RU2690594C1 - Dental implant - Google Patents

Abstract

FIELD: medicine.SUBSTANCE: invention refers to medicine, namely to surgical and orthopedic dentistry, and can be used for dental prosthetics of patients with partial or complete absence of teeth. Dental implant consists of the intraosseous and supragingival parts. Intraosseous part is represented by an apical and a precervical part, the apical part has a thread with a triangular profile with angle of 45 degrees and pitch of 0.4 mm, and the precervical part is in the form of a truncated cone with a multistart rounded thread in the direction from the supragingival part to the apical end. Supragingival part of the implant is made in the form of a truncated cone coinciding with the implant axis, with an angle at the vertex of cone of 6 degrees. There is a circular round shoulder with width of 0.5 mm, having angle of 135 degrees, at the point of transition of the intraosseous and supragingival parts. Monolithic implant is made by casting from nano-sized alloy containing in at%: Ti 71.0–74.0, Nb 19.0–23.0, Ta and/or Zr 4.0–9.0.EFFECT: invention provides uniform pressure in the cortical and spongy bone layers with stable fixation of the implant, creation of dosed bone tissue compression, uniform load distribution and increase of primary fixation force of the implant.1 cl, 1 dwg

Description

The invention relates to medicine, and personalized to surgical and orthopedic dentistry, and can be used for dental prosthetics of patients with partial or complete absence of teeth.

Known dental implant, made from a material based on ceramic zirconium dioxide (US Patent No. 628,0193 from 08.28.01, A61C 8/00). This is a cylindrical implant with internal and external screw threads. For its installation requires technological elements made specifically for this implant. The disadvantages of the implant are the complexity of the design and the presence of stress concentrators created by external threading, which leads to an injury to the bone tissue of the implant bed.

From the prior art known dental implant, consisting of interconnected by means of a threaded connection of the intraosseous part of the thread and out-of-part or head of the implant with internal thread. The out-of-bone portion or the head of the implant contains along the longitudinal axis an internal threaded hole and an internal hexagon (Patent RF 2273464).

Known dental implant consisting of interconnected by means of a planting cone and a threaded joint of the intraosseous part and the extraoscapular part, while the intraosseous part contains a conical cervical part with a conical multiple thread and an apical part with a thread pitch of 0.75-1.5 mm, and an extra bone posterior the part successively consists of the following elements: a truncated landing cone with a thread, a gum cone, a coronal part, having a cylindrical corbel, a circular ledge and a truncated cone with an internal second thread (Patent RU №2204356, A61S 8/00, 2001).

Known intraosseous implant, consisting of the apical part, with wide threads and the cervical conical shape, with a conical multiple thread, with the introduction of which in the bone tissue creates compression and vertical traction between the apical thread and the cervical part, which are different in bone density , the implant coils under the influence of the chewing load are subjected to elastic deformation with the formation of compression and tension zones, which leads to the formation and increase of bone tissue (RF patent 2269970).

The disadvantages of these inventions is the material from which they are made, which has a significant difference in the physicomechanical properties of implants and perceiving bone tissue, and the mechanism of compression and stretching of the bone that can lead to an overload of bone tissue. Today, in modern dentistry, the search for construction materials for dental implants continues, despite the excellent biocompatibility of titanium alloys and ceramics. The material for bone implants must meet the requirements of biomechanical and biochemical compatibility with bone tissue. This means that it should be similar to it in mechanical properties (have a Young's modulus of 10-40 GPa and exhibit a super-elastic effect of at least 0.5%), contain only safe components that are approved for medical use, and have high corrosion resistance in environments organism. One of the most common materials for the manufacture of implants - pure titanium. This material has several advantages: good mechanical properties; low specific weight; high biocompatibility due to the formation on the surface of a strong protective bioinert film of titanium dioxide. At the same time, according to its mechanical properties, titanium is poorly compatible with bone, in particular, it has a higher Young's modulus (105 GPa). This leads to the fact that during operation in the “bone-implant” system, most of the load falls on the implant, as a result of which the bone tissue is not exposed to mechanical stresses of the required magnitude, which leads to a gradual resorption of the bone and weakening the implant fixation.

Metal-ceramic bioimplant is known using zirconium dioxide (Patent RF №2132202 from 06.26.99, A61L 27/00). Ceramic coating improves the properties of the implant regarding the biocompatibility of the implant with bone tissue. The use of metals for dental implants is undesirable, since the thermal and electrical conductivity levels the positive property of the metal - strength.

Materials for implants based on ceramic zirconium dioxide and implants are presented in Japanese patents (JP 9239020 1997-09-16, JP 3186282 1991-08-14, JP 1203281 1989-08-16, JP 59112908 1984-08-08).

Dental implant based on ceramic zirconium dioxide, presented in the international patent (WO 9917675 1999-04-15), has a very complex structure.

Known dental osteointegrable implant with enhanced bioinert properties (US Pat. Of the Russian Federation No. 2185125 from 20.05.02, A61C 8/00). The implant contains bone and extra-bone parts made of a hardened titanium alloy, a 10-20 μm thick coating is applied to the outer surface of the intra-bone part, the implant has a cylindrical structure characterized by an uneven distribution of pressure on the bone tissue, which is a significant disadvantage. In addition, metallic titanium has a low density compared to a heavy HSCT crystal (6 and 16 g / cm3, respectively) and, consequently, worse osseointegrability, since the higher the specific gravity of the implant material, the better osteointegration.

From the prior art known intraosseous implant with shape memory for installation in the hole of a multi-root tooth or in adjacent holes of single-rooted teeth of the upper or lower jaw consists of a supporting head in the form of a truncated cone with grooves and intra bone. The intraosseous part is made in the form of an S-shaped ribbon, the contours of the intraosseous part in the horizontal plane are H-shaped with rounded sides, with active elements in the upper and lower half of the intraosseous part, to the left and right of the vertical axis of the implant. The invention allows to increase the primary stability and stability of the structure to chewing loads, adaptation of the implant to the anatomical and topographic features of the tooth hole (RF Patent No. 2513690).

Closest to the proposed invention is a single-stage universal dental implant contains intraoral, periosteal and intraosseous parts, made as a single unit. The intraosseous portion has an apical end, made in the form of a hemisphere. The implant is made of a partially stabilized zirconium dioxide crystal with a nanostructure, whose crystallographic axis <100> coincides with the implant axis, the surface of the intraosseous part is wavy and its vertical profile in the direction from the periosteal part to the apical end is an arc of circles with decreasing radius, R11> R12> R13> R14>, with the tangent to the circles being with the implant axis angle ∞1 = 8-10 °, the transition from one convex arc to another smoothing n concave with respect to the axis of the implant by an arc of a circle of radius R21111.1R11, R22≅1,1R12, R23≅1,1R13, R24≅1,1R14, the vertical profile of the periosteum of the implant is an arc concave with respect to the axis of the implant of a circle radius R3≅1,5-1,6R11, 1/4 of the implant portion of the implant, adjacent to the intraoral part, is made in the form of a truncated cone facing the implant axis, with which the cone generator forms an angle of ∞2 = 18-20 ° (RF Patent №2284790).

The problem to which the invention is directed is a one-stage dental implantation with a system that has biomechanical and biochemical compatibility with bone tissue, followed by dental prosthetics.

The technical result of the invention is the provision of uniform pressure in the cortical and spongy layers of the bone with a stable fixation of the implant, the creation of a dosed compression of bone tissue, a uniform distribution of loads and an increase in the force of the primary fixation of the implant. The technical result of the invention is achieved due to the fact that the dental implant consists of intraosseous and supragingival parts, while the intraosseous part is represented by the apical and cervical part, the apical part has a triangular profile with an angle of 45 degrees and a pitch of 0.4 mm forms with multiple rounded threads in the direction from the supragingal part to the apical end, the superstructure of the implant is made in the form of a truncated cone, facing the axis of the implant, with an angle relative to implant axis 6 degrees at the transition intraosseous and supragingival part has a circular rounded shoulder width of 0.5 mm having an angle of 135 degrees, wherein the implant is made by monolithic casting of an alloy containing nanoscale in at. %: Ti 71.0-74.0, Nb 19.0-23.0, Ta and / or Zr 4.0-9-9.0.

The advantage of the proposed design lies in both the structural features of the implant and the structural material. The large thread pitch of the apical part of the implant and the conical rounded shape of the cervical part are aware of the compression between themselves and the condensation of the bone tissue around the implant, which allows it to be used in patients with different types of bone. But unlike the prototypes, the proposed dental implant is made of superelastic Ti-Nb-Ta and Ti-Nb-Zr alloys, obtained by casting in the ratio of elements in percentage ratio - Ti 71.0-74.0, Nb 19.0- 23.0, Ta and / or Zr 4.0-9.0. In comparison with a titanium alloy, superelastic titanium alloys (titanium-niobium and nickelide titanium) reduce stresses in the cortical bone tissue when used as intraosseous dental implants without a clear effect on the stress-strain state of cancellous bone tissue. A significant increase in stress in the bone occurs when the number of supporting implants of the fixed prosthesis decreases (regardless of the material of the implants) and the load is applied to the lateral part of the fixed prosthesis with no teeth. The maximum values of stress in the bone tissue during the functional load of titanium are localized in the projection of the neck of the implants. Cortical bone tissue has a double margin of safety in the presence of titanium implants, three-fold - with implants of elastic titanium alloys.

The design of the proposed dental implant is illustrated in the drawing where in FIG. one:

1. Dental implant

2. Intraosseous part of the dental implant

3. The supragingival part of the dental implant

4. Apical part of dental implant

5. Cervical part of implant

6. Circular round ledge

The operation to install the proposed implant is as follows:

1. Adequate local anesthesia

2. The incision, the formation of mucoperiosteal flap, bone skeletonization.

3. Using a fizeodispenser, a cutter with a diameter of 2 mm less than the diameter of the implant in the bone form a bed under the implant.

4. Also, with the help of a fizeodispenser, a dental implant (1) consisting of an intraosseous (2) and supragingal parts (3) is installed under a 40N supply, while the intraosseous part is represented by the apical (4) and the cervical part (5), the apical part (4) has a triangular profile with an angle of 45 degrees, and a pitch of 0.4 mm, and the cervical part (5) is conical in shape with a multiple rounding thread in the direction from the supragingival part (3) to the apical end, the supragingal part (3) of the implant is made in the form of a truncated cone facing the axis mplantata (1), with an angle relative to the axis of the implant 6 degrees at the transition intraosseous (2) and a supragingival part (3) has a circular arcuate ledge (6) with a width of 0.5 mm having an angle of 135 degrees.

5. The dental implant is placed in the bone tissue up to the level of 1.5 mm before the start of the circular step (6).

6. Closure of the mucoperiosteal flap.

Claims (1)

Dental implant consisting of intraosseous and supragingal parts, while the intraosseous part is represented by the apical and cervical part, the apical part is threaded with a triangular profile with an angle of 45 degrees and a pitch of 0.4 mm, and the cervical part is made in the shape of a truncated cone with multiple curved thread in the direction from the supragingal part to the apical end, the supragingal part of the implant is made in the form of a truncated cone, coinciding with the axis of the implant, with an angle at the apex of the cone of 6 degrees, at the point of transition and the intraosseous and supragingal parts have a circular rounded ledge 0.5 mm wide, having an angle of 135 degrees, while the solid implant is made by casting from a nano-sized alloy containing at.%: Ti 71.0-74.0, Nb 19, 0-23.0, Ta and / or Zr 4.0-9.0.

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