KR20170020728A - Implant abutment internal hole filler inserted an identifiable marker or the rfid tag or a radiopaque substance - Google Patents

Abstract

More particularly, the present invention relates to an implant fixture embedded in a human body and an abutment connected to the implant fixture, wherein the implant fixture includes an implantable marker or an RFID tag or a radiopaque material, And an RFID tag or a radiopaque material capable of tracking the position of the filling material can be easily inserted and the empty space of the inner hole existing in the implant abutment can be quickly To a filling material which can be conveniently filled.
In addition, it is possible to confirm and update information on implant treatment and patient information by using an RFID tag inserted in one or two or more of the above-mentioned implant implant abutments of a patient, as well as dental insurance scaling, It can easily and quickly check and manage the information about the full denture and partial denture, maintenance and repair dentistry of insurance, dental insurance, It is possible to widely monitor and analyze the static and dynamic positional relationship of abnormal functioning habits, upper and lower teeth, brushing pattern, social and cultural activities of people, implement a patient management system in a medical institution, Identifiable indicators and RFID tags or radiation that can help identify To an inner hole filling material of an implant abutment into which an impermeable substance is inserted.
According to the present invention, an implantable indicator or RFID tag or an implant abutment inner hole filling material into which a radiopaque material is inserted enables the patient to easily and easily check the information on the treated implant anywhere, There is an effect that it can be usefully used for confirming the identity of people using dental care information.
In addition, by applying the hole filling material of the implant abutment with the radiopaque material to the radiography stent and the surgical stent, it is possible to easily and quickly manufacture the stent for radiography and the stent for surgery in the diagnosis process of the implant.

Description

BACKGROUND OF THE INVENTION 1. Field of the Invention [0001] The present invention relates to an implantable abutment for implantation of an RFID tag or a radiopaque material,

More particularly, the present invention relates to an implant fixture embedded in a human body and an abutment connected to the implant fixture, wherein the implant fixture includes an implantable marker or RFID tag or a radiopaque material, And an RFID tag or a radiopaque material, which can easily identify the information on the upper prosthesis and can track the position of the filler, is inserted, and the empty space of the inner hole existing in the implant abutment is quickly To a filling material which can be conveniently filled. In addition, it is possible to confirm and update information on implant treatment and patient information by using an RFID tag inserted in one or two or more of the above-mentioned implant implant abutments of a patient, as well as dental insurance scaling, It can easily and quickly check and manage the information about the full denture and partial denture, maintenance and repair dentistry of insurance, dental insurance, It is possible to widely monitor and analyze the static and dynamic positional relationship of abnormal functioning habits, upper and lower teeth, brushing pattern, social and cultural activities of people, implement a patient management system in a medical institution, Identifiable indicators and RFID tags or radiation that can help identify To an inner hole filling material for an implant abutment into which an impermeable substance is inserted.

A dental implant is a method of implanting an artificial tooth into a missing tooth, usually by implanting a fixture made of titanium or the like on an alveolar bone without teeth and fixing the prosthesis thereon to restore the function of the tooth.

Screw Retained Prosthesis (SRP), Cement Retained Prosthesis (CRP) and Screw-Cement Retained Prosthesis (SCRP) can be categorized into dental implant prostheses according to the procedure. Of these, the screw-retained prosthesis and the screw / cement-retained prosthesis are fixed to the fixture by screws through the inner hole in the abutment or the upper prosthesis, and the cement retained prosthesis and the abutment to which the upper prosthesis is fixed by the dental cement, Fixed to the fixture with screws through holes. Thus, in general, an implant prosthesis has an internal hole for a screw in an upper prosthesis or abutment.

If the internal hole in the abutment and prosthesis screwed into the implant fixture is left in an empty space, food or other foreign matter can enter into it, and if the screw is loosened, Filler and upper composite resin should be filled.

Implant abutment inner hole fillers must be firmly supported to prevent the composite resin, which is generally used to seal the upper part of the inner hole, from being pushed into the inner hole of the abutment. The collapse of the composite resin seal closes the food firstly, causing malodor, irregular chewing surface of the prosthesis, and reducing the chewing effect, which increases the patient's discomfort.

When filling the inner hole of the implant abutment with the filler material, when the screw hole is deep, it takes a lot of time, especially in the molar part in the mouth, because the mechanism is difficult to access and the field of view is not secured. Also, in order to prevent the filling material from being contaminated with the saliva, the filling material should be inserted into the inner hole promptly during the filling process. In particular, in the abutment having different depths of the inner hole according to the length of the prosthesis, the process of filling the filling material to a required length in order to leave a uniform space occupied by the composite resin in the inner hole is complicated and time consuming. Accordingly, there is a need for a filler capable of firmly supporting a composite resin that hermetically seals the upper portion of the inner hole, easily and easily filling the inner hole, and confirming the position thereof.

Currently, gauze, cotton ball, silicone, and Teflon tape are used to fill the internal holes of the implant abutment, but commonly used gauze and cotton balls are used in saliva Contamination causes bacterial growth and malodor, and loosely filling will not support the upper composite resin. Silicone materials are elastic and do not fully support the composite resin as the length increases. In addition, because these fillers do not contain radiopaque materials or traceable RFID tags, they can not be relieved because they can not be identified if the filler material has fallen into the patient's throat or has suddenly disappeared. I will not. As a result, the conventional filling material is not easy to fill or remove the screw holes and takes a long time, which makes it difficult to appropriately cope with situations in which a rapid operation is required.

The dental implant treatment process is divided into diagnosis, surgery, prosthesis, maintenance and management. Diagnosis is made by the diagnosis model, the stent for radiography, the dental CT and the panoramic radiograph, and the alveolar bone is analyzed, and the diameter and the length of the implant fixture to be implanted are determined and the treatment method is planned. The surgical procedure places the implant fixture in the alveolar bone as planned. After a sufficient time to allow the implant fixture to be firmly fixed to the alveolar bone, the prosthodontic process is performed by selecting an implant abutment, preparing an upper prosthesis, and mounting the prosthesis on the implant fixture. Maintenance and management processes are followed regularly to prevent problems that may occur later.

The information related to the treatment for each of the dental implant treatment processes is required for the next treatment, so it should be kept and promptly checked if necessary. In particular, information on implant fixture and implant abutment, CAD design file of implant abutment, and information on upper prosthesis should be stored and custodialized so that they can be checked later. The information of the implant fixture should be checked when the implant abutment is selected, the information of the implant abutment and the CAD design file should be confirmed when determining the shape of the upper prosthesis and the position of the inner hole, and the information of the upper prosthesis when reconstructing the prosthesis. However, there is a limit in storing all the information related to the treatment in the current dentistry. Information on the implant fixture is applied to the dentist, information on the implant abutment is supplied to the dental or dental laboratories and milling processors, It may be stored in the laboratory but it may be lost or deleted because the relevant laws are insufficient and can not be stored thoroughly.

There is a limitation that all of the information related to the treatment can not be recorded in the medical record, and the information stored in various media at different places needs to be integratedly managed. If the treated dental clinic is closed or the dental laboratory that produced the abutment and the upper prosthesis is closed, the above information can not be confirmed and the patient is difficult to retreat. In addition, if the patient has an urgent need for immediate treatment of the implant in a place where he or she can not go to the treated dentist, information related to the implant treatment should be readily and quickly identifiable everywhere to resolve the problem.

It is therefore an object of the present invention to provide an implantable abutment inner hole filler having an identifiable indicator or an RFID tag or a radiopaque material inserted therein that can identify or track information regarding implant treatment .

Another object of the present invention is to provide an implant abutment inner hole filling material capable of fast and easy insertion and removal and firmly supporting the upper composite resin.

It is still another object of the present invention to provide an implant abutment inner hole filling material which can suddenly be lost in the filling process or can confirm the position of the filling material by inserting an RFID tag or a radiopaque material for confirming the position in the filling material .

Another object of the present invention is to provide an RFID tag

In addition to identifying and updating information about implant treatment and patient information, it is also possible to use real-time location tracking and multiple tag recognition to identify patient's abnormal functioning habits, static and dynamic positional relationships between teeth and teeth, brushing patterns, The present invention provides an implant abutment inner hole filling material capable of widely monitoring and analyzing cultural activities, implementing a patient management system in a medical institution, and helping to identify a person related to crime and accident .

It is another object of the present invention to analyze the state of the gum bone at a site to be implanted in the implant fixture during the implant diagnosis process by inserting the hole filling material of the implant abutment into which the radiopaque material is inserted into the stent for radiography A stent for radiography that is manufactured to determine the diameter and length of an implant fixture to be implanted can be manufactured easily and easily and a hole filling material for an implant abutment that can be quickly and easily modified with a surgical stent after radiography is provided.

Another object of the present invention is to provide an implant abutment inner hole filling material inserted into one or more inner holes of an implant abutment selected from among implant abutments in a patient's mouth, Implant abutment inner hole filling material which can easily and quickly check the information about the dental insurance scaling treatment, dental insurance complete denture and partial denture treatment, maintenance and repair dentistry of insurance denture, and dental insurance implant care .

In order to accomplish the above object, the present invention provides a method of manufacturing an implant abutment, comprising the steps of: forming a body of a thermoplastic resin and forming a tube or pipe shape having a hollow portion inside the body, Wherein the inner hole filling material of the implant abutment is one of an indicator, RFID tag, and a radiopaque substance which is not inserted in the inner hollow part or identifiable in the inner hollow part, Or two or more kinds are inserted.

In the present invention, the thermoplastic resin may be at least one selected from the group consisting of polypropylene (PP), polycarbonate (PC), polyoxymethylene (POM), polyvinylidene fluoride (PVDF), polymethyl methacrylate polymethyl methacrylate (PMMA), polymethyl 2-methylpropenoate, polylactic acid (PLA), polyglycolic acid (PGA), polycaprolactone (PCL) , Polylactic-co-glycolic acid (PLGA), and the like.

The inner hole filling material of the implant abutment is in the form of a tube or a pipe having a hollow part formed inside and the inner shape is provided with a space capable of containing the indicator, the RFID tag and the radiopaque material to be inserted And the outer shape of the implant is variously shaped so as to correspond to the shape of the inner hole formed in the implant abutment into which the filler is inserted. Further, it is possible to provide a structure in which both ends of the filler are not clogged so as to penetrate all, or only one end is clogged.

The implant abutment inner hole filling material is basically formed in the form of a tube or a pipe having an inner hollow portion formed to have a length of 1 to 50 mm, an outer diameter of 1.5 to 9.0 mm and an inner diameter of 0.8 to 6.0 mm Most importantly, it can include the indicator, the RFID tag, and the radiopaque material, and can be inserted into the inner hole of the implant abutment inserted in the implant abutment inner hole appropriately so as to be inserted properly. .

The implant abutment inner filler may be a UCLA abutment made of a direct prosthesis and a cement-like abutment or an SCRP-type abutment to which the upper prosthesis is attached by dental cement to the screw of the implant fixture, And has a shape that can be appropriately inserted into a hole formed inside the abutments.

The implant abutment inner hole filler is larger than the pre-fabricated abutment and can be made as close to the shape of the upper prosthesis as a customized abutment is screwed onto the implant fixture And has a shape that can be appropriately inserted into holes formed in various sizes and shapes including screw holes in consideration of the external shape of the abutment, the position of the screw hole, the size and the inclination of the abutment in the interior of the patient-customized abutment .

The inner hole filling material of the implant abutment can be inserted into a fixture by hitting with a hammer or a structure of Hex, Non-Hex, or SCRP Hex in which a connection portion of the lower portion of the implant abutment for preparing the upper fixed prosthesis can be screwed And a shape that can be appropriately inserted into a groove formed in the implant abutment having a wedge-shaped structure.

The inner hole filling material of the implant abutment is an implant-retaining type. When the upper removable prosthesis such as the complete denture and the partial denture is manufactured, the connection portion of the lower portion of the attachment abutment connected to the implant fixture has no threaded hole, And has a shape that can be appropriately inserted into an inner groove formed in a side surface of the attachment abutment.

In the present invention, the identifiable indicator capable of confirming information on the implant treatment is inserted into the inner hollow portion of the inner hole filling material of the implant abutment, and the implant, such as the manufacturer of the implant fixture, the product name, the standard (diameter and length) A unique number, a code, and the like are attached to the fixture information so that the information of the fixture can be easily identified by matching the information of the implant abutment such as the manufacturer and the manufacturing agency of the implant abutment.

In the present invention, the identifiable indicator for confirming the information on the implant treatment may be one or more kinds selected from gold alloy, titanium, zirconia, and synthetic resin suitable for living body, and includes a substance having antibacterial and deodorizing effect .

In the present invention, the RFID tag capable of confirming information on the implant treatment and the position of the implant is used for the implant fixture information such as manufacturer, product name, manufacture date, standard (diameter and length) Information on implant abutments such as manufacturers and manufacturing agencies, abutment scan and CAD design files, manufacturer and product name of material for making upper prosthesis, and CAD design file of manufacturing facility and upper prosthesis And is inserted into the inner hollow portion of the inner hole filling material of the implant abutment or attached to the outer surface thereof.

In the present invention, the RFID tag capable of confirming the information and the position of the implant treatment may be one of the implant abutments inserted into one or two or more of the implant abutment inner holes selected from the implant abutments in the oral cavity of the patient, Broad monitoring and analysis of patient's abnormal function habits, static and dynamic positional relationships between upper and lower teeth, brushing patterns, and social and cultural activities of people, included in the bertum inner hole filling, real-time location tracking and multiple tag recognition It is characterized by the ability to implement a patient management system in a medical facility and to help identify the identity of a person involved in a crime or accident.

In the present invention, the RFID tag capable of confirming the information and the position of the implant treatment includes a read unit, a server transceiver unit, a comparison processor, a read / write unit, a reader unit, a memory unit, A network consisting of a memory unit constituted by an information storage unit and a server control unit, a system including a terminal including an application program such as a home page or a portable smartphone application, and an input / output unit composed of an input / output unit transceiver unit and a network communication such as a wireless communication network, a LAN network, a WiBro network, And transmission / reception of information is performed through a possible network.

In the present invention, the radiopaque material, which can confirm the position of the inner hole filling material in the implant abutment, is entirely or partially inserted into the inner hollow portion of the inner hole filling material of the implant abutment.

In the present invention, the radioactive impermeable material capable of confirming the position of the hole filling material in the implant abutment is 20% of polyisoprene trans isomer in natural state of rubber, zinc oxide (zinc-oxide 65% , A gutta-percha or stopping made by mixing 10% of the radiopaque material and about 5% of the plastic material.

The present invention also provides a method of fabricating an implantable abutment inner hole filler into which the identifiable indicator or RFID tag or radiopaque material is inserted.

In one specific aspect, the present invention provides a method of preparing an implant abutment, comprising the steps of preparing an extrusion or injection mold in the form of a tube or a pipe, which is standardized on the basis of the shape and size of the inner hole of the implant abutment; And injecting a thermoplastic resin having softening properties into a mold and extruding or injection molding the same in the form of a tube or a pipe; And inserting one or more selected from among the identifiable indicator, the RFID tag, and the radiopaque material into a hollow formed inside the body in the form of a molded tube or pipe, A method of manufacturing an implant abutment inner hole filler having a possible indicator or an RFID tag or a radiopaque material inserted therein.

In another specific aspect, the present invention provides a method of manufacturing a CNC precision processing apparatus, the method comprising: mounting the thermoplastic resin produced in the form of a round bar to a CNC precision processing equipment; And forming a standardized tube or pipe shape based on the shape and size of the inner hole of the implant abutment; And inserting one or more selected from among the identifiable indicator, the RFID tag, and the radiopaque material into a hollow formed inside the body in the form of a processed tube or pipe. A method of manufacturing an implant abutment inner hole filler having a possible indicator or an RFID tag or a radiopaque material inserted therein.

According to another aspect of the present invention, there is provided a method of designing an implant abutment, the method comprising the steps of: designing a three-dimensional CAD stl file in the form of a tube or pipe standardized on the basis of the shape and size of the hole of the implant abutment; Printing with a thermoplastic resin in a 3D printer machine capable of three-dimensional printing by applying the generated stl file, and printing the thermoplastic resin by using a hollow tube formed inside the body in the form of a completed tube or pipe, The RFID tag, or the radiopaque material, the method comprising: inserting the RFID tag or the radiopaque material into the implantable abutment; ≪ / RTI >

The present invention also provides a method of applying the identifiable indicator or an RFID tag or an implant abutment inner hole filler into which a radiopaque material is inserted to fill a patient.

In one specific aspect, the present invention provides a method of implanting an implant abutment, the method comprising: inserting a rubber ring into an implant hole of the implant abutment to measure a depth of the implant abutment inner hole; And inserting the inner hole filling material of the implant abutment in which the rubber ring is inserted into the inner hole of the implant abutment and moving the rubber ring so as to contact the inlet of the inner hole of the implant abutment, thereby displaying the depth of the inner hole; And removing the inner hole filling material of the implant abutment showing the depth of the inner hole out of the oral cavity and cutting the filling material perpendicular or obliquely to a long axis of the filling material at a distance of 1.0 mm to 3.0 mm from the rubber ring; And removing a radiopaque material, if necessary, from the upper edge of the implant abutment inner hole filler to a depth of 1.0 mm to 3.0 mm so as to hold the side wall with a mechanism such as a tweezer; And inserting the implant interior abutment filling material shortened by 1.0 mm to 3.0 mm from the depth of the implant abutment inner hole into the inner hole of the implant abutment again; And filling the upper portion of the implant abutment inner hole with the composite resin. The present invention also provides a method for filling the inner hole filling material with an implantable indicator or an RFID tag or a radiopaque material inserted therein.

The present invention also provides a method for applying a hole filling material in an implant abutment having a radiopaque material inserted therein to a radiological stent and a surgical stent.

In one specific aspect, the present invention provides a method of making an implant, comprising: pulling the oral condition of a patient to be treated with an implant with an alginate impression material; And producing a diagnostic model from the impression material; And arranging the tooth using a temporary crown formed with an artificial tooth or a hole in an occlusal surface on a part of the diagnostic model to be implanted, or carving a tooth shape with wax; And a diagnostic model in which an artificial tooth or temporary crown is arranged or a tooth shape is wax-sculpted is patterned with an alginate impression material; And making a replica model from the original impression; And softening the plate-shaped thermoplastic resin in the replica model to adhere to the replica model in a vacuum state; And a step of appropriately cutting and removing the thermoplastic resin which is in close contact with the tooth form and popularized; And preparing and polishing a thermoplastic resin to manufacture a stent in which a hollow portion is formed; And completing the stent for radiography by injecting PMMA resin on the inner surface of the stent and locating the hole filling material in the implant abutment with the radiopaque material inserted therein and curing the PMMA resin according to the position and inclination to place the implant fixture ; And a step of radiographing a necessary dental CBCT after attaching the stent for radiography to a patient's mouth; And dental CBCT imaging and radiography, and then pushing and removing the filling material of the implant abutment inserted into the stent for radiography using a dental instrument to use in the implant surgery procedure; And removing a tooth occlusal surface or a sagittal surface of the radiographic stent from which the inner hole filling material of the implant abutment has been removed so as not to be disturbed when drilling in the implant surgical procedure, There is provided a method of applying an abutment inner hole filler to a radiographic stent and a surgical stent.

Therefore, according to the present invention, an RFID tag or a thermoplastic resin that is not used in conventional dental implant treatment and is used in a dentistry now, according to the RFID tag or an implant abutment inner hole filling material in which a radiopaque material is inserted The use of radiopaque materials and materials allows the patient to easily and easily identify information about the treated implants anywhere, so that if problems arise in the implant, they can be resolved quickly, and dental care information can be used to identify people There is also an effect that can be usefully used for confirmation.

Another effect of the present invention is to provide a dentist or dentist with an identifiable indicator or an implant abutment in which an RFID tag is inserted in the form of a tube or pipe, Because the dental hygienist can easily grip and insert or remove the filler, the treatment process can be done quickly. Also, since the filler is hard, the composite resin above the filler can be firmly supported.

Another advantage of the present invention is that by inserting an RFID tag or a radiopaque material for confirming the position of the filling material, the filler material is suddenly lost due to the mistake of the dentist or the dental hygienist during the filling process, Since it is easy and quick to identify the location of filler when swallowed, it has the effect of reducing patient anxiety as well as dentists and dental hygienists.

Another effect of the present invention is that not only can the information about the implant treatment and the patient information be confirmed and updated by using the RFID tag inserted in one or more than two fillings of the implant abutment of the patient, , Real-time location tracking and multiple tag recognition can be used to monitor and analyze patient's abnormal function habits, static and dynamic positional relationships between teeth and teeth, brushing patterns, social and cultural activities of people, System, and can be usefully used to identify the identity of a person involved in crime and accidents.

Another advantage of the present invention is that the stent for surgery and the stent for surgery can be manufactured easily, quickly and easily in the diagnosis of the implant by applying the hole filling material in the implant abutment with the radiopaque material to the stent for radiography and the stent for surgery There is an effect.

BRIEF DESCRIPTION OF THE DRAWINGS Fig. 1 is a cross-sectional view illustrating various implant abutment inner hole fillings in which at least one selected from an identifiable indicator or an RFID tag or radiopaque material is inserted into an inner hollow. Fig.
FIG. 2 is a perspective view and a cross-sectional view showing an implant abutment inner hole filling material in the form of a tube or a pipe in which nothing is inserted in the inner hollow portion. FIG.
FIG. 3 is a perspective view and a cross-sectional view showing an implant abutment inner hole filling material in which nothing is inserted into the inner hollow portion and only one end is closed; FIG.
FIG. 4 is a perspective view and a cross-sectional view showing an implant abutment inner hole filler made of a film in which nothing is inserted into a hollow portion and a hole is formed at a center only at one end.
FIG. 5 is a perspective view, cross-sectional view, and plan view showing an identifiable indicator, an RFID tag, and an implant abutment inner hole filler modified to provide a space that can contain a radiopaque material in the inner hollow.
6 is a cross-sectional view illustrating various implant abutment inner hole fillers in which an identifiable indicator is included in the inner hollow.
Figure 7 is a side cross-sectional view of an implant abutment inner hole filler inserted into an inner hole of a UCLA abutment, a cement retaining abutment, and an SCRP type abutment.
Figure 8 is a side cross-sectional view of an implant abutment inner hole filler inserted into a patient-specific abutment and an SCRP-type upper prosthesis having various types of internal holes.
FIG. 9 is a side cross-sectional view of an implant abutment inner hole filling member inserted into an inner hole of an implant abutment having a wedge-shaped connecting portion. FIG.
10 is a side cross-sectional view of an implant abutment inner hole filling material inserted into an attachment abutment.
11 is a side cross-sectional view showing an identifiable indicator having a unique color by adding pigment to the body of the implant filling abutment hole filler.
FIG. 12 is a system operation block diagram of the RFID tag, which can be inserted into an inner hollow of an implant abutment inner filler or attached to an outer surface. FIG.
13 is an explanatory diagram illustrating a stent for radiography in which an implant abutment inner hole filling material containing a radiopaque material is inserted.

Hereinafter, the present invention will be described in detail with reference to the accompanying drawings.

1 is a cross-sectional view illustrating various implant abutment inner hole fillers in which at least one selected from an identifiable indicator or an RFID tag or a radiopaque material according to the present invention is inserted into an inner hollow portion.

1, an implantable abutment inner hole filler 10 having an identifiable indicator 30 or an RFID tag 40 or a radiopaque material 50 inserted therein allows the thermoplastic resin to pass through the body 100, And the body 100 is formed in the form of a tube or a pipe having a hollow portion 110 formed inside the body and the body 100 is shaped and shaped according to the shape and shape of the inner hole 200 of the implant abutment And at least one selected from the identifiable indicator 30, the RFID tag 40 and the radiopaque material 50 is inserted into the inner hollow portion 110, And the implant abutment inner hole filling material 10, which is filled in all or part of the inner hollow portion 110, is not defined.

At least one selected from the identifiable indicator 30, the RFID tag 40 and the radiopaque material 50 is partially filled in the inner hollow portion 110 of the implant abutment inner hole filler 10 The filling material 10 is illuminated through the composite resin 70 filled in the upper part of the filling material 10 in order to easily and easily hold the side wall of the body 100 of the filling material 10 with a dental instrument such as a tweezers So as not to be seen. Thus, the radiopaque material 50 filled in the upper portion of the inner hollow portion 110 can be partially removed before it is inserted into the inner hole of the implant abutment.

The implant abutment inner hole filling material 10 has a shape corresponding to the inner hole 200 of the implant abutment so that it can be inserted into the inner hole 200 appropriately. The hole filling material 10 has a length of 1.0 mm to 50.0 mm, an outer diameter of 1.5 mm And an inner diameter of 0.8 mm to 3.0 mm, and more preferably a length of 20.0 mm, an outer diameter of 2.25 mm, and an inner diameter of 1.0 mm.

The implant abutment inner hole filling material 10 manufactured according to the above standard is used to adjust the length to be inserted 1.0 mm to 3.0 mm short in the upper opening of the inner hole 200 of the implant abutment, . This is to firmly support the composite resin 70 filled above the filler 10.

1, the implant abutment inner hole filling material 10 includes at least one of an identifiable indicator 30, an RFID tag 40, and a radiopaque material 50, But includes various types of implant abutment inner hole fillers which are inserted into the inner hollow portion 110 but are composed of only the body 100 in the form of a tube or a pipe without being inserted into the inner hollow portion 110.

FIG. 2 is a perspective view and a cross-sectional view showing an inner hole filling material in the form of a tube or a pipe in which nothing is inserted into the inner hollow part according to the present invention, as described above.

2, the body of the implant abutment inner hole filling material 11, 12 has a shape of a tube or a pipe, and the outer surface of the body has an upper periphery that is the same as the lower periphery The filling material 11 having a rectangular shape or the filling material 12 having an upper portion having a circumference larger than that of the lower portion and an outer surface having a predetermined inclination may have an isosceles trapezoid shape. , Wherein the acute angle is preferably an angle of 4 to 20 degrees (2 to 10 degrees from the central axis) from one side to the other.

The outer circumferential surface of the upper portion of the implant filling material 12 of the implant abutment in which the body 100 has an isosceles trapezoidal shape is limited by the size and shape of the upper surface of the implant abutment and the position and inclination of the screw hole, Has an upper outer diameter of 3.0 mm to 7.0 mm, a lower outer diameter of 2.0 mm to 4.0 mm, an inner diameter of 0.8 mm, and an inner diameter of 0.8 mm. mm to 3.0 mm, and the thickness of the body is 0.5 mm to 3.0 mm, more preferably, the upper outer diameter is 5.0 mm, the lower outer diameter is 2.25 mm, and the body thickness is 0.625 mm.

The implant abutment inner hole fillers 11 and 12 are inserted into the inner hollow portion 110 in a state in which the identifiable indicator 30, the RFID tag 40, the radiopaque material 50, The RFID tag 40 and the radiopaque material 50 may be filled with the identifiable indicator 30, the radiopaque material 50, and the like.

FIG. 3 is a perspective view and a cross-sectional view showing an implant abutment inner hole filling material in which nothing is inserted into the inner hollow portion according to the present invention and only one end is closed.

3, the body 100 of the implant abutment inner hole filling material 13 is in the form of a tube or a pipe and the outer surface of the body 100 is surrounded by the upper periphery And can be manufactured to have a structure in which the lower end of the body 100 is clogged.

The implant filling material inner hole filling material 13 in which nothing is inserted into the inner hollow portion 110 and the lower end of the body 100 is plugged is inserted into the inner hole 200 of the implant abutment, And has a length of 1.0 mm to 50.0 mm, an outer diameter of 1.5 mm to 9.0 mm, an inner diameter of 0.8 mm to 3.0 mm, a thickness of the lower end plugging membrane of 0.5 mm to 1.0 mm, Preferably, the length is 30.0 mm, the outer diameter is 2.25 mm, the inner diameter is 1.0 mm, the thickness is 0.625 mm, and the thickness of the lower end plugging membrane is 0.625 mm.

The implant abutment inner hole filling material 13 is inserted into the inner hollow portion 110 in a state in which the identifiable indicator 30, the RFID tag 40, the radiopaque material 50, The RFID tag 40 and the radiopaque material 50 may be filled in the inner hole 200 of the RFID tag 100. In this case,

FIG. 4 is a perspective view and a cross-sectional view illustrating an implant abutment inner hole filler made of a film in which nothing is inserted into the inner hollow portion according to the present invention and only one end thereof is formed with a hole at the center thereof.

As shown in FIG. 4, the implant is composed of a hollow body having an outer periphery of a rectangular shape with the upper periphery thereof not being inserted into the inner hollow portion 110, The abutment inner hole filler 14 includes an inner shape suitable for providing a space that can include the identifiable indicator 30, the RFID tag 40, the radiopaque material 50, And a hole formed at the center of one end of the filler material 14 so as to correspond to the shape of the inner hole 200 of the implant abutment.

The implant abutment inner hole filling material 14 has a shape corresponding to the inner hole 200 of the implant abutment so that it can be inserted into the inner hole 200 appropriately and has a length of 1.0 mm to 50.0 mm and an outer diameter of 1.5 mm The inner diameter is 0.8 mm to 3 mm, the thickness of the lower end plugging membrane is 0.5 mm to 1.0 mm, and the diameter of the hole formed at the center of the plugging membrane is 0.5 mm to 1.0 mm. More preferably, An inner diameter of 1.0 mm, a thickness of 0.625 mm, a thickness of the lower end plugging membrane of 0.625 mm, and a diameter of the hole formed at the center of the plugging membrane of 0.5 mm.

The implant abutment inner hole filling material 14 is inserted into the inner hollow portion 110 in a state in which the identifiable indicator 30, the RFID tag 40, the radiopaque material 50, The RFID tag 40 and the radiopaque material 50 may be filled in the inner hole 200 of the RFID tag 100. In this case,

FIG. 5 is a perspective view, cross-sectional view and plan view showing an implantable indicator inner hole filler modified to provide a space that can include a radiopaque material in the inner hollow portion, to be.

5, a space is provided that can include an identifiable indicator 30, an RFID tag 40, a radiopaque material 50, etc. to be inserted into the inner hollow 110, The implant abutment inner hole filling material 15 limited by the outer shape of the abutment is formed such that the body 100 has a shape of a tube or a pipe and the outer surface of the body 100 has an upper periphery It is a rectangular shape like the lower circumference.

An inner hollow portion 110 is provided in the inner hollow portion 110 in order to provide a space that may include an identifiable indicator 30, an RFID tag 40, a radiopaque material 50, The inner hole filling material 15 has a shape corresponding to the inner hole 200 of the implant abutment so that it can be inserted into the inner hole 200 appropriately. The outer surface of the upper part of the body is circular, rectangular or elliptical , The circular implant abutment inner hole filling material 15a has a length of 1.0 mm to 50.0 mm, an outer diameter of 1.5 mm to 9.0 mm and an inner diameter of 0.8 mm to 3.0 mm, more preferably a length of 30.0 mm, an outer diameter of 5.0 mm, an inner diameter of 3.75 mm, and a thickness of 0.625 mm.

The rectangular implant abutment inner hole filling material 15b has a length of 1.0 mm to 50.0 mm, an outer shape of 1.5 mm to 9.0 mm and an inner shape of 0.8 mm to 4.0 mm, more preferably a length of 30.0 mm, An outer shape of 7.0 mm X 5.0 mm, an inner shape of 5.75 mm X 3.75 mm, and a thickness of 0.625 mm.

The oval-shaped implant abutment inner hole filling material 15c has a length of 1.0 mm to 50.0 mm, a longest length of 1.5 mm to 9.0 mm, a shortest length of 2.0 mm to 4.0 mm, a longest length of 0.8 mm to 4.0 mm mm, the shortest length of the inner diameter 0.5 mm to 4.0 mm, more preferably the length 30.0 mm, the longest length 5.0 mm, the shortest length 2.25 mm, the longest length 3.75 mm, the shortest length 1.0 mm, mm.

The implant inner hole filling material 15 is inserted into the inner hollow portion 110 in a state in which no identifiable indicator 30, the RFID tag 40, the radiopaque material 50, It is preferable that the RFID tag 40 and the radiopaque material 50 are filled with the identifiable indicator 30, the RFID tag 40 and the radiopaque material 50 inserted therein.

The thermoplastic resin may be at least one selected from the group consisting of polypropylene (PP), polycarbonate (PC), polyoxymethylene (POM), polyvinylidene fluoride (PVDF), polymethyl methacrylate ), Polymethyl 2-methylpropenoate, polylactic acid (PLA), polyglycolic acid (PGA), polycaprolactone (PCL), polylactic acid- Glycolic acid copolymer, polylactic-co-glycolic acid (PLGA), and more preferably polypropylene.

FIG. 6 is a cross-sectional view illustrating various implant abutment inner hole fillers included in the inner hollow portion of a discrepant indicator made in a conical shape, a T shape, and a cylindrical shape with a trapezoidal cross section according to the present invention.

As shown in FIG. 6, the identifiable indicator 30 may be a patient-customized abutment formed in various sizes and shapes including threaded holes, taking into account the external shape of the implant abutment, the position, The inner hole 200b or the inner hole is included in the inner hollow portion 110 of the inner hole filling material 10 inserted into the inner hole 200a of the modified base abutment, The identifiable indicator 30 has a shape that is caught by the lower hollow portion 110 of the inner hole filling material 10 and does not escape to the outside. In this case, a conical shape having a trapezoidal shape or a T It is preferable that it is shaped like a letter.

The conical or T-shaped identifiable indicator 30 having a trapezoidal cross section can be inserted into the inner hollow portion 110 of the various implant abutment inner hole fillers 12 to 15 shown in FIGS. have.

FIG. 7 is a side cross-sectional view of an inner hole filling material of an implant abutment according to a preferred embodiment of the present invention inserted into an inner hole of a UCLA abutment, a cement retaining type abutment, and an SCRP type abutment.

As shown in Fig. 7, the implantable abutment inner hole filler 10 including the identifiable indicator 30 or the RFID tag 40 or the radiopaque material 50 is made of UCLA The butt 21 and the upper prosthesis are appropriately inserted into the inner hole 200a of the cement-retaining abutment 22 and the SCRP-type abutment 23 to which the dental cement is attached. The implant abutment has a hole formed therein for screw connection to the implant fixture.

8 is a cross-sectional side view of an implant abutment inner filler according to a preferred embodiment of the present invention inserted into a patient-specific abutment and an SCRP-type upper prosthesis having various types of internal holes.

8, in one preferred embodiment of the present invention, an implantable abutment inner hole filler 10 (see FIG. 10) including an identifiable indicator 30 or an RFID tag 40 or a radiopaque material 50 Is inserted into the hole 200b of various shapes formed in the patient-customized abutment, and the size and position of the implant abutment outer shape and the inner hole among the information stored in the RFID tag can be confirmed. Therefore, the SCRP type It is possible to minimize the holes formed in the upper prosthesis 60 and not to form holes like the cement-retained upper prosthesis 60. [

The inner hole 200b of the patient-customized abutment into which the implant abutment inner hole filling material 10 is inserted is larger than the pre-fabricated abutment and is made close to the shape of the upper prosthesis 60 In order to be screwed into the implant fixture inside the implant abutment, it is formed in various sizes and shapes including screw holes in consideration of the external shape of the abutment, the position, size and inclination of the screw hole. The RFID tag 40 is inserted into the inner hollow portion 110 of the filler material 10 by being formed in an inverted trapezoidal shape b from the upper side of the screw head to the inner hole or larger in the circumferential shape c than the diameter of the screw head. Is provided.

9 is a side cross-sectional view of an implant abutment inner hole filling material according to the present invention inserted into an inner hole of an implant abutment having a wedge-shaped connecting portion.

9, in one preferred embodiment of the present invention, an implantable abutment inner hole filler 10 (FIG. 10) including an identifiable indicator 30 or an RFID tag 40 or a radiopaque material 50 May be inserted into the inner hole of the implant abutment 24 made up of a wedge-shaped connecting portion that can be inserted into the implant fixture.

The Hex, Non-Hex, and SCRP Hex type structures in which the connection portion 210 of the lower portion of the implant abutment for manufacturing the upper fixation prosthesis 60 can be screwed can be formed in the inner hole filling material 10 of the implant abutment. Or a hole or groove formed in the implant abutment 24 made of a wedge-shaped structure that can be inserted into the fixture by hitting it with a hammer.

10 is a side cross-sectional view of an implant abutment inner hole filling material according to the present invention inserted into an attachment abutment.

10, in a preferred embodiment of the present invention, an implantable abutment inner hole filler 10 (see FIG. 10) including an identifiable indicator 30 or an RFID tag 40 or a radiopaque material 50 May be inserted into the attachment abutment 25 for attachment.

The implant abutment inner hole filling material 10 includes a connection portion 210 under the attachment abutment for making the upper movable prosthesis 60 such as an implant-retaining complete denture and a partial denture having an integral threaded structure And has a shape that can be appropriately inserted into the inner groove 200c formed on the side surface of the attachment abutment.

When the implant abutment inner hole filling material 10 includes the RFID tag 40, the position of the inner groove 200c of the attachment abutment is adjusted so as not to sink into the attachment abutment 25 and the implant fixture It is important to determine the size. Further, the upper portion of the inner groove 200c on the side surface is appropriately sealed using the composite resin 70 so that the attachment abutment 25 is not interfered with the fastening of the attachment abutment 25 to the inside of the implant fixture.

The attachment abutment 25 may have various shapes such as a ball shape, a clip shape, and a locator shape.

In the present invention, the identifiable indicator 30, which is capable of verifying information regarding the implant treatment, is inserted into the inner hollow portion 110 of the implant abutment inner hole filling material 10, and the manufacturer of the implant fixture, A variety of unique colors, unique numbers and codes are included in order to make it easy to identify the implant fixture information such as product name, specification (diameter and length), and implant abutment information, such as the manufacturer and manufacturer of the abutment. do.

In the present invention, the identifiable indicator 30 which can confirm information on the implant treatment may be one or more kinds selected from a gold alloy suitable for living body, titanium, zirconia and synthetic resin, and has antibacterial and deodorizing effect ≪ / RTI >

In the present invention, the identifiable indicator 30, which is capable of verifying information about the implant treatment, is formed in various sizes and shapes, including threaded holes, taking into account the contour of the abutment, the position, The inner hollow portion of the inner hole 200b of the patient-customized abutment or the inner hole 200a of the inner hole filler 10 inserted into the inner hole 200a of the deformed inner abutment, , The identifiable indicator 30 is attached to the inner hollow portion 110 of the implant abutment inner hole filling material 10 in a conical or T-shape having a trapezoidal cross-section so as not to escape to the outside . ≪ / RTI >

11 is a side cross-sectional view showing an identifiable indicator having a unique color by adding pigment to the body of the implant abutment inner hole filler.

11, as a preferred embodiment of the present invention, a pigment is added to a body 100 of an implant abutment inner hole filling material 10 so as to match at least information (manufacturer, etc.) regarding the implant fixture An identifiable indicator 30 having a unique color can be produced.

The identifiable indicator 30 includes a unique color that is obtained by adding a color pigment to the body 100 of the inner hole filling material 10 of the implant abutment 10 so as to confirm information about the implant treatment, And can be applied to another indicator 30a by matching with at least the information of the implant fixture. In this case, the RFID tag 40 or the radiopaque material 50 may be included in the inner hollow portion 110 of the filler 10.

In the present invention, the RFID tag 40 capable of confirming the information and the position of the implant treatment includes information on the implant fixture such as manufacturer, product name, date of manufacture, standard (diameter and length) Information on implant abutment such as scan and CAD design file of abutment maker and manufacturing agency, abutment, maker and product name of material for making upper prosthesis, information of upper prosthesis such as CAD design file of manufacturing institution and upper prosthesis The inner hollow portion 110 of the implant abutment inner hole filling material 10 may be inserted into the inner hollow portion 110 or attached to the outer surface thereof.

The RFID tag 40 is connected to a reading unit 410 composed of a read / write unit 411, a reading unit transceiver unit 412, a memory unit 413, a reading unit control unit 414 and a display unit 415, A main server 420 including a processing unit 421, a server transmission / reception unit 422, an information storage unit 423 and a server control unit 424, a terminal 431 including an application program such as a home page or a portable smartphone application, Receiving unit 432, and an input / output unit, and a network system capable of network communication such as a wireless communication network, a LAN network, a WiBro network, and a ZigBee communication.

FIG. 12 is a system operation block diagram of the RFID tag, which can be inserted into an inner hollow portion of an inner hole filling material of an implant abutment according to the present invention or attached to an outer surface thereof.

12, as a preferred embodiment of the present invention, an implant abutment inner hole filling material 10 may be inserted into an inner hollow portion 110 or attached to an outer surface thereof, and the operation of the RFID tag The system 400 includes the RFID tag 40, the reading unit 410, the main server 420, and the input / output unit 430.

Preferably, the RFID tag 40 is passive, passive, active or semi-passive but requires no battery, and information on the implant treatment is input and stored, and information on the time of information update is included.

The reading unit 410 includes a read / write unit 411, a reading unit transceiver unit 412, a memory unit 413, a reading unit control unit 414, and a display unit 415. The read / write unit 411 receives the information on the implant treatment from the RFID tag 40, and the reader unit transmitter / receiver 412 transmits information on the received implant treatment to the main server. The memory unit 413 stores information about the received implant treatment, the display unit 415 displays information about the implant treatment, and the reader control unit 414 controls the configurations of the reader .

The main server 420 includes a comparison processing unit 421, a server transmission / reception unit 422, an information storage unit 423, and a server control unit 424. The server transmitting / receiving unit 422 receives the information on the implant treatment from the reading unit 410. The information storage unit 423 stores a plurality of patient information, and the comparison processing unit 421 receives the server transmission / 422, and searches the stored plurality of patient information to find patient information corresponding to the information on the received implant treatment. The comparison processing unit 421 compares the information on the implant treatment with the information on the update timing of the patient information, and updates the latest information with the latest personal information. That is, the information on the implant treatment updates the patient information. If the patient information is newer than the information on the implant treatment, the patient information is transmitted to the reading unit 410 through the server transmission / reception 422, Is transmitted to the RFID tag 40 by the read / write unit 411 of the reading unit 410 and updated and stored in the RFID tag 40. [

The input / output unit 430 includes a terminal 431 including an application program such as a home page or a portable smartphone application, and an input / output unit transceiver unit 432.

The latest information on the implant treatment and the patient information can be transmitted to the designated object 440 having the terminal 431 via the server transceiver 422 and the input / output transceiver 432. [ The designation object 440 includes a first designation object 440a including a medical institution and a prosthodontic manufacturing organization such as a dental clinic, a dental hospital, a general hospital dental clinic, and the manufacture and sale of an implant, (440b) including the police station, fire station, prosecutors' office, national health insurance corporation, and insurance company who want to check the identification and limited treatment information. Patient information may include 7 digits before the resident registration number, address, contact information, e-mail address, guardian information, insurance information, blood type, and the like. The server control unit 424 controls the above-described configurations of the main server 420. [

On the other hand, the information transmission / reception between the reading unit transmitter / receiver unit 412 of the reading unit 410 and the server transmission / reception unit 422 of the main server 420 and the transmission / reception unit 432 of the input / output unit can be performed by wireless Internet, LAN, WiBro, Communication can be performed through a network capable of network communication.

In the present invention, the RFID tag 40 and the operation 400 of the system are as follows. The read / write unit 40 of the reading unit 410 is inserted into the inner hollow portion 110 of the inner hole filling material 10 of the implant abutment inserted into the inner hole 200 of the implant abutment, And receives information on the implant treatment from the RFID tag 40. The memory unit 413 stores information about the received implant treatment.

Also, the display unit 415 displays information on the implant treatment, and the read unit transceiver unit 412 transmits information about the implant treatment to the main server 420. [

The server transmission / reception unit 422 of the main server receives the information about the implant treatment. At this time, the patient information of a plurality of patients is stored in the information storage unit 423.

The comparison processing unit 421 uses the information on the implant treatment to find patient information corresponding to the information on the implant treatment from the information storage unit 423 and compares the information on the implant treatment and the update timing ≪ / RTI >

As a result of the comparison, if the information about the implant treatment and the patient information are newer than the existing information, the server transmission / reception unit 422 updates and stores the updated information in the information storage unit 423, and when the confirmation request of the designation object 440 is received, And the patient information to the terminal 431 held by the designated object 440 via the input / output unit transmitting / receiving unit 432. [ The latest implant treatment information and patient information are transmitted to the reading unit 410 by the server transmission / reception unit 422 and the latest information is received by the reading unit transmission / reception unit 412 and stored in the memory unit 413 do.

Also, the display unit 415 displays the received latest information, and when the read / write unit 411 transmits the patient information to the RFID tag 40, the RFID tag 40 receives and updates the patient information.

The implant treatment information and patient information input by the first designation object 440a through the terminal 431 are transmitted to the server transmission / reception section 422 by the input / output section transmission / reception section 432, and the comparison processing section 421 The latest information is stored in the information storage unit 424. [

The patient inputs information on his / her implant treatment and patient information through a terminal 431 including an application program such as a homepage or a portable smartphone application which can be connected to the main server and transmits it to the server transceiver 422 And may transmit the latest information through the comparison processing unit to the information storage unit 423 or to confirm the information stored in the information storage unit 423.

An application program such as a homepage and an application for inputting and outputting information on the implant treatment and patient information through the read / write unit 411 of the reading unit 410 and the terminal 431 of the patient and the designation object 440 When accessing the main server 420 through the Internet, the security should be strengthened in order to confirm and restrict access rights to the identity and information of the user, and the information should be protected using various authentication procedures such as an official certificate and a mobile phone authentication.

In the present invention, the RFID tag is included in the implant cavity inner hole filling material inserted into at least one of the at least two implant abutment inner holes selected from the implant abutments in the patient's mouth, In addition to the information and location of the dentist, information on treatment for general dental treatment or oral health care, information on systemic diseases or medical treatment that the patient needs to be informed about, It is used to enter and confirm information about the medical treatment and insurance implants.

In the present invention, since the RFID tag is included in or attached to the hollow portion of the inner hole filling material inserted into one or more of the inner holes of the implant abutment selected from the implant abutments in the patient's mouth, It is possible to insert and demount easily according to the intention of the user. Considering that the method of inserting the RFID tag into the groove formed in the implant fixture is difficult to remove if the implant fixture is inserted into the alveolar bone and that the operation of the RFID tag in metal and moisture may not be convenient, tag embedded implant abutment screw hole filler may be more likely to be utilized.

In the present invention, the radioactive impermeable material 50 to be inserted in order to confirm the position of the inner hole filling material 10 with an identifiable indicator or an RFID tag inserted therein is made of polyisoprene 20% of trans isomer, zinc oxide (zinc-oxide 65%, gutta-percha or stopping made by mixing 10% of radiopaque material and about 5% of plastic material) is preferable.

The present invention also provides a method of fabricating an implantable abutment inner hole filler into which the identifiable indicator or RFID tag or radiopaque material is inserted.

In one specific aspect, the present invention provides a method of preparing an implant abutment, comprising the steps of preparing an extrusion or injection mold in the form of a tube or a pipe, which is standardized on the basis of the shape and size of the inner hole of the implant abutment; And injecting a thermoplastic resin having softening properties into a mold and extruding or injection molding the same in the form of a tube or a pipe; And inserting one or more selected from among the identifiable indicator, the RFID tag, and the radiopaque material into a hollow formed inside the body in the form of a molded tube or pipe, A method of manufacturing an implant abutment inner hole filler having a possible indicator or an RFID tag or a radiopaque material inserted therein.

In another specific aspect, the present invention provides a method of manufacturing a CNC precision processing apparatus, the method comprising: mounting the thermoplastic resin produced in the form of a round bar to a CNC precision processing equipment; And forming a standardized tube or pipe shape based on the shape and size of the inner hole of the implant abutment; And inserting one or more selected from among the identifiable indicator, the RFID tag, and the radiopaque material into a hollow formed inside the body in the form of a processed tube or pipe. A method of manufacturing an implant abutment inner hole filler having a possible indicator or an RFID tag or a radiopaque material inserted therein.

According to another aspect of the present invention, there is provided a method of designing an implant abutment, the method comprising the steps of: designing a three-dimensional CAD stl file in the form of a tube or pipe standardized on the basis of the shape and size of the hole of the implant abutment; Printing with a thermoplastic resin in a 3D printer machine capable of three-dimensional printing by applying the generated stl file, and printing the thermoplastic resin by using a hollow tube formed inside the body in the form of a completed tube or pipe, The RFID tag, or the radiopaque material, the method comprising: inserting the RFID tag or the radiopaque material into the implantable abutment; ≪ / RTI >

The present invention also provides a method of applying the identifiable indicator or an RFID tag or an implant abutment inner hole filler into which a radiopaque material is inserted to fill a patient.

In one specific aspect, the present invention provides a method of implanting an implant abutment, the method comprising: inserting a rubber ring into an implant hole of the implant abutment to measure a depth of the implant abutment inner hole; And inserting the inner hole filling material of the implant abutment in which the rubber ring is inserted into the inner hole of the implant abutment and moving the rubber ring so as to contact the inlet of the inner hole of the implant abutment, thereby displaying the depth of the inner hole; And removing the inner hole filling material of the implant abutment showing the depth of the inner hole out of the oral cavity and cutting the filling material perpendicular or obliquely to a long axis of the filling material at a distance of 1.0 mm to 3.0 mm from the rubber ring; And inserting the implant interior abutment filling material shortened by 1.0 mm to 3.0 mm from the depth of the implant abutment inner hole into the inner hole of the implant abutment again; And filling the upper portion of the implant abutment inner hole with the composite resin. The present invention also provides a method for filling the inner hole filling material with an implantable indicator or an RFID tag or a radiopaque material inserted therein.

FIG. 13 is an explanatory view illustrating a stent for radiography in which a hole filling material in an implant abutment including a radiopaque material is inserted, according to a preferred embodiment of the present invention. FIG.

As described above, the present invention provides a method for applying a hole filling material 10 in an implant abutment with a radiopaque material inserted therein to a radiographic stent 80 and a surgical stent.

In one specific aspect, the present invention provides a method of making an implant, comprising: pulling the oral condition of a patient to be treated with an implant with an alginate impression material; And producing a diagnostic model from the impression material; And arranging the tooth using a temporary crown formed with an artificial tooth or a hole in an occlusal surface on a part of the diagnostic model to be implanted, or carving a tooth shape with wax; And a diagnostic model in which an artificial tooth or temporary crown is arranged or a tooth shape is wax-sculpted is patterned with an alginate impression material; And making a replica model from the patterned impression; And softening the plate-shaped thermoplastic resin in the replica model to adhere to the replica model in a vacuum state; And a step of appropriately cutting and removing the thermoplastic resin which is in close contact with the tooth form and popularized; And preparing and polishing a thermoplastic resin to manufacture a stent in which a hollow portion is formed; And completing the stent for radiography by injecting PMMA resin on the inner surface of the stent and locating the hole filling material in the implant abutment with the radiopaque material inserted therein and curing the PMMA resin according to the position and inclination to place the implant fixture ; And a step of radiographing a necessary dental CBCT after attaching the stent for radiography to a patient's mouth; And dental CBCT imaging and radiography, and then pushing and removing the filling material of the implant abutment inserted into the stent for radiography using a dental instrument to use in the implant surgery procedure; And removing a tooth occlusal surface or a sagittal surface of the radiographic stent from which the inner hole filling material of the implant abutment has been removed so as not to be disturbed when drilling in the implant surgical procedure, There is provided a method of applying an abutment inner hole filler to a radiographic stent and a surgical stent.

While the present invention has been particularly shown and described with reference to exemplary embodiments thereof, it is to be understood that the invention is not limited to the disclosed exemplary embodiments, but, on the contrary, It is possible to appropriately change the category to be interpreted.

10 Implant abutment inner hole filler in which at least one selected from an identifiable marker, an RFID tag, and a radiopaque material is inserted.
11 Implant abutment in which the external surface of the body is in a rectangular shape Internal hole filling material
12 Implant abutment in which the external surface of the body is in an isosceles trapezoidal shape Internal hole filler
13 Implant abutment with only one end clogged Inside hole filling
14 Implant abutment consisting of a membrane with a hole at the center only at one end Inner hole filler
15 Implant abutment with modified internal hollow part Internal hole filling material
15a Implant abutment with a circular outer surface on the upper part of the body Inner hole filling material
15b Implant abutment with a rectangular outer surface at the upper part of the body Inner hole filling material
15c Implant abutment in which the outer surface of the upper part of the body is elliptical Inside hole filling material
100 body
111 inner hollow portion
20 Implant abutment An implant abutment having an inner hole of a shape corresponding to an inner hole filling material
21 UCLA Abortion
22 Cement-retained abutment
23 SCRP type abutment
Abutments with 24 wedge connections
25 Attachment for attachment
200 Implant abutment inner hole
200a inner hole of the existing abutment
200b internal cavity of patient-specific abutment
200c Attachment abutment inner groove
210 Connections below the implant abutment
30 Identifiable Indicators
40 RFID tag
400 RFID tag operating system
410 reading unit
411 Lead /
412 Reading section Transmission /
413 memory section
414 Reading section control section
415 display section
420 main server
421 comparison processing unit
422 server transmission /
423 Information storage unit
424 server control section
430 I /
431 terminal
432 Input / output section Transmission /
440 Assignee
440a 1st Designated Target
440b Second designation target
50 Radiopaque material
60 upper prosthesis
70 Composite resin
80 Stent for radiography

Claims (28)

An implant abutment inner hole filling material inserted in an inner hole of the implant abutment and formed in the form of a tube or a pipe; And
An identifiable indicator or an RFID tag or a radiopaque material,
Characterized in that the implant is inserted into an inner hollow of the implant abutment inner hole filler, regardless of its position or order, and the filler is inserted into a correspondingly shaped inner hole or recessed implant abutment. Or an implant abutment in which an RFID tag or a radiopaque material is inserted. The method according to claim 1,
The implant abutment inner hole filling material is in the form of a tube or a pipe in which a thermoplastic resin forms a body and a hollow portion is formed inside the body, and the body is in the shape and shape of the inner hole of the implant abutment Standardized
Identifiable indicators or implants embedded in RFID tags or radiopaque materials. The method according to claim 1,
Wherein the implant filler inner hole filler is inserted into the inner hollow portion or inserted into the inner hollow portion by at least one of an identifiable indicator, an RFID tag, and a radiopaque material. Implant abutment with implant or radiopaque material. The method according to claim 1,
The implant abutment inner hole filler is in the form of a tube or pipe formed with a hollow portion inside and the inner shape is provided with a space that can include an identifiable indicator, an RFID tag, a radiopaque material, And the outer shape is variously shaped to correspond to the shape of the inner hole of the implant abutment into which the inner hole filling material is inserted. The RFID tag or the radiopaque material This inserted implant abutment inner hole filler. The method according to claim 1,
Wherein the implant abutment inner hole filler is configured such that both ends of the filler material are not clogged or only one end is clogged, or an RFID tag or an implant abutment with a radiopaque material inserted therein Inner hole filling material. The method according to claim 1,
The implant abutment inner filler may be a UCLA abutment made of a direct prosthesis and a cement-like abutment or an SCRP-type abutment to which the upper prosthesis is attached by dental cement to the screw of the implant fixture, Wherein the insert is inserted into a hole formed in the interior of the abutments. ≪ RTI ID = 0.0 > 11. < / RTI > The method according to claim 1,
The implant abutment inner hole filler is larger than the pre-fabricated abutment and can be made as close to the shape of the upper prosthesis as a customized abutment is screwed onto the implant fixture Is inserted into the patient-customized abutment inner hole formed in various sizes and shapes including screw holes in consideration of the external shape of the abutment, the position and size of the screw hole, and the inclination inside the patient-customized abutment Identifiable indicators or implants embedded in RFID tags or radiopaque materials. The method according to claim 1,
Wherein the implant abutment inner hole filling material is not screwed to the implant fixture but has a wedge-shaped connection portion under the implant abutment so that the implant abutment can be inserted into the fixture by applying a force from above, Wherein the insert is inserted into the inner hole, the inner hole filling the implant abutment with the RFID tag or the radiopaque material inserted therein. The method according to claim 1,
The inner hole filling material of the implant abutment may be formed of a material having a threaded hole formed in the lower portion of the attachment abutment connected to the implant fixture when the upper movable prosthesis such as an implant- Is inserted into an inner hole formed in a side surface of the attachment abutment, so that an RFID tag or an implant abutment inner hole filler in which a radiopaque material is inserted is inserted. 3. The method of claim 2,
The thermoplastic resin may be at least one selected from the group consisting of polypropylene (PP), polycarbonate (PC), polyoxymethylene (POM), polyvinylidene fluoride (PVDF), polymethyl methacrylate ), Polymethyl 2-methylpropenoate, polylactic acid (PLA), polyglycolic acid (PGA), polycaprolactone (PCL), polylactic acid- Wherein the implantable marker is one or two selected from polylactic-co-glycolic acid (PLGA) or an RFID tag or an implant abutment inner hole filler having a radiopaque material inserted therein. 11. The method according to any one of claims 1 to 10,
The identifiable indicator is used to match the information of the implant fixture such as manufacturer, product name, specification (diameter and length) of the implant fixture, and information of the implant abutment such as the manufacturer and the manufacturing agency of the implant abutment, Wherein the insert is inserted into an inner hollow portion of the inner hole filling material of the implant abutment, and the RFID tag or the implant abut portion into which the radiopaque material is inserted, Inside hole filling material. 11. The method according to any one of claims 1 to 10,
The identifiable indicator matches the information of the implant fixture such as manufacturer, product name, standard (diameter and length) of the implant fixture, so that a unique color is added to the body of the implantable abutment inner hole filling material And an identifiable indicator including various numbers such as a unique number and a code is inserted into an inner hollow portion of the implant abutment inner hole filling material. The RFID tag or the RFID tag or the radiopaque material is inserted Implanted abutment inner hole filler. 12. The method according to any one of claims 1 to 11,
The identifiable indicator may include one or more materials selected from gold alloy, titanium, zirconia, and synthetic resin suitable for a living body and capable of confirming information regarding implant treatment, and may include a material having antibacterial and deodorizing effect Or an implantable abutment with an RFID tag or radiopaque material embedded therein. 12. The method according to any one of claims 1 to 11,
And an identifiable indicator inserted in an inner hollow portion of the implant abutment inner hole filler and conical and T-shaped in shape with a trapezoidal cross-section so as to be caught by the lower portion and not escape to the outside. Or an implant abutment in which an RFID tag or a radiopaque material is inserted. The method according to claim 1,
The RFID tag includes information on implant fixtures such as manufacturer, product name, date of manufacture, size (diameter and length) of the implant fixture, date of implant and the like, as well as the manufacturer and manufacturer of the implant abutment, the scan of the abutment, In order to easily identify the information of the upper prosthesis such as the information of the abutment, the manufacturer and the product name of the material for manufacturing the upper prosthesis, the CAD design file of the manufacturing facility and the upper prosthesis, the inner hollow of the implant hole inner hole filling material An implantable indicator or RFID tag or an implant abutment inner hole filler having a radiopaque material inserted therein. 16. The method according to claim 1 or 15,
Wherein said RFID tag is included in said implant abutment inner hole filler inserted in one or more of said implant abutment inner holes selected from among implant abutments in the oral cavity of a patient, Or an implant abutment in which an RFID tag or a radiopaque material is inserted. 17. The method of claim 1, 15 or 16,
Wherein the RFID tag is included in the implant cavity inner hole filling material inserted into at least one of the at least two implant abutment inner holes selected from the implant abutments in the patient's mouth, An implantable indicator or an RFID tag or an implant abutment in which a radiopaque material is inserted, characterized by being capable of monitoring and analyzing a patient's abnormal function habits such as irritation. 17. The method of claim 1, 15 or 16,
Wherein the RFID tag is included in the implant cavity inner hole filling material inserted into at least one of the at least two implant abutment inner holes selected from the implant abutments in the patient's mouth, Wherein the static and dynamic positional relationship between the upper and lower teeth can be monitored and analyzed via an RFID tag or an implantable abutment with an RFID tag or a radiopaque material inserted therein. 17. The method of claim 1, 15 or 16,
Wherein the RFID tag is included in the implant cavity inner hole filling material inserted into at least one of the at least two implant abutment inner holes selected from the implant abutments in the patient's mouth, Is capable of monitoring and analyzing the toothbrushing pattern for brushing with a toothbrush including an motion sensor through an implantable indicator or RFID tag or an implant abutment inner hole filler having a radiopaque material inserted therein. 17. The method of claim 1, 15 or 16,
Wherein the RFID tag is included in the implant cavity inner hole filling material inserted into at least one of the at least two implant abutment inner holes selected from the implant abutments in the patient's mouth, An implantable indicator or an RFID tag or an implant abutment in which a radiopaque material is inserted, characterized in that it is utilized in a patient management system in an institution such as the patient's reception of the patient, 17. The method of claim 1, 15 or 16,
Wherein the RFID tag is included in the implant cavity inner hole filling material inserted into at least one of the at least two implant abutment inner holes selected from the implant abutments in the patient's mouth, An RFID tag or an implant abutment having an RFID tag or a radiopaque material inserted therein, which is characterized by being capable of monitoring and analyzing social and cultural activities including activities of people's daily life through Filling material. 17. The method of claim 1, 15 or 16,
Wherein the RFID tag is included in the implant abutment inner hole filling material inserted into at least one of the at least two implant abutment inner holes selected from the implant abutments in the patient's mouth and the dental insurance scaling treatment, An identifiable indicator or an RFID tag or a radiopaque material, characterized by the ability to quickly and easily identify information (such as the number of treatments and the number of times) about complete and partial dentures, maintenance and repair dentistry, and dental insurance implant care This inserted implant abutment inner hole filler. 17. The method of claim 1, 15 or 16,
Wherein the RFID tag is included in the implant abutment inner hole filling material inserted into at least one of the at least two implant abutment inner holes selected from the implant abutments in the patient's mouth, An identifiable indicator or an RFID tag or an implant abutment with a radiopaque material inserted therein, characterized in that it can quickly and easily identify treatment information for management, information on a systemic disease or medical treatment of a patient who needs to be informed Hole filling material. 24. The method according to any one of claims 1 to 23,
The RFID tag includes a read unit including a read / write unit, a read unit transmit / receive unit, a memory unit, a read unit control unit and a display unit, a memory unit including a server transmission / reception unit, a comparison processing unit, an information storage unit and a server control unit, And an input / output unit configured by an input / output unit transmitting / receiving unit, and a network system capable of network communication such as a wireless communication network, a LAN network, a WiBro network, and a ZigBee communication. And an implantable abutment with an RFID tag or radiopaque material embedded therein. 25. The method of claim 24,
Wherein the operation system of the RFID tag comprises the RFID tag, the reader, the main server, and the input / output unit, wherein the RFID tag, or the RFID tag, or the implantation abutment of the implant abutment with the radiopaque material inserted therein. The method according to claim 1,
The radiation-impermeable material can identify the position of the hole filling material in the implant abutment. It can be confirmed that 20% of transisomer of polyisoprene, which is natural state of rubber, zinc oxide (zinc-oxide 65% Characterized in that it comprises a gutta-percha or stopping made by mixing 10% and about 5% of a plastic material, or an RFID abutment or an RFID abutment with a radiopaque material inserted therein Inside hole filling material. 27. The method of claim 1 or 26,
The radiopaque material may identify the location of the hole filling material in the implant abutment, and all or a part of the radiopaque material is inserted into the inner hollow part of the hole filling material in the implant abutment. Or an implant abutment in which a radiopaque material is inserted. 27. The method of claim 1 or 26,
The gum bone condition at a site to be implanted in the implant fixture is analyzed by inserting the hole filling material in the implant abutment into which the radiopaque material is inserted into the stent for radiography and the diameter of the implant fixture to be placed and the length A stent for radiography that can be easily and easily manufactured, and can be quickly and easily modified with a surgical stent after radiography. An RFID tag or an implantable abutment with a radiopaque material inserted therein Inside hole filling material.

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