RU182012U1 - DENTAL IMPLANT - Google Patents

Abstract

высоты резьбы и с углом наклона впадин резьбы к продольной оси, резьба внутреннего осевого отверстия выполнена для соединения с внутренним элементом, выполненным с возможностью прохождения остеопластического геля внутрь полости синуса и последующего прорастания костной ткани в продольные пазы.The utility model relates to medicine, namely to dental implantology and can be used for dental prosthetics of the upper jaw in conditions of atrophy of the alveolar ridge of the distal. Dental implant of the maxillary, containing the intraosseous element, made conical with an internal through, threaded, cylindrical axial opening and with an external conical thread for fixation in the bone, with longitudinal grooves along the external thread not more than

the height of the thread and with the angle of inclination of the hollows of the thread to the longitudinal axis, the thread of the internal axial hole is made for connection with an internal element configured to pass the osteoplastic gel into the sinus cavity and subsequent germination of bone tissue into the longitudinal grooves.

The proposed utility model allows to reduce the morbidity of the dental implantation operation with significant atrophy of the alveolar process of the upper jaw, increase bone tissue by 5-7 mm, increase the reliability of the implant attachment, and increase the masticatory load. 1 ill.

Description

The utility model relates to medicine, namely to dental implantology and can be used for dental prosthetics of the upper jaw in conditions of atrophy of the alveolar ridge of the distal sections.

Known intraosseous maxillary dental implant (RF patent for IZ No. 2218126, class A61C 8/00, publ. 10.12.2003), containing a body in the form of a cylinder, rectangular plates are installed opposite to each other on the edges of the base, a threaded is made inside the body an opening for installing a plug screw, and in the upper part there are fixing elements made of material with a shape memory effect. This implant design allows the implant to be used for atrophy of the alveolar process of the upper jaw in its distal parts. The disadvantage of this invention is that it contributes to the growth of bone tissue (osteoinduction) of the atrophied alveolar bone, and therefore the strength of the bone will not ensure reliable fixation of the implant at high chewing loads.

A closer technical solution is an implant for injection osteoplasty, which is a sleeve made in the form of a hollow cylinder with a screw-distractor, and the sleeve has 2 threads: from the outside to fix the implant in the bone tissue and from the inside to connect with a syringe needle or with a distractor screw. The end part of the sleeve and the screw-distractor have a slot for a screwdriver (see application for IZ No. 2006120283, publ. December 27, 2007).

This implant design allows using an syringe to introduce osteoplastic gel through the sleeve into the sinus cavity and increase the bone volume of the atrophied alveolar bone.

The disadvantages of this invention include the fact that the length of the implant-sleeve, placed in the bone, may not be sufficient to ensure reliable fixation in conditions of high chewing loads.

The closest in technical essence to the claimed utility model is a dental maxillary implant containing a sleeve in the form of a hollow cylinder having a thread for fixation in the bone on the outside, and a thread for connecting a screw-distractor with a thread made in the form of a cylindrical rod with thread on the outer surface and a hemispherical base, and the screw-distractor is made with an axial threaded hole for installing a syringe needle, plug or superstructure, while the axial hole is connected It was inserted at the base of a distractor screw with two diametrically located orthogonal holes at the point of their intersection for the passage of the osteoplastic gel into the sinus cavity and the subsequent germination of bone tissue into the holes. The axial hole in the screw-distractor is made stepwise, in the upper part in the form of a mounting recess for a superstructure turning into a threaded hole of a smaller diameter (RF patent for IZ No. 2395349, class A61C 8/00, published on July 27, 2010). The known implant is mainly used in closed sinus lift operations (for example, according to the method of N. Cranin, V. Clein, A. Simons, 1999).

A known implant is not always effective in case of significant atrophy of the alveolar bone due to insufficiently secure fixation in the bone.

The objective of the utility model is to increase the reliability of fixation of the dental implant, effective with significant atrophy of the alveolar process.

The problem is solved by the proposed utility model.

высоты резьбы и с углом наклона впадин резьбы к продольной оси, резьба внутреннего осевого отверстия выполнена для соединения с внутренним элементом, выполненным с возможностью прохождения остеопластического геля внутрь полости синуса и последующего прорастания костной ткани в продольные пазы.Dental implant of the maxillary, contains an intraosseous element made conical with an internal through, threaded, cylindrical axial opening, and with an external conical thread for fixation in the bone, with longitudinal grooves along the external thread not more than

the height of the thread and with the angle of inclination of the hollows of the thread to the longitudinal axis, the thread of the internal axial hole is made for connection with an internal element configured to pass the osteoplastic gel into the sinus cavity and subsequent germination of bone tissue into the longitudinal grooves.

The utility model is illustrated in the drawing, where in FIG. 1 shows a proposed dental implant. The intraosseous conical part of the dental implant 1 (Fig. 1) has a conical thread 2 made on its outer surface with an angle of inclination of the troughs of the thread 2 to its axis. On the outer surface of the intraosseous part, at the same angle, longitudinal grooves 3 are made with a length of no more than 3/4 of its height. Along the axis of the intraosseous part of the implant 1, a through threaded cylindrical hole 4 is made for connection with an internal element (not shown in the drawing) configured to pass the osteoplastic gel into the sinus cavity.

высоты резьбы позволяет сохранить весь костный материал в пазах. Предлагаемая полезная модель позволяет уменьшить травматичность операции дентальной имплантации при значительной атрофии альвеолярного отростка верхней челюсти, нарастить костную ткань на 5-7 мм, повысить надежность крепления имплантата, увеличить жевательную нагрузку.The utility model is used as follows. Dental implantation of the upper jaw with significant atrophy of the alveolar process is carried out according to the standard method of closed sinus lift operations, in which the bones of the alveolar process for visual inspection are exposed, with cutting out the mucous-periosteal flap, the thickness of the bone mass is determined by computed tomography, in accordance with the obtained the result is the choice of the implant in diameter and height (the diameters of 5.5 and 6.0 mm were used, and the height of the implants 4.5 and 5.0 mm). The proposed method is especially effective with significant atrophy of the alveolar process of the upper jaw, that is, with a bone thickness of less than 6 mm Then, the implant placement site is determined, the main drilling site is marked with a conical drill, the hole for the intraosseous element is formed with the main drill, the intraosseous implant 1 is screwed, the internal element is screwed in until the stop, then the intraosseous element is slowly screwed until the perforation of the bone appears the bottom of the maxillary sinus, then continue to slowly screw the internal element, raising the mucous membrane of the bottom of the sinus cavity, and through the inside The early hole 3 is pushed through with a special cannula from 0.3 to 0.5 ml of an osteogenic simulator, create a dome of 5-7 mm high, filled with an osteogenic simulator. Gel of the Polistom company was used as an osteogenic simulator. The implementation of the intraosseous implant 1 with an external conical threaded surface allows to increase the total area of the thread and thus increase the reliability of fixation in the bone. The execution on the outer conical surface of the implant 1 of the longitudinal grooves 3 with a length of no more than 3/4 of its height allows, when the implant 1 is screwed into the bone, it is possible to collect bone material in the grooves, compacting them and thereby providing further implant growth into the bone. Performing grooves 3 no more than

the height of the thread allows you to save all bone material in the grooves. The proposed utility model allows to reduce the morbidity of the dental implantation operation with significant atrophy of the alveolar process of the upper jaw, increase bone tissue by 5-7 mm, increase the reliability of the implant attachment, and increase the masticatory load.

Claims (1)

Dental implant of the maxillary, containing an intraosseous element, made conical with an internal through, threaded, cylindrical axial opening, and with an external conical thread for fixation in the bone, with longitudinal grooves along the external thread no more than

the height of the thread and with the angle of inclination of the hollows of the thread to the longitudinal axis, the thread of the internal axial hole is made for connection with an internal element configured to pass the osteoplastic gel into the sinus cavity and subsequent germination of bone tissue into the longitudinal grooves.

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