RU2513690C1 - Shape memory endosteal implant - Google Patents

Abstract

FIELD: medicine.

SUBSTANCE: shape memory endosteal implant mounted into a multi-rooted alveolar socket or into adjacent trays of upper or lower single-rooted teeth consists of a support head in the form of a truncated cone with grooves and an endosteal portion. The endosteal portion is presented in the form of an S-strip; the contours of the endosteal portion are horizontally H-shaped with rounded sides, with active elements in upper and lower halves on the left and on the right from a vertical axis of the implant.

EFFECT: invention provides higher primary stability and resistance of the structure to an occlusal load, adaptation of the implant to the anatomic-topographical features of the dental tray.

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Description

The invention relates to medicine, namely to surgical dentistry, and is intended for use as a support for a prosthesis that compensates for the absence of 1-2 teeth of the upper and lower jaw, including for direct implantation.

With a decrease in the volume of the alveolar process due to atrophy, including a decrease in the thickness of the alveolar ridge, the possibility of using intraosseous implantation with cylindrical and screw structures is reduced. The effectiveness of using plate implants for prosthetics has been proven. However, the fixation of plate structures in the bone bed is insufficient, which requires a long (4-6 months) immersion period for complete osseointegration before prosthetics.

The advantage of titanium nickelide implants is their high primary stability, which is ensured by the activation of the thermomechanical shape memory effect with fixation of active elements in the bone tissue. The second quality is the elastic-mechanical properties of nitinol, which are close to those of bone tissue, which makes it possible to incorporate natural teeth into the prosthesis along with implants.

Known jaw implant (Patent for a utility model of the Russian Federation No. 48754, IPC ⁷ А61С 8/00, publ. 10.11.2005), made of metal with a thermomechanical memory in the form of a rod, consisting of a support head, neck and intraosseous part of an ellipsoidal shape with two locking elements in the form of petals, the surface of each petal is equipped with transverse protrusions. The implant is designed for installation in a narrow alveolar ridge. Before installation, the implant is cooled, for example, with chloroethyl, and the active elements are brought to an angle of 0 ° between each other. The implant is inserted into the prepared bone bed, in the bone tissue the implant warms up, due to the effect of thermomechanical memory, it tends to take its original shape, thus fixing itself in the bone.

The disadvantage of this device is the lack of secondary fixation in bone tissue, since there are no recesses or grooves for bone tissue germination, which is especially important when the implant functions in low-density bone tissue, which is present on the upper jaw in 80% (according to Orthopedic treatment based on dental implants / Karl E. Mish; translated from English - M .: Reed Elsiver, 2010. P.147). The second disadvantage is the breeding of the legs, moreover, quite strong in the frontal plane, traumatic tissue periodontal tooth. The stability of this plate implant in the well of a multi-rooted tooth with a single defect in the dentition is unsatisfactory.

Known leaf-shaped implant for the lateral segments of the upper jaw made of metal with thermomechanical memory (Patent for a useful model of the Russian Federation No. 86452, IPC АС 8/00, publ. 09/10/2009) in the form of a plate with support conical heads and three locking elements in the form of a figure eight with rings, in the form of a ring having a vertical slot, and in the form of a horizontal slot in the end part.

Closest to the claimed technical solution is an implant for the lateral segments of the upper jaw, made of metal with thermomechanical memory (Utility Model Patent of the Russian Federation No. 86451 IPC А61С 8/00, published on 09/10/2009) in the form of a plate with a support head and two fixing elements in the form of a figure eight with rings and in the form of a plate with a horizontal slot.

The disadvantage of these implants is the limited scope of application - extended defects of the lateral segment of the upper dentition. Installation of these structures with single (missing one tooth) included defects is impossible due to the large length of the structure. The third disadvantage is the extremely low stability of these flat structures in the holes of the teeth, especially multirooted.

The objective of the invention is as follows:

1. Ensuring the stability of the structure in the alveolar bone, including when installing directly in the well of a multi-root tooth or adjacent holes of single-root teeth;

2. Adaptation of the design to the defect formed after tooth extraction.

3. The expansion of indications for implantation in the event of the loss of 1-2 teeth with the formation of an included defect in the dentition, including when inserted in the tooth socket.

These tasks are achieved by the fact that the intraosseous part of the implant is made of a material with thermomechanical shape memory in the form of a continuous S-shaped tape of small width (6.0-18.0 mm) with a concave cervical contour. The contours of the intraosseous part in the horizontal plane are in the shape of the letter H with rounded sides. Active elements are located at two levels (in the upper and lower half of the intraosseous part) on both sides of the vertical axis of the implant and diverge in the sagittal plane, which helps the implant achieve good stability in all three planes. In bends, the intraosseous part of the implant has openings for germination of bone tissue, which provides secondary structural stability. The implant has one head, which is a truncated cone with grooves for better fixation of the crown, ending with a ledge.

The novelty of the device.

1. Due to the S-shaped form of the intraosseous part, mechanical stresses in the body of the intraosseous implant with shape memory, and, accordingly, their redistribution to the bone tissue, are uniform, i.e. optimally.

2. The shape of the intraosseous part of the implant in the horizontal plane is rounded on both sides, repeating the shape of the letter H, which increases the stability of the structure and contributes to the maximum use of the existing bone defect.

3. The proposed intraosseous implant with shape memory has a small width, which makes it possible to use it to replace one or two teeth.

4. In the proposed intraosseous implant, the existing active elements are divorced in the sagittal plane at different levels (upper and lower half of the intraosseous part) and on both sides of the vertical axis of the implant body, which prevent injury to periodontal tissues and increase implant fixation, compared with scallop constructions. When a multi-root tooth is inserted into the well, an intraosseous implant with a shape memory is installed in such a way that one active element passes through the well of one root and the other in the well of the second root, ensuring structural stability.

5. The intraosseous part of the intraosseous implant has openings for the germination of bone tissue, which provides secondary fixation of the implant and its long-term functioning.

6. The cervical part of the intraosseous part of the implant is concave, which corresponds to the nature of atrophy of the alveolar process, and preventing exposure of the shoulders of the implant.

7. The implant head in the form of a truncated cone with retention points in the form of grooves and a ledge in the base of the head, helps to keep the crown of the prosthesis and helps maintain good oral hygiene.

The technical result of the invention is to ensure the stability of the structure in the alveolar bone when installing the implant in the well of a multi-root tooth or adjacent wells of single-root teeth. The implant adapts better to a defect formed after tooth extraction. The implant can be used as a support for a prosthesis, compensating for the absence of 1-2 teeth of the upper and lower jaw.

The invention is illustrated by the drawings shown in FIG. 1-6.

Figure 1. Intraosseous implant with shape memory - front view.

Figure 2. Intraosseous implant with shape memory - side view.

Figure 3. Intraosseous implant in isometric view.

Figure 4. Intraosseous implant with shape memory - bottom view.

Figure 5. X-ray photograph of the patient before treatment (no fangs and first premolar on both sides of the upper jaw)

6. X-ray photograph of the same patient one year after the operation (the dentition has been restored with ceramic-metal crowns on two plate implants).

An intraosseous implant with a shape memory contains a support conical head 1, an intraosseous part 2 made in the form of an S-shaped tape with a concave cervical part 3 and active elements 4, 5 in the upper and lower half of the intraosseous part, to the left and to the right of the vertical axis of the implant. Figure 1, Figure 2, Figure 3. The intraosseous part in horizontal section has the shape of the letter "H", with rounded sides, the border of the rounded 6. Figure 4.

An intraosseous implant with shape memory is designed to be inserted into the tooth socket. An intraosseous implant is used as follows. After anesthesia, incisions are made along the vestibular and palatine (lingual) slopes of the alveolar process, trapezoid mucoperiosteal flaps are cut out. The next stage removes the tooth as atraumatically as possible. A surgical cutter with a thickness of 0.1-0.15 mm less than the width of the implant in the bone prepare the implant bed in accordance with its contours. The implant is cooled, for example, with chloroethyl or FriscoSpray aerosol and the active elements 4, 5 are brought into a single circuit with the intraosseous part 2. The implant is inserted into the bone bed before a tight fit. By heating, the active elements 4, 5 of the implant, due to the thermomechanical memory of titanium nickelide, tend to restore their original shape, while the active elements are pressed into the peri-implant bone tissue, due to which the implant is firmly bonded to the bone. All areas of the bone wound that are free of the implant, including the area above the cervical part 3 of the intraosseous part of the implant, are filled with osteoplastic material (for example, Biomatrix). Mucoperiosteal flaps are mobilized, and the wound is sutured tightly. The head 1 of the intraosseous implant with shape memory rises above the level of the mucosa, protruding into the oral cavity. In view of the reliable primary stability of the implant, the orthopedic stage is started 10 days to 3 months after the operation, depending on the clinical picture.

Clinical example.

Patient K, 35 years old, was admitted to the clinic with complaints of difficulty in chewing food and a cosmetic defect in a smile. The patient has the roots of 4 fang teeth and premolars, the upper jaw on both sides. (Figure 5). During a single operation, the patient had 4 teeth removed, 2 lamellar S-shaped implants were installed. After 2 weeks, prosthetics were performed with temporary prostheses of their BioXL thermoplastic; natural teeth were included in the prosthesis support. After 5 months, the prostheses were replaced with permanent metal-ceramic ones. At the follow-up examination 1 year after the operation, the implants are stable, there are no signs of inflammation of the mucous membrane, there is no bone resorption around the implants. Percussion of prostheses is painless. (Fig.6)

Claims (1)

An intraosseous implant with a shape memory for installation in a well of a multi-root tooth or in adjacent holes of single-root teeth of the upper or lower jaw, consisting of a support head in the form of a truncated cone with grooves and an intraosseous part, characterized in that the intraosseous part is made in the form of an S-shaped tape, the contours of the intraosseous part in the horizontal plane have the shape of the letter H with rounded sides, with active elements in the upper and lower half of the intraosseous part, to the left and to the right of the vertical axis of the implant.

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