RU77774U1 - SUBCORTICAL IMPLANT - Google Patents

Abstract

The utility model relates to medicine, namely to dentistry, and can be used to treat an adentia of the lateral parts of the upper and lower jaws. The subcortical implant is made in the form of a curved plate having a long wing parallel to the short wing, with a supporting conical head on the long wing. The implant is made of metal with a thermomechanical memory, with a wing length ratio of 1: 3. The long wing is curved with a bend angle of 160 °. At the end of the long wing in the middle, a horizontal slot is made to form a locking element in the form of two legs diverging in opposite directions in the frontal plane. At the end of the short wing there is a fixing element in the form of a figure eight vertically extending downward, with the upper figure eight ring having a slot in the middle in the front and the lower one in the base, with the divergence of the ends of the resulting half rings at an angle of 15 ° -20 °. At the border of the transition of the plate bending into wings, recesses are made at the upper edge. An implant in the form of a curved plate may have an additional second conical support head on a long wing. The shape of the implant allows you to adapt it well to the installation site and make full use of the existing bone mass of the alveolar process. The multidirectional locking elements stabilize the implant immediately after installation in the frontal and sagittal planes, increase the implant's support area - this allows to increase the implant fixation strength and significantly reduce prosthetics time, increase the implant resistance to chewing loads. The implant design allows you to adjust the radius of the dental arch to correct the bite.

Description

The utility model relates to dentistry and can be used to treat an adentia of the lateral parts of the upper and lower jaws.

According to statistics, 30% of patients with terminal defects of the dentition show a decrease in the height of the alveolar ridge, which prevents the installation of full-sized intraosseous implants, both cylindrical and lamellar, capable of withstanding full chewing load. The use of endosubperiostal or subperiostal implants has significant limitations due to the high probability of the formation of pressure sores and exposure of the bony structural elements due to concomitant trophic and degenerative changes in the mucosa. The use of bone-plastic methods preceding the installation of full-sized intraosseous implants, for a long time with poorly predicted bone grafting effectiveness.

Known subperiosteal (patent for a utility model of the Russian Federation No. 50107, publication Bulletin of inventions No. 36 12/27/2005, IPC 7 А61С 8/00) made of material with thermomechanical memory, in the form of two parallel perforated plates having median jumpers with support heads in the center of the jumpers . Intraosseous implant placement is possible with the alveolar ridge adapted to the horizontal size of the crest, the width between the parallel ribbons of the structure.

The disadvantage of this device is the position of parallel tapes and their connections with jumpers at the same level, which does not allow

immersion of the implant beyond the bone in case of uneven atrophy of the crest of the alveolar ridge, conditions are created for exposing the shoulders of the implant.

Known designs of intraosseous three-dimensional two-blade implants (Leonard I. Linkov "Without dentures" St. Petersburg: TIT "Comet", 1993, 288 p. 159), made in the form of two perforated plates connected by a jumper with a conical head.

The design drawback is the position of the shoulders of the intraosseous plates and the connecting bridge at the same level. Complete immersion of the intraosseous elements of the implant in conditions of vertical deficiency of the bone of the alveolar process with an uneven flaw in its crest is impossible. In addition, the need to perform a transverse cut under the connecting jumper significantly weakens the stabilization of the implant in the bone. In addition, the design lacks fixing elements that provide primary stabilization of the implant in the bone, which significantly lengthens the terms of prosthetics.

The closest to the claimed one can be considered the design of the intercortical implant according to O. Surov (Surov’s implant is an alternative to subperiosteal implantation // Clinical Implantology and Dentistry. - 1999 No. 2-3 p.45-47) consisting of an asymmetric U-shaped plate with a reduced height. The elongated supporting part of the plate has a conical head, and the shortened part is stabilizing under transverse loads.

The disadvantage of this device is the absence of fixing elements, which reduces the stability of the implant with a reduced height under the influence of chewing loads in the osteoporotic bone. The position of the shoulders of the implant at one level makes it difficult to completely immerse into the bone in conditions of vertical atrophy of the alveolar process. There are no elements that contribute to the secondary stabilization of the implant in the bone.

The implant is made of alloy VT-1-0. Under the influence of loads in an active biological environment, corrosion processes intensely occur.

The objective of the invention is to increase the stability of the implant, its maximum adaptation to the anatomical and topographic conditions of the atrophied alveolar bone, obtaining the possibility of correcting the prognostic or direct bite, increasing the stability of the implant and, therefore, accelerating the time of prosthetics.

This task is achieved in that the subcortical implant is made in the form of a curved plate having a long wing parallel to the short wing, with a supporting conical head on the long wing.

The implant is made of metal with a thermomechanical memory, with a wing length ratio of 1: 3. The long wing is curved with a bend angle of 160 °. At the end of the long wing in the middle, a horizontal slot is made to form a locking element in the form of two legs diverging in opposite directions in the frontal plane. At the end of the short wing there is a fixing element in the form of a figure eight vertically extending downward, with the upper figure eight ring having a slot in the middle in the front and the lower one in the base, with the ends of the resulting half rings diverging at an angle of 15 ° -20 °. At the border of the transition of the plate bending into wings, recesses are made at the upper edge.

An implant in the form of a curved plate may have an additional second conical support head on a long wing.

The novelty of the device.

- The implant is made of metal with a thermomechanical memory, which ensures the restoration of the initially given shape of the implant under the influence of heating, after preliminary deformation of the fixing elements at a temperature below 0 ° C. Using the effect of thermomechanical memory, when introducing the implant, it can be shaped to provide the least tissue trauma during installation.

- The ratio of the length of the wings 1: 3. The long wing is curved with a bend angle of 160 °. This allows you to adapt it to the installation site and increase its stability, due to complete immersion beyond the unevenly atrophied ridge of the alveolar process. The shape allows you to adjust the radius of the dental arch to correct prognathic or direct bite.

- At the end of a long wing in the middle, a horizontal slot is made to form a locking element in the form of two legs diverging in different directions in the frontal plane. This is an additional stabilizing factor for a lowered implant.

- At the end of the short wing there is a fixing element in the form of a figure eight vertically extending downward, with the upper ring of the figure eight having a slot in the middle in the front and the bottom in the base, with the divergence of the ends of the resulting half rings at an angle of 15 ° -20 °. Fixation is performed in two planes, which increases the strength of fixation of the implant in the bone with an increase in its size. Unclosed rings allow you to create additional space inside the implant for germination of bone tissue, which also increases its resistance to vestibulo-oral and vertical loads.

- At the border of the transition of the plate bending into wings, recesses are made at the upper edge. These are technological notches that allow you to remove the stress that occurs in the metal when the plate is bent, which increases its strength.

- An implant in the form of a curved plate can have an additional second support conical head on a long wing, which allows for better and more complete prosthetics.

The shape of the implant allows you to adapt it well to the installation site and make full use of the existing bone mass

alveolar bone. The multidirectional locking elements stabilize the implant immediately after installation in the frontal and sagittal planes, increase the implant's support area - this allows to increase the implant fixation strength and significantly reduce prosthetics time, increase the implant resistance to chewing loads. The implant design allows you to adjust the radius of the dental arch to correct the bite.

The image is illustrated by the drawings shown in figures 1-5.

Figure 1 shows a subcortical implant in its initial state, a perspective view.

In Fig.2 the implant is in the initial state, the end view of the long wing.

In Fig.3 the implant is in the initial state, a side view from the side of the short wing.

In Fig.4, the implant is in its initial state, a top view.

Figure 5 photographs of the patient's oral cavity and x-rays before and after prosthetics.

The subcortical implant is made in the form of a curved plate having a long wing 1 parallel to the short wing 2, with a supporting conical head 3 on the long wing 1. The ratio of the length of the short wing 2 to the long wing 1 is 1: 3. The long wing 1 is bent at an angle of about 160 °. At the end of the long wing in the middle, a horizontal slot 4 is made to form a locking element in the form of two legs diverging in opposite directions in the frontal plane. At the end of the short wing 2, there is a fixing element in the form of a figure-eight vertically extending downward, with the figure-eight upper ring 5 having a slot 6 in the middle in front, with the divergence of the ends of the resulting half rings at an angle of 15 ° -20 °. The lower eight ring 7 has a slot 8 at the base, with the divergence of the ends of the obtained half rings at an angle of 15 ° -20 °.

At the border of the transition of the bending of the plate into wings, recesses 9 are made at the upper edge.

On the long wing 1 is additionally located the second supporting conical head 10.

When installing the implant in the upper jaw, a short wing 2 with a fixing element in the shape of a figure of eight is installed along the lingual cortical plate of the alveolar process in the tubercle of the upper jaw, the least susceptible to atrophy. The long wing 1 with supporting heads 3, 10 is installed along the lingual cortical plate of the alveolar process in order to increase the radius of the dental arch of the upper jaw, which is important when correcting a prognathic or direct bite.

On the lower jaw, the short wing 2 is located vestibularly, the long wing 1 with supporting heads 3, 10 is positioned along the lingual cortical plate of the alveolar process, which allows you to correct the prognathic position of the jaw into orthognathic during prosthetics.

The fixing elements in the process of form restoration wedge in the bone tissue of the alveolar process reliably stabilize the implant, which is reduced in height, in the bone in two planes, significantly increasing the area of its support.

The implant is used as follows: for a patient with no teeth in the lateral part of the jaw in the center of the crest of the alveolar ridge, an incision is made to the depth of the mucoperiosteal flap, the flaps are orally and vestibularly exposed, the cutter forms a slit-like bone bed under the edge of the implant wing and, in accordance with the size, designs. The implant is cooled with a refrigerant to a temperature of 0 ° C, with the help of a tool the fixing elements are brought in one plane with the wings 1, 2 of the implant, after which the implant is placed in the prepared bed, with complete immersion

wings of the implant in the alveolar bone. After 20-30 seconds, due to the realization of the shape memory effect that occurs upon contact heating, the design takes its original shape, the implant fixing elements diverging in the frontal and sagittal planes reliably stabilize the structure in the bone. The mucoperiosteal flap is sutured, the conical heads of the implant rise above the level of the mucosa, protruding into the oral cavity.

Example:

Patient P., 50 years old. Case history: at 51, he turned to the dental clinic MITs SPF. There are no 17, 14, 12, 11, 22, 24, 25, 28 teeth of the upper jaw, from 38 to 34 and from 44 to 48 of the lower jaw. The roots 11, 23 of the teeth must be removed. Regressive transformation of the alveolar process of the lower jaw, having a concave outline of the crest. The vertical size above the mandibular nerve is less than 5 mm. 21 teeth overlap 31 and 32 by more than 2/3 of the crown. Extension of the teeth of the lateral group of the upper jaw. Subcortical implants are installed in the patient in the lateral parts of the lower jaw.

The postoperative period was uneventful, the sutures were removed after 7 days, the prosthetics was completed 15 days after the operation. Examined 2 years after implantation. The cosmetic and functional result of the treatment is good, the bite is orthognathic. Implants are motionless. X-ray resorption zones in the area of implants are not observed, the shoulders of both wings of the implant are outside the crest of the alveolar ridge of Figure 5.

Thus, the proposed design of the utility model provides increased implant stability in the minimum volume of bone tissue of the alveolar process of the edentulous part of the jaw, reduces the time interval from implant placement to prosthetics, increases reliability and extends the life of the prosthetic implant system. The preset implant bend allows you to adjust the radius

dental arch of the jaw, which is important when correcting a prognathic or direct bite.

Claims (2)

1. A subcortical implant in the form of a curved plate having a long wing parallel to the short wing, with a supporting conical head on the long wing, characterized in that it is made of metal with thermomechanical memory with a wing length ratio of 1: 3, the long wing is curved with a bend angle 160 °, at the end of a long wing in the middle there is a horizontal slot for the formation of a fixing element in the form of two legs diverging in different directions in the frontal plane, at the end of the short wing there is a fixing a bearing element in the form of a figure-eight vertically extending downward, with the upper figure-eight ring having a slot in the middle in the front and the lower one in the base, with the ends of the obtained half-rings diverging at an angle of 15-20 °, recesses are made at the border of the plate bending into wings at the upper edge. 2. A subcortical implant in the form of a curved plate according to claim 1, characterized in that the second supporting conical head is additionally located on the long wing.