimyeo by increasing the surface area increase the tissue adhesive also to lower the pressure applied to both ends of the living body insertion member 10 for the living body insertion member (10) is able to be prevented from protruding out of the skin (to the outside).

Wherein the varying of the invention without departing from the spirit and scope of the invention as set forth in the claims of the character if more than one of ordinary skill in the art has been described with reference to a preferred embodiment of the invention, modifications and it will be appreciated that it can be changed.

Members for insertion in vivo according to the invention is able to be used very effectively like cosmetic, dermatological surgery, cosmetic surgery, and general surgery.

Claims (21)

  1. In the member for a living body insert,
    Protrusions formed on the surface of said member extends in a spiral; And the tooth groove structure formed on the projecting portion;, members for insertion in vivo comprising: a.
  2. According to claim 1,
    Inserting the body member, the
    Such that the tissue increases when extending applying a force to the living tissue in the living body inserted state, the holding case of removing the force against the force which the protrusions and the tooth groove structure to the tissue is restored to the original state in a state wherein the tissue increased , members for insertion in vivo characterized in that the configuration.
  3. According to claim 1,
    Inserting the body member is made of yarn-shaped or cylindrical, and said projection is a member for biometric insert characterized in that the extrusion spirally along the outer circumferential surface of the body member for insertion.
  4. 4. The method of claim 3,
    Inserting the body member, the insert member for a living body, comprising a step of including silicon.
  5. 3. The method of claim 2,
    Inserting the body member for a living body is insert member, characterized in that the medical suture.
  6. 6. The method of claim 5,
    Is the suture,
    nylon, polypropylene, polydioxanon, polycarprolacton, poly-L-lactic acid (PLLA), polyglycolic acid (PGA), poly-lactic-glyolic acid (PLGA), cat gut, gold (Au), an alloy including Au, platinum (Pt ), an alloy containing platinum, Titanium (Ti), and members, the insert made of a bio-material of any one of alloys containing Titanium characterized.
  7. 4. The method of claim 3,
    One end or both ends of the member, inserting the biometric characterized in that the division into one or more strands of the body member for insertion.
  8. 4. The method of claim 3,
    One end or both ends of the member, bio-insertion being provided with the rough surface, such as concave and convex portions, projecting portions, the bent portion in its cross-section of the body member for insertion.
  9. 4. The method of claim 3,
    Inserting the body member is cosmetic, dermatological surgery, cosmetic surgery, and general surgical, it characterized in that it is used in any one or more of the surgery, for in vivo insertion member.
  10. In the member for a living body insert,
    A body portion consisting of a yarn-shaped or cylindrical;
    Projections formed to extend along the outer circumferential surface of the body portion; And
    Vivo insertion member comprises a,; tooth groove structure or a concave-convex structure formed on the projecting portion.
  11. 11. The method of claim 10,
    Vivo insertion member for said body portion diameter, characterized in that the range of about 0.1mm to about 0.8mm range.
  12. In the member for a living body insert,
    A body portion consisting of a yarn-shaped or cylindrical;
    Projection formed at a predetermined shape along the outer circumferential surface of the body portion; And
    Is cut by a wire cutting portion space is formed; characterized in that it comprises the, members for insertion in vivo.
  13. 13. The method of claim 12,
    It said cutting member portion, inserting in vivo, characterized in that is formed with a two-stage inclined relative to the length direction of the body portion.
  14. A body portion formed in a cylindrical shape;
    Protrusions formed at a predetermined shape along the outer circumferential surface of the body portion; And
    Is cut by a wire cutting portion is a space formed; includes,
    The body insertion member is inserted into the living body soft tissue by the injection needle, when extended by applying force to the biological soft tissues in the living body inserted and the tissue extends and maintenance, to remove the force applied to the living body soft tissue the projection portion and the cutting portion structure, a member for inserting in vivo, characterized in that to resist the force to the tissue returns to its original position is configured to be held in the said living body soft tissue extended state, if applicable.
  15. Any one of claims 1 to 14, a member for a living body insert according to any one of items consist of an injection device to be embedded therein for inserting the member for the body part inserted into a living body.
  16. Part vivo insertion member for supplying the living body insertion member for providing possible biological insert member continuously for recovery;
    At least one support for supporting the member between the supply and the recovery unit;
    Wire module for cutting a portion of the surface of the member so as to form a certain type of projection to a surface of the member; And
    Surface machining apparatus of the living body insertion member, characterized in that including; the supply and the support and between the support and the stripping section is provided in at least one of between the at least one rotating member for rotating the member.
  17. 17. The method of claim 16,
    The wire module,
    A wire positioned in the vertical direction on the side of the cutting member to a portion of the surface of the member; And
    Surface machining apparatus of the living body insertion member, characterized in that it further comprises; a wire moving device that can move the center axis in the X-axis and Y-axis directions based on the wire the wire.
  18. 18. The method of claim 17,
    The at least one support portion,
    Surface machining apparatus of the living body insertion member, characterized in that for moving the member in the longitudinal direction of the member.
  19. 17. The method of claim 16,
    The at least one rotating member,
    Surface machining apparatus of which comprises in the circumferential direction of the member rotates the member in a 360 ° range, the living body insertion member.
  20. 17. The method of claim 16,
    Surface machining apparatus of the living body insertion member is
    Characterized in that it further comprises a control unit for controlling the direction of movement of the wire by the wire transfer means, at least one of a rotation amount of the member according to the moving speed and the at least one rotary member of said member by said at least one support surface machining apparatus of the living body insertion member of.
  21. Of claim 16 to claim 20, wherein the surface processing method of the member for a living body inserted using the surface processing device of the living body insertion member according to any of the preceding.
PCT/KR2013/009204 2012-10-16 2013-10-15 Apparatus and method for processing surface of in vivo insertion member, said in vivo insertion member, and injection apparatus for injecting said in vivo insertion member WO2014061968A1 (en)

Priority Applications (4)

Application Number Priority Date Filing Date Title
KR20120114526A KR101273792B1 (en) 2012-10-16 2012-10-16 Medical member for insertion into in-vivo and device for inserting the same into in-vivo
KR10-2012-0114526 2012-10-16
KR10-2013-0033986 2013-03-28
KR20130033986A KR101297509B1 (en) 2013-03-28 2013-03-28 Apparatus and method for processing surface of medical member for insertion into in-vivo and the medical member for insertion into in-vivo using the same

Applications Claiming Priority (1)

Application Number Priority Date Filing Date Title
CN 201380053713 CN104994807A (en) 2012-10-16 2013-10-15 Apparatus and method for processing surface of in vivo insertion member, said in vivo insertion member, and injection apparatus for injecting said in vivo insertion member

Publications (1)

Publication Number Publication Date
WO2014061968A1 true true WO2014061968A1 (en) 2014-04-24

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