RU180051U1 - DENTAL IMPLANT - Google Patents

Abstract

The utility model relates to medicine, in particular to dentistry and can be used for prosthetics. The dental implant is made of bulk nanostructured material, which is a structure consisting of a threaded rod (intraosseous part), which provides thread self-cutting in the bone tissue of the jaw, and extraosseous parts fastened by screw connection, while the thread of the rod can be made single or double, and in the lead-in part of the surface of the rod grooves are made, forming cutting edges and located along the axis or along a helical line relative to the axis of the rod, in the upper part of the zhnya sbeg thread formed on the rod are provided with holes of 1 mm diameter with axes arranged perpendicular to the rod axis.

Description

The utility model relates to medicine, in particular to dentistry and can be used for prosthetics.

The installation of implants is a modern method of prosthetics, which does not require grinding of adjacent teeth and absolutely does not affect their condition. An artificial pin is implanted into the bone, which plays the role of the root. After he has taken root, you can proceed to prosthetics - the installation of a crown. The advantages of this method are: long life of the implants, no need to injure neighboring healthy teeth, the implant fully restores the functions of the lost tooth, can act as a support for bridges, while chewing food, the artificial root exerts natural pressure on the jaw bone, which is the prevention of atrophy bone tissue, it is possible to choose a crown from any material, as well as choose a shade that is as close as possible to the color of the patient’s natural enamel.

From the patent for utility model No. RU 143677, a dental implant implant is known having a body, a broadband thread, a positioner, characterized in that the broadband thread is made expandable from the positioner, allowing the implant to be fixed at three points of the cortical bone, having an uneven pitch with a distance ratio between the first and the third strip to the distance between the second and fourth strip 1: 2, in the opposite positioner of the end face of the implant body there is a cone extending inside the body of the implant, made having an internal screw thread which allows to connect the implant superstructure.

The disadvantage of this implant is the need to form a hole in the bone for implant placement, which increases the implant placement procedure and the patient trauma over time.

From a patent for utility model No. RU 25396, a dental implant is known comprising a housing with a helical surface, one of the parts of which is tapered and provided with at least three longitudinal not-through grooves, this part being connected to a cylindrical surface passing into the second conical surface having a taper at the end end, moreover, this conical surface is provided with a self-tapping thread coated with bioceramics, while part of this conical surface is provided with a longitudinal groove, the ratio of the length of the longitudinal non-through grooves to the total length of the implant is in the range from 0.24 to 0.17, the ratio of the length of the screw part to the total length of the implant is in the range from 0.47 to 0.61, and the ratio of the length of the longitudinal groove to the total length of the implant lies in the range from 0.29 to 0.22.

The disadvantage of this implant is the need to use great effort to screw this implant.

The closest analogue is the dental implant described in patent No. RU 25396.

The objective of the claimed utility model is to create an implant that is devoid of the above disadvantages and has a high level of consumer properties.

The technical result achieved by the implementation of this utility model is to create an implant that provides thread self-cutting in human bone tissue when it is installed.

The technical result is achieved by the fact that the implant is made of bulk nanostructured material, which is a structure consisting of a threaded rod (intraosseous part) (1), which provides thread self-cutting in the bone tissue of the jaw, and extraluminal parts fastened by screw connection, while the thread of the rod (2) can be made single or double, and in the input part of the surface of the rod grooves (3) are made, forming cutting edges (4) and located along the axis or helix relative to itelno axis of the rod, in the upper part of the rod is made thread runout, the rod is provided with holes of 1 mm diameter with axes arranged perpendicular to the rod axis.

The essence of the utility model is illustrated in the drawing.

FIG. 1 - intraosseous part of the implant with a thread.

The implant is made of bulk nanostructured titanium VT-6 with a characteristic grain size of not more than 0.1 μm, microhardness 2000-2500 MPa, tensile strength 850-1000 MPa and yield strength 900-1050 MPa.

To reduce the adverse effects on the patient’s body and prevent rejection of the implant, the implant is coated with a bioinert coating, which is titanium oxides.

To improve tissue repair processes around the installed implant, the implant can be coated with a bioactive coating of a nanostructured carbon-containing coating up to 40 microns thick with an adhesive strength of at least 25 MPa to the surface of the implant.

Installation of a dental implant is as follows. A groove is formed in the patient’s gum with boron, then an implant is screwed into the formed groove with the help of an implant guide. Due to the self-threading in the bone tissue of the jaw, the implant is securely fixed and held, the operation to install the implant is carried out in one step with minimal tissue injury.

Claims (3)

1. A dental implant made of titanium and consisting of intraosseous and extraosseous parts, characterized in that it is made of bulk nanostructured titanium grade VT-6 with a characteristic grain size of not more than 0.1 μm, microhardness 2000-2500 MPa, tensile strength 900 -1050 MPa and a yield strength of 800-1100 MPa, coated with a bioinert coating and is a structure consisting of a threaded rod that provides self-cutting threads in the bone tissue of the jaw, and extraluminal parts fastened by screw connection, while the thread of the rod is single-threaded, and grooves are made in the inlet part of the surface of the rod, forming cutting edges and located along a helical line relative to the axis of the rod, thread escape is made in the upper part of the rod, holes with a diameter of up to 1 mm are made on the rod with axes perpendicular to the axis of the rod . 2. The dental implant according to claim 1, characterized in that the bioinert coating consists of titanium oxides. 3. The dental implant according to claim 1, characterized in that it has a bioactive coating consisting of a nanostructured carbon-containing coating with a thickness of up to 40 μm with an adhesive strength of at least 25 MPa to the surface of the implant.

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