RU2674863C2 - Subperiosteal sellar all-ceramic implant - Google Patents

Abstract

FIELD: medicine; dentistry.

SUBSTANCE: invention relates to medicine, namely to dentistry, and is intended for dental prosthetics. Subperiosteal sellar all-ceramic implant includes a support base consisting of vestibular and lingual branches, supporting arm, fixing devices, locking elements for connection with orthopedic structures. Implant is made in the form of a solid non-separable bioceramic structure with thickness up to 3 mm, made in the form of a saddle with holes for fixing devices in the vertical plane of the support base and the horizontal plane of the support arm. Lingual branch is shortened and composes ½ from the height of the vestibular branch, and the distance between the side supports is from 5.2 to 10 mm.

EFFECT: invention allows to reduce the invasiveness and atrophy of a bone, to reduce the time of implantation.

1 cl, 2 dwg

Description

The invention relates to medicine, namely to dentistry, to devices intended for dental prosthetics.

Currently, dentition defects are found in almost 75% of the working age population of the Russian Federation. In modern society, this makes the problem of adentia more and more urgent, makes us look for new, more effective ways to treat it. The rehabilitation of patients with adentia using dental implantation has been the subject of many works that discuss surgical techniques, prosthetics, patient management tactics, etc. Patient requirements for aesthetics, quality, speed of treatment, and dental rehabilitation are increasing.

Therefore, the topic of prosthetics is relevant and in demand.

Over the past 65 years, many implantation systems and methods for fixing these systems in the oral cavity have been proposed, but the leading position has now been acquired by titanium, endo-Russian, collapsible implants having a helical structure with various surfaces, elements of connection with suprastructures for fixing various prostheses in the oral cavity (Astra , Tech, AlfaBio, MIS, Xive, Ankilos, Dentium, etc.).

One of the main problems in dental implantology is the lack of the required volume and quality of supporting tissues necessary for the redistribution of chewing efforts on the jaw.

Subperiosteal implantation helps to solve this problem. Subperiosteal implantation is indicated for severe atrophy of the alveolar process with an end defect in the dentition and on the toothless jaws. An important role is played by the issue of reducing the morbidity and atrophy of the bone.

The most popular types of subperiosteal implants can be found on the website http://dentaltechnic.info/index.php/implanty/zubnoe-protezyrovanye-na-ymplantatakh/2833-subpyeriostal_naya_implantaciya, which shows the applied fixation techniques and classic types of implants.

A device for dental prosthetics is known (patent No. 22170 97, application No. 2002121658, IPC class A61C 8/00, publication date 11/27/2003 bull. No. 33). A device for dental prosthetics, made in the form of a subperiosteal implant of a saddle-shaped structure, contains a supporting base of two branches, to which the supporting shoulders are connected, forming their convex parts at the top of the structure, on which the pins for dentures are mounted.

A disadvantage of the devices known today is that their design provides for the already created regular shape alveolar ridge. In patients, atrophy of the alviolar ridge occurs unevenly, which is associated with the peculiarities of the anatomical structure of the human dentition.

The technical result of the invention is to reduce the morbidity and atrophy of the bone, reducing the implant survival time.

A subperiosteal saddle all-ceramic implant is proposed that includes a supporting base consisting of vestibular and lingual branches, a supporting shoulder, fixing devices, locking elements for connecting with orthopedic structures (bridges, removable dentures, crowns).

от высоты вестибулярной ветки.The difference is that the implant is made in the form of a one-piece, non-separable bioceramic structure in the form of a saddle with holes for fixing devices in the vertical plane of the support base and the horizontal plane of the support shoulder, the lingual branch is made shortened and is

from the height of the vestibular branch.

The essence of the proposed subperiosteal saddle-shaped all-ceramic implant is shown in FIG. 1, FIG. 2, where in FIG. 1 shows a general view of the implant; FIG. 2 shows a side view.

Currently, materials based on calcium hydroxyapatite are widely used to treat injuries and defects in human bone tissue, since it is the basis of the mineral component of bone tissue. Studies on this topic are described in the article “Ceramics based on calcium phosphates with a reduced sintering temperature containing a resorbable phase” (Glass and Ceramics, 2007, No. 7, UDC 666.3: 61). The use of modern materials is aimed at ensuring that the rate of resorption of the artificial bone substitute corresponds to the rate of bone formation, so that the growing bone can fill the cavities formed in the implant, ensuring proper fusion of the implant and bone. The sign of "all-ceramic" is essential, because contributes to better implantation of the implant into the bone. The integrity of the entire structure eliminates the possibility of defects, kinks, cracks, which in turn reduces the morbidity. Due to the fixation of the implant to the bone with additional mini-screws, the patient immediately receives a rigidly fixed support for an orthopedic prosthesis, which receives loads and protects the underlying tissue from the food lump and physiological pressure. The probability of injury is reduced. This reduces the risk of failure when replacing a bone substitute and this leads to the desired volume of bone tissue for secondary fixation of the implant (due to fouling of bone tissue). The implant survival time is reduced.

The implant is designated 1, the vestibular branch 2, the lingual branch 3, the supporting arm 4, the holes for the fixing devices 5, the locking element for connecting to the orthopedic structure 6.

The proposed implant is installed under anesthesia using a one-stage method, well known in modern dentistry. At the stage of computed tomography, the volume structure of the bone is recreated. On the obtained three-dimensional image, the rehabilitation plan for the atrophied jaw is modeled using a subperiosteal implant, the required number of mini-screws and the volume of the bone substitute in accordance with the human anatomical features. Then the jaw is prepared for the installation of a subperiosteal implant. A full-layer mucosal-periosteal incision is performed, the mucoperiosteal flaps open.

Then carry out multiple perforations in the cortical layer of the bone tissue of the jaw in the area of implantation. The implant is fitted and fixed with fixing devices (not shown), for example, mini-screws. In this case, it is preferable to use ceramic mini-milling cutters for mini-screws. Ceramic cutters do not heat up during drilling and therefore do not overload bone tissue. Which in turn contributes to comfortable treatment, reducing trauma.

With a tooth loss, the alveolar bone undergoes irreversible changes over time. As practice shows, atrophy of the alveolar ridge occurs faster from the side of the vestibular wall of the jaw. In this case, the degree of atrophy can be different, expressed in a decrease in the height and width of the alveolar ridge of the jaw, which depends on the anatomical features of blood circulation and the structure of the jaw.

от вестибулярной ветки позволяет снизить травматичность при отслойке надкостницы со стороны языка.The proposed implant has a pronounced vestibular branch 2 forming the vestibular shoulder and a shortened lingual branch 3 of the implant. Execution of lingual branch 3 in a reduced size of

from the vestibular branch allows you to reduce the morbidity with detachment of the periosteum from the tongue.

The thickness of the implant is up to 3 mm. The distance between the side supports (vestibular and lingual) is from 5.2 mm to 10 mm.

The holes for the fixing devices 5 around the perimeter of the implant allow you to install a sufficient number of mini-screws and ensure reliable fixation of the implant. The holes are installed both in the vertical plane of the supporting base (vestibular and lingual branches), and in the horizontal plane of the supporting shoulder 4. In addition, if necessary, the volume of bone tissue is corrected. A bone substitute is introduced through perforations using substances that accelerate healing. At the same time, bone tissue regeneration is activated, the healing process is accelerated. Given that a sufficient number of perforations is formed, the possibility of bone formation in a sufficient volume increases. Reliable fixation with simultaneous correction of bone volume increase the likelihood of simultaneous prosthetics, successful implant engraftment. In addition, with chewing loads, the proposed version of the fixation of the prosthesis prevents it from shifts in the direction from the supporting tissues, from lateral swaying. Loads are distributed between the branches of the saddle bed of the implant. The signs are in a causal relationship with the claimed technical result, because significantly reduce the likelihood of injury to the bone marrow replanting area, the underlying tissues create ideal conditions for long-term bone tissue regeneration and at the same time create ideal conditions for simultaneous orthopedic rehabilitation immediately after surgery, without waiting for the final terms of osteogenesis.

The proposed implant is made in the form of a one-piece non-separable bioceramic structure in the form of a saddle with holes for fixing devices along the perimeter, i.e. there are openings for mini-screws and hollow parts for secondary fouling of bone tissue, which creates conditions for faster germination of the vascular bed, which means that the rehabilitation time is reduced.

Due to the features of the proposed design and additional fixation with mini-screws, it is possible to immediately receive orthopedic rehabilitation, rather than wait for long bone rehabilitation, which in turn reduces the time of implantation and improves the quality of life of the patient.

Analog systems have the same length of the supporting shoulders, which requires wide delamination of both the buccal and lingual flaps. With significant atrophy of the jaw, such an operating tactic leads to damage to regional vessels, and therefore to even greater postoperative atrophy.

In addition, the all-ceramic, saddle-shaped implant design with different branch lengths protects the “young” bone from food pressure. During chewing, the patient cannot independently control the force of compression of the jaws, and therefore there is a risk of injury. Due to trauma, blood circulation may be impaired, the risk of implant rejection increases.

The combination of all the features of the proposed claims is in causal connection with the claimed technical result and contribute to reducing morbidity and reducing the implantation time of the implant.

Claims (1)

A subperiosteal saddle all-ceramic implant, including a supporting base, consisting of vestibular and lingual branches, supporting shoulder, fixing devices, locking elements for connection with orthopedic structures, characterized in that the implant is made in the form of a one-piece bio-ceramic structure up to 3 mm thick, made in the form of saddles with holes for fixing devices in the vertical plane of the support base and the horizontal plane of the support arm, lingual branch made on shortened and makes up

from the height of the vestibular branch, and the distance between the side supports is from 5.2 to 10 mm.

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