RU162614U1 - ENDOOSSAL-SUBPERIOSTAL IMPLANT - Google Patents

Abstract

1. An endosseous-subperiosteal implant containing an intraosseous part and a osseous part, while the osseous part includes a subperiosteal plate provided with an opening for its installation, characterized in that the intraosseous part contains a threaded rod on which ring-shaped bushings made of metal rubber are located, while the subperiosteal plate equipped with a metal rubber substrate. 2. Endo-subperiostal implant according to claim 1, characterized in that the threaded rod of the intraosseous part contains two cylindrical threaded sections, while the upper cylindrical section is made of a larger diameter than the lower. Endo-subperiosteal implant according to claim 2, characterized in that the thread in the lower part of the upper cylindrical section is made in increments smaller than the thread in its upper part. The endoossal-subperiosteal implant according to claim 2, characterized in that vertically oriented decompression grooves are made on the surface of the upper threaded portion. Endo-subperiostal implant according to claim 1 or claim 2, characterized in that the threaded rod is provided with a drill tip. The endosseous-subperiosteal implant according to claim 1, characterized in that the subperiosteal plate is provided with a metal rubber substrate that repeats the shape of the plate. 7 Endosseous-subperiosteal implant according to claim 1, characterized in that the annular bushings are made of metal rubber with a porosity of 70-80% .8 . An endosseous-subperiosteal implant according to claim 1, characterized in that the subperiosteal plate is provided with additional holes for its fixation. Endosso-subperiostal implant according to claim 1, excellent

Description

ENDOOSSAL-SUBPERIOSTAL IMPLANT

The technical solution relates to medicine, namely to dentistry, and can be used to restore the dentition of the upper and lower jaws, including in patients with significant atrophy of the alveolar ridge.

Currently, there are a large number of patients using removable prostheses who would like to replace them with fixed structures. Dental implantation allows you to expand the indications for the use of fixed prostheses. However, often the installation of intraosseous implants of the rod type of optimal length and diameter is impossible due to bone deficiency due to atrophy of the alveolar part of the jaw after tooth loss. The solution to the issue of dental implantation in conditions of deficiency of the bone tissue of the jaw can be the use of endo-Russian-subperiosteal implant. The use of intraosseous and body fixative elements allows for deficiency of bone tissue without additional traumatic interventions to ensure stabilization of the implant capable of carrying a chewing load. During the operation of implants equipped with osseous platforms that distribute the load, their protrusion through the mucosa of the alveolar process is possible, and as a consequence, the need to remove the entire structure.

Closest to the technical nature of the claimed device are "ADDITIONAL DEVICE FOR STABILIZING AN INTRA-BACK IMPLANT" according to patent US 20110171601 A1 dated 07/20/2010, published July 14, 2011, IPC A61C8 / 00, an additional stabilization device is intended for use in combination with an intraosseous implant. This design is represented by an intraosseous dental implant of a cylindrical shape made of a titanium alloy, and a stabilizing bone plate having flip loops on the vestibular and oral surfaces, a central hole coinciding with the internal hexagon of the intraosseous implant through which fixation of the suprastructure takes place, the ends of the loops have holes for additional their fiction in the bone tissue of the jaw.

The use of intraosseous and osseous parts made all-metal without the ability to damp and distribute the arising multidirectional loads leads to excessive stresses in the bone-implant system, as a result of increased bone resorption, and as a result of a decrease in the level of osseointegration. The use of relatively massive structural elements, such as flip loops located on the vestibular and oral surfaces, increases the invasiveness of the operation and the possible subsequent protrusion of the bone elements.

The objective of this technical solution is to increase the stability of the implant, functioning in conditions of bone deficiency. In addition, the objective of this technical solution is to reduce the level of stress arising in the bone-implant system.

The tasks are solved by an endosseous-subperiosteal implant containing an intraosseous part and an osseous part, while the osseous part includes a subperiosteal plate provided with an opening for its installation, the intraosseous part contains a threaded rod on which ring-shaped bushings made of metal rubber are located, while the subperiosteal plate a substrate of metal rubber; the threaded rod of the intraosseous part contains two cylindrical threaded sections, while the upper cylindrical section is made of a larger diameter than the lower; the thread in the lower part of the upper cylindrical section is made in increments smaller than the thread in its upper part; vertically oriented decompression grooves are made on the surface of the upper threaded section; the threaded rod is equipped with a drill tip; the subperiosteal plate is provided with a metal-rubber substrate repeating the shape of the plate; ring-shaped bushings are made of metal rubber with a porosity of 70-80%; the subperiosteal plate is provided with additional holes for its fixation; the connection of the intraosseous and bone parts is made collapsible.

The essence of the technical solution is illustrated by drawings, where in Fig. 1 is an endoossal-subperiosteal implant, in Fig. 2 is an installed endoossal-subperiosteal implant.

Figure 1, figure 2 shows the intraosseous part 1, the osseous part 2, the subperiosteal plate 3, the hole 4 for installing the subperiosteal plate, the threaded rod 5, the non-through threaded hole 6, the ring-shaped bushings 7 from metal rubber, the substrate 8 from metal rubber, the upper cylindrical section 9, the lower cylindrical section 10, the drill tip 11, additional holes 12 in the subperiosteal plate, abutment 13, bone tissue 14, a fixing screw 15.

Endo-subperiostal implant is as follows.

The endosseous-subperiosteal implant contains the intraosseous part 1 and the osseous part 2. The connection of the intraosseous 1 and the osseous 2 parts is made collapsible. The osseous part 2 includes a subperiosteal plate 3 provided with an opening 4 for its installation. Optionally, the subperiosteal plate 3 is provided with additional holes 12 for its fixation. The subperiosteal plate 3 is provided with a substrate 8 of metal rubber. The substrate 8 made of metal rubber is made repeating the shape of the subperiosteal plate 3. The intraosseous part 1 contains a threaded rod 5 on which annular sleeves 7 made of metal rubber with a porosity of 70-80% are located. The intraosseous part 1 is provided with a non-through threaded hole 6. The threaded rod 5 of the intraosseous part 1 contains two cylindrical threaded sections 9 and 10. The upper cylindrical section 9 of the threaded rod 5 is made of a larger diameter than the lower 10. The thread in the lower part of the upper cylindrical section 9 is made in increments smaller than the thread in its upper part. The ring-shaped bushings 7 are aligned with the threaded rod 5 around the lower cylindrical portion 10. The threaded rod 5 is provided with a drill bit 11. The intraosseous part 1 is optionally made of a titanium alloy. On the surface of the upper threaded section 9, vertically oriented decompression grooves are made.

Endo-subperiostal implant is installed and operated as follows.

An individual computer simulation of the intraosseous 1 and bone 2 parts of the implant is carried out in advance, in accordance with the size and shape of the alveolar ridge. Under local conduction anesthesia, the mucoperiosteal flaps are dissected and exfoliated, and a bone bed is formed using mills. In the formed bone bed, ring-shaped bushings 7 made of metal rubber are installed using a guide with a slight effort or by tapping. Then screw the threaded rod 5, while the lower cylindrical section 10 of the rod 5 is screwed into the sleeve 7 of metal rubber, thereby wedging them and acting as a spacer screw. The upper cylindrical section 9 of the rod 5 is screwed directly into the bone bed. After creating the bed and installing the intraosseous part 1, the bone part 2 is attached to the alveolar bone 2. The subperiosteal plate 3, equipped with a metal rubber substrate 8, is placed so that the hole 4 made therein is aligned with the non-through threaded hole 6 in the intraosseous part 1 If additional fixation of the subperiosteal plate 3 is necessary, additional intraosseous fixators are screwed into the bone tissue 14 through the holes 12. Abutment 13 is placed above the subperiosteal plate 3, while the hole in the abutment 13, the hole in the subperiosteal plate 3 and the through hole 6 in the intraosseous part 1 are aligned. After that, the connection of the intraosseous 1 and the osseous 2 parts with the screw 15 is performed, while the threaded rod of the screw 15 is passed through the hole in the abutment 13, the hole 4 in the subperiosteal plate and screwed into the non-through hole 6 of the intraosseous part. The abutment 13 and the fixing screw 15 can be made in the form of a single part or pre-connected to the site. After integration of the intraosseous part 1, in case of protrusion of the osseous elements of the implant, disconnect and remove the osseous part 2 by first unscrewing the fixing screw 15. After removing the osseous part 2, a new abutment 13 and a crown are installed directly into the integrated intraosseous part 1. Due to the fact that the abutment 13 in the proposed solution of the endosseous-subperiosteal implant is located directly above the intraosseous part 1, when a new abutment 13 is installed directly in the intraosseous part 1, the relative position of the crown in the mouth before and after removal of the bone part 2 does not change. Installation of the implant is carried out simultaneously without taking impressions from the jaws. Thus, the connection of the intraosseous 1 and the bone 2 parts with a detachable one allows the removal of the elements of the bone part 2 of the implant while maintaining the integrated intraosseous part 1. The use of the subperiosteal plate 3 at the initial stage of loading of the implant ensures uniform distribution of the chewing load on the bone tissue 14 when chewing and, therefore, it creates favorable conditions for the integration of the intraosseous part 1 of the implant and increases the stability of the implant functioning in ovia of bone deficiency 14. The use of a substrate 8 made of metal rubber located under the subperiosteal plate 3, as well as ring-shaped bushings 7 made of metal rubber located on the threaded rod 5 of the intraosseous part 1, allows to increase the stability of the implant functioning in conditions of bone deficiency 14 and reduce the level stresses arising in the bone-implant system. The presence on the threaded rod 5 of the intraosseous part of two cylindrical threaded sections 9 and 10 of different diameters allows you to form a bone bed of a uniform diameter throughout, to place annular bushings 7 without the formation of external protrusions on the rod 5 sections. Threading in the upper part of the upper cylindrical section 9 with a step greater than the thread in its lower part 10 allows to increase the contact area of the implant with the bone tissue 14 in the cervical part of the implant, reduce stress and, as a result, reduce the risk of resorption of the marginal bone. The presence on the surface of the upper threaded section of vertically oriented decompression grooves allows you to relieve tension in the bone surrounding the threaded rod 5. The porosity of the metal rubber 70-80%, from which the ring-shaped bushings 7 are made, was selected by calculation and experimental method.

The technical result of the proposed technical solution is to increase the stability of the implant, functioning in conditions of bone deficiency, reduce the level of stresses arising in the bone-implant system, reduce the morbidity of the operation and the risks of postoperative complications, due to the endosseous-subperiosteal implant containing the intraosseous part and the bone part, wherein the osseous part includes a subperiosteal plate provided with an opening for its installation, the intraosseous part contains thread oic rod on which the annular sleeve of the-metal, wherein the plate is provided with subperiosteal-metal substrate of; the threaded rod of the intraosseous part contains two cylindrical threaded sections, while the upper cylindrical section is made of a larger diameter than the lower; the thread in the lower part of the upper cylindrical section is made in increments smaller than the thread in its upper part; vertically oriented decompression grooves are made on the surface of the upper threaded section; the threaded rod is equipped with a drill tip; the subperiosteal plate is provided with a metal-rubber substrate repeating the shape of the plate; ring-shaped bushings are made of metal rubber with a porosity of 70-80%; the subperiosteal plate is provided with additional holes for its fixation; the connection of the intraosseous and bone parts is made collapsible.

Claims (8)

1. An endosseous-subperiosteal implant containing an intraosseous part and a osseous part, while the osseous part includes a subperiosteal plate provided with an opening for its installation, characterized in that the intraosseous part contains a threaded rod on which ring-shaped bushings made of metal rubber are located, while the subperiosteal plate equipped with a metal rubber substrate. 2. The endoossal-subperiosteal implant according to claim 1, characterized in that the threaded rod of the intraosseous part contains two cylindrical threaded sections, while the upper cylindrical section is made of a larger diameter than the lower. 3. The endoossal-subperiosteal implant according to claim 2, characterized in that the thread in the lower part of the upper cylindrical section is made in increments smaller than the thread in its upper part. 4. The endoossal-subperiosteal implant according to claim 2, characterized in that vertically oriented decompression grooves are made on the surface of the upper threaded portion. 5. Endo-peri-periosteal implant according to claim 1 or claim 2, characterized in that the threaded rod is provided with a drill tip. 6. Endosso-subperiosteal implant according to claim 1, characterized in that the subperiosteal plate is provided with a substrate of metal rubber that repeats the shape of the plate. 7 Endosseous-subperiosteal implant according to claim 1, characterized in that the annular bushings are made of metal rubber with a porosity of 70-80%. 8. Endosso-subperiostal implant according to claim 1, characterized in that the subperiosteal plate is provided with additional holes for its fixation. 9. Endosseous-subperiostal implant according to claim 1, characterized in that the connection of the intraosseous and bone parts is made collapsible.

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