RU2140227C1 - Dental implant - Google Patents

Abstract

FIELD: stomatology; applicable in restoration of teeth rows with the help of dental prostheses with rest on implants. SUBSTANCE: titanium implant, mainly from VTI-O consists of intramaxillary rod and intraoral head. Both members are interconnected by means of thread. Shape of intraoral support allows installation of artificial tooth with inclination to any plane. Shape of intramaxillary rod reduces injury to tissue in small cavity of alveolar process. Dental implant ensures also easy replacement of orthopaedic structure installed on intraoral support without use of composite materials in connection with structure breakage and in cases of functional failure of dental implant. Application to surface of titanium intramaxillary rod coating with calcium hydroxyapatite increases biological compatibility of implant with osseous tissue of jaw alveolar process. EFFECT: higher efficiency. 3 cl, 4 dwg

Description

 The invention relates to dentistry, and is used when restoring dentitions using prostheses based on implants.

 A known dental implant made of titanium, consisting of an intra-maxillary shaft (hereinafter the shaft) and an intraoral support (hereinafter the support), on which the tooth crown is mounted. A section of the rod located in the alveolar process of the jaw has the shape of a round cylinder with a screw thread. The free end of the rod ends with a truncated cone with a through hole. The site of the rod located at the edge level of the alveolar process has a conical shape. The portion of the intraoral support attached to the shaft has a smooth conical surface, the marginal portion of the support (on which the crown is mounted) has the shape of a hexagon. The support is attached to the intra-maxillary rod by means of a central screw, for which a socket is made along the vertical axis in the rod, and the support is hollow. (Quintessence. International Dental Journal. - M: Quintessence, - T2. N1, - 1991 - p. 137-143). In the process of compensating for a lost tooth, an intramaxillary shaft is first installed. After osseointegration of the rod, an intraoral support is installed, followed by orthopedic treatment. To ensure the rigidity of the connection of the mandibular shaft and the intraoral support during the replacement of the dentition, the central screw is repeatedly tightened. To ensure the vital functions of the organs of the dentition, it is necessary that the dentition possess unity and stability. The unity of the dentition is ensured by interdental contacts, alveolar processes and periodontal.

 In ensuring the stability of the dentition, the character of the location of the teeth, the direction of their crowns and roots play a significant role. So, for example, the teeth of the lower jaw are tilted by the crowns inward and by the roots outward, in addition, the crowns of the lower molars are tilted forward and the roots are backward. The teeth of the upper jaw crowns tilted outward, and the roots inward.

 The known dental implant does not ensure the stability of the dentition, because the tooth crown is mounted on a hexagonal hollow support, rigidly connected by a screw along the central axis, which eliminates the possibility of tilting the crown in the desired direction. In the known device, the installation direction of the crown is carried out only in the vertical plane by grinding the hexagonal support. In addition, the free end of the intra-maxillary rod, having a conical shape with a through hole, increases the time of the osseointegration of the rod into the tissue of the alveolar bone.

 The task of the invention is the creation of a dental implant that meets the natural anatomical and functional features of the dentition of the person.

The technical result achieved in the process of solving the problem is to increase the stability of the dentition and reduce the time of osseointegration of the dental implant. The required technical result is an increase in the stability of the dentition is achieved by the form of the intraoral support, which is made in the form of a vertical rod with a supragingival horizontal focus and a cylindrical head with a neck, while the dimensions of the neck and head are in the following proportions: the diameter of the neck (D _w ) is 0.63 head diameter (D _g ); neck height (H _w ) is equal to 0.16 head height (H _g ). The inventive shape and aspect ratio of the head and neck allow you to bend the intraoral support in its cervical region at the required angle in any direction without distorting the shape of the head of the intraoral support during bending.

 Another technical result - reducing the time of osseointegration - is achieved by the spherical shape of the surface of the free end of the mandibular rod and the annular groove performed on the interface between the cylindrical and spherical surfaces of the rod. The free end of the rod, having the claimed form, provides tight contact of the osseointegrated rod with the tissue of the alveolar process, eliminates tissue stress concentrators that cause trauma to the latter, and therefore, a longer process of osseointegration of the rod. The presence of an annular groove is also aimed at achieving the required technical result, since provides a smooth transition of a cylindrical surface into a spherical one. In addition, the claimed invention provides an additional technical result - improving the biocompatibility of the stem and tissue of the alveolar process due to the application of a coating of calcium hydroxyapatite with high bioenergy properties on the titanium intramaxillary rod.

The essential features characterizing the claimed device:
restrictive - a dental implant made of titanium consists of an intra-maxillary rod and an intraoral support, interconnected by means of a thread; a section of the rod located in the alveolar process of the jaw has the shape of a round cylinder with a screw thread; a section of the rod located at the edge level of the alveolar process has a conical shape; a blind threaded hole is made along the central vertical axis of the rod;
distinctive - the free end of the mandibular rod ends with a spherical surface, an annular groove is made at the interface between the spherical and cylindrical surfaces; Calcium hydroxyapatite is coated on the surface of the rod, the intraoral support is made in the form of a vertical rod with a supragingival horizontal stop and a cylindrical head with a neck having a blind hole with a thread located along the central vertical axis of the head, while the dimensions of the neck and head have the following ratios: diameter neck (D _W ) is equal to 0.63 of the diameter of the head (D _g ), the height of the neck (H _W ) is equal to 0.16 of the height of the head (H _g ), and a thread is made on the outer surface of the vertical support rod.

 The essence of the claimed invention is illustrated by graphic material, where in FIG. 1 shows the implant rod of the implant, FIG. 2 shows the intraoral support of the implant, FIG. 3 illustrates the installation of a plug screw, and FIG. 4 shows a diagram of the implant placement in the alveolar bone of the jaw.

 The device contains: an intra-maxillary rod made in the form of a round cylinder - 1 with a screw thread - 2, the free end of the rod ends with a spherical surface - 3 and an annular groove - 4, at the edge level of the alveolar process, the rod has a conical surface - 5, along the central vertical axis blind threaded hole - 6, closing until the end of the osseointegration process, with a dummy screw - 7 intraoral support consists of a vertical rod - 8 with a thread - 9, a horizontal supragingival stop - 10, a cylindrical head - 11 with a neck - 12, a blind hole with a thread - 13 is made along the central vertical axis of the head. A crown - 14 is mounted on the horizontal supragingival stop - 10 and fixed to the intraoral support by means of a screw - 15. All implant construction elements are made of titanium VT 1-0. In addition, calcium hydroxyapatite is coated on the surface of the mandibular rod.

 In the hole prepared for implantation of the alveolar bone of the jaw, a self-cutting intra-maxillary rod - 1 is inserted, while the rod is installed at the level of the alveolar bone of the jaw. Then, a dummy screw is screwed into the internal cavity of the maxillary rod - 7 until the osseointegration process is completed, which is subsequently replaced by a vertical rod - 8 with a thread - 9 intraoral support, screwed until the horizontal supragingival stop is in contact - 10 with the surface of the conical section - 5 of the maxillary rod at the level of the alveolar process of the jaw. After installing the intraoral support in the cavity of the maxillary rod, the direction of the crown is chosen, for which the angle of the cylindrical head is determined - 11 and the plane of its inclination. Then the intraoral support is removed from the cavity of the maxillary rod and on a special device the head is bent in its cervical region - 12 in the selected direction. The thus prepared head is again screwed into the cavity of the maxillary rod, an orthopedic structure - 14 is installed and fixed with a screw - 15.

 Thus, the claimed dental implant, in addition to achieving the required technical result, provides ease of removal of the orthopedic structure mounted on the head without the use of composite materials, in case of failure, in the case of functional unsuitability of the dental implant, provides complete sealing of the implant installation, because all internal surfaces of the implant are made deaf, not in contact with the bone tissue of the alveolar process, as well as not communicating with each other. The site of the maxillary rod, located at the regional level of the alveolar process, is closed by the mucous membrane, isolating the hole of the installation of the maxillary rod from the oral cavity. Application of a coating of calcium hydroxyapatite to the maxillary titanium rod increases the biocompatibility of the implant with the bone tissue of the alveolar bone.

Claims (3)

 1. A dental implant made of titanium, consisting of an intra-maxillary shaft and an intraoral support, wherein the portion of the intraoral shaft located in the alveolar process of the jaw has the shape of a round cylinder with a screw thread, and the area located at the edge level of the alveolar process has a conical shape, a blind hole with a thread is made along the central vertical axis of the rod, while the intra-maxillary rod and the intraoral support are interconnected by means of a thread, characterized in that at the junction of the cylindrical and spherical surfaces, an annular groove is made, the intraoral support consists of a vertical rod with a supragingival horizontal stop and a cylindrical head with a neck having a blind hole with a thread located along the central vertical axis of the head, while the sizes of the head and neck are in the following ratios: the diameter of the neck is 0.63 of the diameter of the head, the height of the neck is 0.16 of the height of the head, and aruzhnoy surface of the vertical support rod affixed thread.  2. The dental implant according to claim 1, characterized in that the use of titanium grade VT1-0.  3. A dental implant according to claims 1 and 2, characterized in that the surface of the maxillary shaft is coated with calcium hydroxyapatite.

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