RU2210336C1 - Universal turning support between implant and dental prosthesis - Google Patents

Abstract

FIELD: medicine; applicable in stomatology, particularly, prosthodentics in elimination of malocclusion. SUBSTANCE: ball head with leg is installed in spherical body. Spherical body has shank with thread secured in implant installed in jaw alveolar processes. Ball head leg has thread and is installed into fixing truncated cone secured in prosthesis or tooth. Ball head has radial recess. Side surface of spherical body is curved inside sphere to form projection entering radial recess of ball head. Projection getting into recess prevents turning of ball head in screwing-on of fixing supporting truncated cone. Spherical body lower part has oval hole through which ball head leg protrudes. Ball head is movable relative to spherical body over trajectory of spherical ellipsoid sector with motion relative to vertical axis of transplant together with fixing truncated cone secured in prosthesis or tooth. Fixing truncated cone, from end of large diameter, has hemispherical hollow covering oval hole of spherical body. Fixing truncated cone holds ball head in preset position. End face of small diameter of fixing truncated cone has transverse recess for screwdriver. Fixing truncated cone has through cylindrical stepped hole with variable diameter and threads from both ends. EFFECT: provided formation of normal occlusion of jaws due to change of position of prosthesis or tooth through required angle relative to implant in two planes. 9 cl, 4 dwg

Description

 The invention relates to medicine and can be used in dentistry, in particular in orthopedic dentistry, while correcting occlusion (occlusion) by means of fixed dentures or individual teeth fixed on implants mounted on the lower and upper jaws, both with partial and especially complete adentia.

 The anatomical feature of the upper jaw is that the alveolar processes in relation to the palatine plate are at an angle that is individual for each person.

 Therefore, dental implants installed in the alveolar processes of the upper jaw, depending on their inclination to the palatine plate, make it difficult or impossible to form the correct occlusion (occlusion) in relation to the teeth of the antagonists on the lower jaw when prosthetics on the implants.

 To solve this problem, various types of support heads are used to install dentures on the implant.

So, support angles on the implant are widespread in Russia, allowing you to install dentures at various fixed angles of 6 ^o , 8 ^o , 10 ^o , 20 ^o , 25 ^o , 30 ^o (set). The supporting angular heads are made entirely of titanium and consist of an implant and a supporting head located at a fixed angle to fix the tooth or denture.

 (Instruments and implants for surgery made of titanium, ZAO "KONMENT", Russia, Moscow. Registration certificate number 07 • 105740).

 The disadvantage of this device is that it is not possible to individually change the angle of inclination. Not always a fixed angle of inclination of the head from the set corresponds to the angle that is necessary to create the correct occlusion of the bite (physiological bite) due to the individual anatomical features of the jaws of the patient.

 For work, it is necessary to have a large number of sets, with some of the structures used more often than the others, and the need for them is higher. This need is not always predictable.

 In addition, the design does not allow you to change the angle in another plane and does not allow you to adjust the position of the prosthesis and the tooth, or teeth relative to each other in the dentition.

A device is known, selected as a prototype, which is used to create the correct occlusion of the bite and is used in the USA (Linkov L.I. Without dentures, St. Petersburg, 1993, p. 88-91). The device consists of two parts. One part is immersed in a bone and has an end onto which a pivot pin is screwed. The pin can rotate 360 ^o and deviate from the vertical plane by 34 ^o .

 This device has the following disadvantages.

A rigidly set angle of 34 ^o in the vast majority of cases does not allow you to create a physiological bite, especially with complete loss of teeth (complete adentia) of the jaws.

 It does not allow you to adjust the position of dentures and teeth in another plane.

 The presence of cylindrical cavities in the teeth requires their closure with a composite.

 The objective of the invention is the creation of a universal rotary support, which allows to form the correct occlusion of the jaws by changing the required angle of the position of the prosthesis or tooth relative to the implant in two planes.

The task is achieved in that the universal swivel bearing is made of titanium and its alloys and is a prefabricated structure of three parts:
- spherical body with a shank;
- a movable ball head with a leg;
- fixing truncated cone.

 Ball head with foot mounted in a spherical body. The spherical body has a threaded shank, which is fixed in the implant installed in the alveolar processes of the jaws. The leg of the ball head is threaded and installed in a fixing truncated cone, fixed in the prosthesis or tooth. The ball head has a meridian groove. The lateral surface of the spherical body is curved into the sphere and forms a protrusion that enters the meridional groove of the ball head. The protrusion, falling into the groove, prevents rotation of the ball head when screwing the locking support truncated cone. The spherical body in the lower part has an oval hole through which the leg of the ball head exits. The ball head has the ability to move relative to the spherical body along the trajectory of the spherical ellipse sector, moving relative to the vertical axis of the graft by an angle from 0 to 40 degrees and relative to the horizontal axis by an angle from 0 to 8 degrees, together with a fixing truncated cone fixed in the prosthesis or tooth. The fixing truncated cone from the end face of a large diameter has a hemispherical cavity overlapping the oval hole of the spherical body. A locking truncated cone holds the ball head in position. A transverse groove for a screwdriver is made from the end face of the smaller diameter of the fixing truncated cone. Through the fixing truncated cone passes through a cylindrical hole. The hole is stepped with a variable diameter and has a thread on both ends. The cylindrical hole has a larger diameter on the hemisphere side, corresponding to the diameter of the legs of the ball head. The cylindrical hole on the opposite side has a smaller diameter corresponding to the diameter of the screw. On the lateral surface of the fixing truncated cone, two annular grooves are made, which improve its fixation in the prosthesis or tooth using a binder. The fixing truncated cone can be fixed in the prosthesis or tooth with a screw. At the points of transition of the sphere into the shank and the ball head into the leg, fillet-shaped conjugation is performed.

 In accordance with the claimed technical solution, the criterion of "novelty" is confirmed by the presence of the following features that are absent in the prototype.

 1. The body of the universal swivel bearing is made in the form of a hollow sphere having an oval hole below, restricting the movement of the ball head within specified limits.

 2. The spherical body is curved into the sphere and forms a protrusion, which is included in the meridian groove of the ball head, which prevents the ball head from turning when the fixing support truncated body is screwed on.

 3. The spherical body has a threaded shank with which to install in the implant.

 4. The ball head is inserted into a spherical body, has a meridian groove and a leg, with a thread extending through an oval hole onto which a fixing truncated cone is screwed.

 5. The ball head moves along the trajectory of the spherical ellipse sector with a deviation relative to the vertical axis of the graft by an angle from 0 to 40 degrees and relative to the horizontal axis by an angle from 0 to 8 degrees.

 6. The fixing truncated cone from the end face of a large diameter has a hollow in the form of a hemisphere.

 7. The hemisphere overlaps the oval hole of the spherical body.

 8. The fixing truncated cone from the end face of a smaller diameter has a transverse groove.

 9. Inside the fixing truncated cone, a through cylindrical step hole is made with a thread at the ends.

 10. The through cylindrical step hole has a larger diameter on the hemisphere side corresponding to the diameter of the ball head, and a smaller diameter on the opposite side corresponding to the diameter of the screw.

 11. On the side surface of the truncated body, annular grooves are made.

 12. The fixing truncated cone is fixed in the prosthesis or tooth by a bonding material.

 13. The fixing truncated cone is fixed in the prosthesis or tooth with a screw.

 14. At the transition of the spherical body into the shank and the ball head into the leg, fillet-shaped mating was performed.

 The claimed technical solution provides reliable support for a tooth or prosthesis and their fixation after the formation of the correct bite (occlusion) with non-removable dental prosthetics on implants.

 The invention is illustrated by drawings, where figure 1 shows a cross section of the upper jaw of a person with the placement in the alveolar processes of implants and a universal rotary support; figure 2 is a longitudinal section of a universal rotary support; figure 3 is a photograph of the upper jaw of the patient with installed universal rotary supports; figure 4 is a photograph of the jaws of the patient after installing the teeth in the dentures with full edentia in the correct occlusion of the bite.

 In FIG. 1, view A shows the installation of a universal rotary support at a different angle when the support is displaced in a vertical plane to form a bite of the upper jaw relative to the lower jaw, while the axes a and parallel. View B - shows the installation of a rotary support with a shift of the dentures in the horizontal plane, when the position of the dentures relative to each other in the dentition of one jaw of the upper or lower is regulated.

 Figure 2 shows a universal swivel bearing, where the ball head 1, having a leg with thread 2, is installed in a spherical body 3 with a shank 4, also having a thread. The shank 4 is installed in the implant 5. At the junction of the spherical body into the shank, fillet-shaped mating is made 6. The spherical body 3 has an elongated oval hole 7. In the spherical body 3, a protrusion 8 is formed, directed inward and entering into the radial groove 9 on the ball head 1 A fixing truncated cone 10 is screwed onto the leg 2, having a hemisphere 11 from the larger diameter side that overlaps the opening 7. A longitudinal groove 12 is made on the smaller diameter side of the fixing truncated cone 10. On the side surface Two annular grooves 13 are made of the cone 10. Inside the cone 10 there is a through cylindrical step hole with a thread at both ends, having a larger diameter 14 from the hemisphere 11 and a smaller diameter 15 from the opposite side, corresponding to the screw 16. At the junction of the ball head into the leg the fillet is made in the form of a fillet 17.

 The device operates as follows.

 First, the spherical body 3 is screwed into the dental implant 5 until it stops. After that, we draw a line on the spherical body 3 from the side of the end to the supposed side of inclination and unscrew the spherical body 3 from the dental implant. Then we work out the end face of the spherical body 3 in the direction of the intended inclination, forming an oval 7 along the intended line, the dimensions of which are selected in such a way as to ensure movement relative to the vertical axis of the graft by an angle from 0 to 40 degrees and relative to the horizontal axis by an angle from 0 to 8 degrees.

 After that, a spherical head with a leg 1 is installed in the spherical body 3 and the spherical body 3 is crimped. By rolling with a spherical body 3, the ball of the ball head 1 is rolled. Then the ball head 1 is mounted with a groove 9 in the opposite direction of the tilt of the leg 2 and a protrusion 8 is made on the spherical body 3, directed inward and entering into the radial groove 9 of the ball head 1, and the assembled ball head with a spherical screw the housing into the dental implant 5. Then screw the truncated locking cone 10 onto the leg 2 of the ball head 1 and install the truncated locking cone 10 in the desired position and fix it. The installation angle of the truncated locking cone 10 is determined visually by the bite of the jaws. On a truncated fixing cone 10, the tooth or denture is fixed with a composite (one option) or a screw 16 (another option). When fixing the composite ring grooves 13, made on the side surface of the locking cone 10, provide better grip and strong fixation. Fillet-shaped mating 11, 17 provide better mating of surfaces when rotating the ball head and the spherical body.

 A physiological bite is formed taking into account the height of the crowns of the teeth of the jaws (lower and upper).

 Thus, the technical effect associated with the task for the formation of the correct bite is the creation of a universal rotary support between the implant and the denture, which allows you to change the angle of inclination of the truncated fixing cone in the dental implant and the fixed denture of the jaw of a person with the exception of the disadvantages of previous designs .

 The clinical effect that can be obtained by applying the claimed invention lies in the possibility of setting the correct bite (occlusion), not only with partial, but even with complete adentia of the jaw. The simplicity of the method and its high reliability make it possible to widely use it in practical public health with non-removable dental prosthetics on implants.

 The universal rotary support is successfully used at the Center for Dental Implantology, Novokuznetsk. With its help, 5 patients with full adentia and 11 with partial loss of teeth were prosthetized.

Claims (9)

 1. Universal swivel bearing between the implant and the denture for the formation of a bite when installing fixed dentures or individual teeth, including a ball head with a leg installed between the implant and the prosthesis with the possibility of deflecting the prosthesis from the axis of the implant, characterized in that the ball head with a leg is installed the head in a spherical body with a shank fixed in the implant, and the leg is installed in a fixing truncated cone fixed in the prosthesis, the ball head has a radial groove, spheres The spherical body has an oval hole in the lower part, its lateral surface is curved into the sphere with the formation of a protrusion in the radial groove on the ball head, the ball head is installed in the spherical body with the possibility of movement along the trajectory of the spherical ellipse sector with movement relative to the vertical and horizontal axes of the graft with a fixing truncated cone fixed in the prosthesis or tooth, from the end face of a large diameter, the fixing truncated cone has a hemispherical cavity, overlapping an oval hole of the spherical body, and a transverse groove at the end of the smaller diameter, a through cylindrical step hole with a thread at both ends is made inside the fixing truncated cone. 2. The universal rotary support according to claim 1, characterized in that the denture or tooth is mounted with the ability to move relative to the vertical axis of the graft by an angle from 0 to 40 ^o and relative to the horizontal axis by an angle from 0 to 8 ^o .  3. The universal swivel bearing according to claim 1, characterized in that the shank of the spherical body has a thread.  4. The universal swivel bearing according to claim 1, characterized in that the ball head leg is threaded.  5. The universal swivel bearing according to claim 1, characterized in that two annular grooves are made on the lateral surface of the fixing truncated cone.  6. The universal swivel bearing according to claim 1, characterized in that the fixing truncated cone is fixed in the prosthesis or tooth by a bonding material.  7. The universal swivel bearing according to claim 1, characterized in that the through cylindrical stepped hole of the fixing truncated cone has a larger diameter on the hemisphere side corresponding to the diameter of the ball head leg and a smaller diameter on the opposite side corresponding to the diameter of the screw.  8. The universal rotary support according to claim 1, characterized in that the truncated cone is fixed in the prosthesis or in the tooth with a screw.  9. The universal swivel bearing according to claim 1, characterized in that at the transition of the spherical body into the shank and the ball head into the leg, the fillet is mated.

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