RU2106831C1 - Module method for assembling implant - Google Patents

Abstract

FIELD: medical engineering. SUBSTANCE: device has endosseous plate 1 and two removable heads 3 connected to the endosseous plate by pins 4 mounted on necks of removable heads 3 along the plane of endosseous plate in parallel relation to one another. Necks 5 are made from endosseous plate segments and have rest platforms 6 positioned in orthogonal relation to the plane of endosseous plate 1 and their diameter is selected to be greater than or equal to removable head diameter. The ends of each pin 4 are attached to rest platform 6 of the corresponding neck. A removable head is made from bushing 3 having longitudinal threaded hole so that ratio of diameter of pin 4 to the thickness of endosseous plate 1 is selected in the range of 1.1-3.1 and ratio of distance between longitudinal axes of the pins to their diameter is selected in the range of 3.0-9.0. EFFECT: several kinds of wound adhesion selectable; enhanced effectiveness in correcting longitudinal tooth axis; lower load on endosseous plate. 14 cl, 8 dwg

Description

 The invention relates to orthopedic dentistry and can be used for the manufacture of a bridge or denture.

 Known endoaxial plate implant containing endoaxial plate with endoaxial holes and a pin mounted on it along its plane on the neck of the endoaxial plate, (US patent N4693686, class A 63 C 8/00, publ. 1987).

 This technical solution can only be used to model one tooth.

 Known platelet endo-axial implant containing an endo-axial plate, two studs fixed on it along its plane by means of a single neck made from a segment of the endo-axial plate (UK application N2193640, class A 61 C 8/00, publ. 1988).

 This implant can be used to model two teeth.

 A limitation of the technical solution is the impossibility of correcting the position of the removable head if it is mounted on a stud, because if the longitudinal axis of one of the teeth and the implant head do not coincide after installing it in the bed, the neck cannot be bent without changing the position of the other stud.

 Known endoaxial plate implant containing endoaxial plate with endoaxial holes and at least two removable heads connected to the endoaxial plate by threaded connection through studs mounted on the neck of the removable heads along the plane of the endoaxial plate in parallel with each other (US patent N4177562, class A 61 C 8/00, publ. 1979).

 The limitations of this technical solution are: significant bone trauma during the formation of the receptive bed; to install such an implant, the width of the crest of the alveolar ridge should be wide enough, not less than 8 mm; there is no way to bend the endoosal plate in the shape of an ridge arc due to the used V-shaped profile of the endoosal plate; there is no possibility of correcting the longitudinal axis of the tooth, because the neck of the implant is made in the form of a head pin; long period of formation of a new bone in the holes of the endo-axial plate due to its V-shaped profile.

 The closest technical solution is the modular assembly of the implant, containing an endo-axial plate with endo-axial holes and two removable heads connected to the endo-axial plate by a threaded connection through studs mounted on the neck of the removable heads along the plane of the endo-axial plate parallel to each other (US Pat. No. 4,545,296, Cl. A 61 C 8/00, publ. 1985).

 The main disadvantage of this technical solution is an even more significant bone injury during the formation of the bed, because to ensure the necessary stiffness of the studs, the endo-axial plate must be selected with a thickness of at least 4 mm. Since the bone walls around the endoosal plate should be at least 2 mm, the alveolar bone should be at least 8 mm thick, and a crest of this thickness is rare. Due to the large thickness of the endo-axial plate, it is structurally impossible to choose the ratio of the diameter of the stud to the thickness of the endo-axial plate more than 1, because the stud is screwed into the plate.

 In this design, the endo-axial plate is fixed in the alveolar process with pins, which leads to additional trauma and, moreover, it is difficult to install the pins, because the outer surface of the bone is at an angle to the plane of the endo-axial plate of the implant.

 The formation of a new bone in the holes of the endoosal plate occurs in a long time, at least 6 months. In addition, the healing process worsens, because after the formation of the receiving bed, a neck with a smaller diameter than the thickness of the endoaxial plate is screwed in, free space appears, which allows the neck to move.

 Limitations are also: the inability to correct the position of the head due to the conical shape of the neck, and because of its large height, the implant can only be used with a mucous membrane thickness of at least 3 mm; the difficulty of bending along the arc of the endo-axial plate in the shape of the ridge of the alveolar process due to the large thickness of the plate; poor blood supply to the implant.

 The problem solved by the invention is the expansion of functionality, reduction of treatment time and improvement of maintainability.

 The technical result that can be obtained by carrying out the invention is the ability to select various types of wound healing, correction of the longitudinal axis of the tooth, correction of the curvature of the endo-axial plate relative to the shape of the alveolar bone, reduction of the load on the endo-axial plate and, therefore, on the injured bone.

 To solve the problem with achieving a technical result, in the known modular assembly of the implant containing the endo-axial plate with endo-axial holes and two removable heads connected to the endo-axial plate by a threaded connection using studs mounted on the necks of the removable heads along the plane of the endo-axial plate parallel to each other, the necks are made from segments of the endoosal plate and equipped with supporting pads that are located orthogonal to the plane of the endoosal plate and their diameter p is chosen to be greater than or equal to the diameter of the removable head, the ends of each of the studs are fixed on the supporting platform of the corresponding neck, the removable head is made of a sleeve in which a longitudinal hole with a thread is made, and the ratio of the diameter of the stud to the thickness of the endoaxial plate is selected in the range from 1.1 to 3.1, and the ratio of the distance between the longitudinal axes of the studs to their diameter is selected in the range from 3.0 to 9.0.

Additional embodiments of the invention are possible in which it is advisable that:
- removable heads were selected from a set of bushings made with different lengths along the longitudinal axis;
- the ratio of the area of the endo-axial plate to the sum of the areas of the diameters of the endo-axial holes was selected in the range of 1.5 - 1.7;
- the ratio of the longitudinal length of the sleeve to the length of the studs was chosen no more than 1.2;
- the ratio of the longitudinal length of the sleeve to the length of the studs was selected in the range of 1.2 - 3.5;
- the longitudinal threaded hole was made through,
- the sleeve was cylindrical;
- the sleeve was made conical, and an annular groove would have been made on the conical surface;
- the length of the longitudinal hole with a thread was chosen smaller than the longitudinal length of the sleeve, and from the side of the cylindrical surface of the sleeve there was a transverse hole located orthogonal to the longitudinal axis of the sleeve outside its longitudinal hole with thread;
- a cotter pin, an elastic element, a cup were introduced, the sleeve would be able to be placed inside the glass and move it along the longitudinal axis of the sleeve, and the elastic element was installed between the bottom of the glass and the base of the sleeve, a transverse hole was made in the glass, the diameter of which was chosen to be large than the diameter of the cotter pin, the cup is connected to the sleeve by means of a cotter pin located in the transverse hole of the cup and sleeve and fixed in the transverse hole of the sleeve;
- the elastic element was made in the form of a cylinder of silicone rubber;
- a sleeve was introduced, which is made with the possibility of changing its length and is fixed on the outer cylindrical surfaces of two adjacent glasses;
- the coupling was made in the form of a bar and threaded shanks, a threaded hole would be made in the bar, and threaded shanks were installed in it with the possibility of screwing in and out to change the distance between the free ends of the shanks, which are made with the possibility of their fastening on the outer cylindrical surfaces of two adjacent glasses by means of V-shaped petals, each of which is fixed to the free ends of the threaded shanks;
- an attachment was introduced, which is made of a patrician of the D-shaped section with the possibility of attaching V-shaped legs, part of the patrician to the crown of the abutment, and of the matrix of the U-shaped section, and on the side of the glass the matrix is made with a blind wall connected to its U- shaped walls, and on the side of the crown, the matrix is made open with the possibility of pairing its inner surface with the outer surface of the U-shaped part of the patrician, an elastic element is installed between the outer surface of the U-shaped part of the patrician and that matrix wall it is connected to all its other walls, a threaded hole is made in the blind wall of the matrix, in which a threaded attachment shank is installed with the possibility of screwing in and out to change its length between the blind wall of the matrix and the glass, and in the U-shaped part of the patrician holes are made from the side walls of the matrix, in which a cotter pin is installed with the possibility of coupling the patrician and the matrix, and the diameter of the hole in the matrix is chosen larger than the diameter of the cotter pin.

 Due to the modular assembly of the implant in accordance with the above, it is possible to expand the functionality of the implant, reduce treatment time and improve the maintainability of the device.

 These advantages, as well as features of the present invention will become apparent when considering the best options for its implementation with reference to the accompanying drawings.

FIG. 1 shows an endoaxial plate with studs;
FIG. 2 - the same, top view;
FIG. 3 - sleeve for the healing process by the type of osseointegration;
FIG. 4 - sleeve for screw fastening of infrastructure;
FIG. 5 - sleeve for fixing infrastructure on cement;
FIG. 6 - sleeve for using a shock absorber;
FIG. 7 is a general view of the individual parts of a modular assembly;
FIG. 8 is a diagram of a modular assembly installation using shock absorbers with a support crown on a single-root tooth.

 The modular assembly of the implant (Fig. 1,2) includes an endo-axial plate 1, in which endo-axial holes 2 and two removable heads are made, which are made in the form of bushings 3 (Figs. 3, 4, 5, 6). The studs 4 (FIGS. 1, 2) are mounted on the necks 5. The necks 5 are made of segments of the endoaxial plate 1 and are equipped with supporting platforms 6. The supporting platforms 6 are located orthogonally to the plane of the endoaxial plate 1 and their diameter is selected to be greater than or equal to the maximum diameter of the bushings 3 (FIG. . 3-6). The ends of each of the studs 4 are fixed on the corresponding supporting platform 6. A longitudinal hole 7 with a thread is made in the sleeve 3.

 Removable heads are selected from a set of bushings 3 with different lengths along their longitudinal axis, for example, sizes 2 mm, 5 mm, 6 mm, 7 mm, etc.

 In FIG. 3 shows a sleeve 3, in which the ratio of the longitudinal length to the length of the stud 4 is selected no more than 1.2.

 In FIG. 4, 5, 6, bushings 3 are shown in which the ratio of the longitudinal length to the length of the stud 4 is selected in the range 1.2 -3.5.

 In FIG. 4 shows a sleeve 3 for screw fastening the infrastructure, and the infrastructure can be fixed by screw 8 (Fig.7) in the same longitudinal hole 7 with a thread towards the stud 4, for this the longitudinal hole 7 is made through.

 When attaching the infrastructure to the cement, the sleeve 3 (Fig. 5) is made conical with an annular groove 9.

 The length of the longitudinal hole 7 with a thread is chosen smaller than the longitudinal length of the sleeve 3 (Fig. 6), and a transverse hole 10 is made on the side of the cylindrical surface of the sleeve 3. Such a sleeve 3 is designed to improve the implant and install shock absorbers.

 The assembly is additionally equipped with a cotter pin 11, an elastic element 12, a glass 13. The glass 13 is mounted on the sleeve 3 and an elastic element 12 is placed between them (Fig. 7.8). The glass 13 and the sleeve 3 are connected by a cotter pin 11 installed in the transverse hole 10 of the sleeve 3 and in the transverse hole 10 of the glass 13. The elastic element 12 is made in the form of a cylinder of silicone rubber.

 The coupling connecting the adjacent glasses 13 can be made in the form of a bar 14 and threaded shanks 15. The threaded shanks 15 are fixed on the cylindrical surfaces of two adjacent glasses 13 by soldering V-shaped lobes (not shown in Figs. 7 and 8).

 In addition, an attachment can be introduced which is made of a patrician 16 of the D-shaped section and a matrix 17 of the U-shaped section. The V-shaped legs 18 of the part of the patrician 16 are fixed, for example, by soldering on the crown 19 of the supporting tooth. The matrix 17 is mounted on the patrician 16 and an elastic element 12 is placed between them. The matrix 17 is also provided with a threaded shank 15 for mounting it on the cylindrical surface of the glass 13 by means of a V-shaped lobe (not shown in Figs. 7 and 8). The V-shaped lobe of the threaded shank 15 is made similar to the legs 18 of the patrician 16. The holes 20 are made in the walls of the matrix 17 and the patrician 16, in which, in accordance with the above, a cotter pin 11 is installed, the diameter of which is smaller than the diameter of the hole 20 in the matrix 17.

 The thickness of the endoaxial plate 1 is selected from the condition for ensuring the speed of healing of the implant and is 1.35 -1.8 mm The most optimal is the thickness of the endo-axial plate 1 - 1.65 mm (while in practice, endo-axial plate implants without removable heads with a thickness of 1.3 mm are currently used), since the thickness of 1.65 mm of the endo-axial plate 1 corresponds to the alveolar process, the crest of which has a thickness (2 + 1.65 + 2) - 5.65 mm, which occurs in almost 90% of cases. In addition, by increasing the thickness of the endo-axial plate 1 and, accordingly, of the neck 5, the possibility of fracture of the implant in the region of the neck 5 from chewing load is excluded and the area of the support increases.

 To ensure the rigidity of the studs 4, the ratio of the diameter of the stud 4 to the thickness of the endo-axial plate 1 should be selected in the range from 1.1 to 3.1. With a ratio less than 1.1; possible spontaneous bending and displacement of the studs 4 under the influence of the load, which is usually 20 to 30 kg with normal chewing. An increase in this ratio above 3.1 is impractical, since it is necessary to manufacture bushings 3 with small diameters, which is not technologically advanced. In addition, maintainability is deteriorating, especially in cases where removable heads with shock absorbers are used, and it is also difficult to install couplings and attachments. From these conditions, the ratio of the distance between the longitudinal axes of the studs 4 to their diameter for the thicknesses of the endo-axial plate of 1.35 - 1.8 mm in the range from 3.0 to 9.0 is selected. For an optimal plate thickness of 1.65 mm, the distance between the studs is 12 mm for modeling one tooth on two removable heads and 16 mm for modeling two teeth.

 The ratio of the area of the endo-axial plate 1 to the sum of the areas of the diameters of the endo-axial holes 2 (diameters 2.5-3 mm) was chosen optimal in the range of 1.5 - 1.7, which allows the formation of a new bone faster.

 Support pads 6 (optimal diameter-4 mm, Thickness-0.5 mm) serve to limit the excessive introduction of the implant into the receptive bed of the alveolar process. Studs 4 can be selected with a length of 1.8-3 mm with a metric thread from a row of 2-3 mm. The implementation of the sleeves 3 (Fig. 4,5,6) with different longitudinal lengths, for example, 5 mm, 6 mm, 7 mm, allows fitting removable heads to the height of the bite by selecting the appropriate sleeve 3 or slightly grinding the sleeve 3 with a drill outside the cavity the mouth.

 The modular assembly of the implant can be used both for fixing bridges if bushings 3 are screwed (Figs. 4 and 5), and for fixing a removable or conditionally removable prosthesis if bushings 3 are used for the healing period (Fig. 3), made in the form of small lids. The doctor has a choice of what type of healing to lead. If bushings 3 are screwed onto the studs 4 (Fig. 3), then the covers only 1–2 mm rise above the level of the mucous membrane and, naturally, when eating such bushings 3 do not contact the teeth of the opposite jaw and do not experience any load. Healing is a type of osseointegration. If the sleeve 3 is screwed onto the stud 4 (Fig. 4,5), then in this case, when implanting, the implant experiences a load and healing proceeds according to the type of fibro-osteointegration.

 When using the assembly with shock absorbers (Fig. 7.8), it is possible to relieve chewing pressure on the implant and, in addition, it is sufficient to have only one abutment tooth.

 The installation of the implant is as follows.

 After local anesthesia, an incision is made in the gingival mucosa along the crest of the alveolar process 1–2 mm longer than the length of the installed endo-axial plate 1, for example, 18 or 22 mm. A cortical bone layer is sawn through with a wheel mill of 6 mm in diameter and 1.5 mm thick. Further, through the guide groove with carbide bur 1.6 mm in diameter, a receptive bed is formed in the spongy layer of the bone with a length of 18 (22) mm, a width of 1.6 mm and a depth of 10 mm. The width of the bed was selected 0.05 mm less than the thickness of the endo-axial plate 1 to install the implant with interference. Then, by lightly tapping on the bushings (Fig. 3), the endo-axial plate 1 is inserted into the perceptual bone bed until the abutment pad 6 rests in the bone of the alveolar ridge. The postoperative wound is sutured. In this condition, the patient is only 3 to 4 months old, and if bushings 3 are used (Fig. 3), then the healing proceeds according to the type of osseointegration. Three months later, they are screwed on depending on the type of infrastructure used for the prosthesis sleeve 3 (Fig. 4,5,6).

 The assembly of the implant with shock absorbers (Fig. 7.8) is as follows.

 A threaded shank 15 is soldered to the glass 13. For the bushings 3 (Fig. 6), for example, with a diameter of 4 mm, the inner diameter of the glass 13 can be selected 4.25 mm. Then, using a bar 14, rotating one of the crowns with a soldered shank 15, adjust such a length so that the glasses 13 are easily put on and removed from the bushings 3. Having set the desired length, the threaded shanks 15 are soldered to the bar 14. On the bushings 3 and in the attachment elastic elements 12 and crowns are fixed with cotter pins 11.

 The manufacturing time of the bridge, taking into account the time of modeling teeth from wax and preparing the plastic, is 2–3 hours. Thus, it is possible to assemble a bridge of any length, including, if necessary, 2–3 implants. Micromotion in the periodontium of the tooth and micromotion of the implant within the physiological norm (0.25 mm) create the conditions for the formation of the thinnest fibrous membrane around the endoaxial plate 1. The introduction of elastic elements 12 also allows you to eliminate the imbalance in the micromotion of the supporting tooth and the implant and reduce the load on them from 13 , 6 to 20.4 kg.

 By removing the cotter pins 11 on the attachment and from the sleeves 3, the bridge can be easily disassembled, it can be repaired in laboratory conditions, treatment and prevention of any diseases of the teeth and mucous membrane under the bridge, remove dental deposits.

 The installation of an implant in the oral cavity does not require strict adherence to the parallelism of the conditionally imaginary axes of the abutment and removable heads, since the necessary parallelism of these axes is achieved by the use of an attachment with an elastic connection and the bridge is assembled in the patient’s mouth after fixing the support crown on cement and installing a modular assembly.

 The most successfully declared modular assembly of the implant can be used in the manufacture of bridges and dentures.

Claims (14)

 1. A modular assembly of the implant containing an endo-axial plate with endo-axial holes and two removable heads connected to the endo-axial plate by a threaded connection using studs mounted on the neck of the removable heads parallel to each other along the plane of the endo-axial plate, characterized in that the necks are made of segments of the endo-axial plate and equipped with supporting pads that are located orthogonal to the plane of the endo-axial plate, and their diameter is selected to be greater than or equal to the diameter of the removable head, the ends each of the studs is fixed on the supporting platform of the corresponding neck, the removable head is made of a sleeve in which a longitudinal hole with a thread is made, and the ratio of the diameter of the stud to the thickness of the endoaxial plate is selected in the range 1.1 - 3.1, and the ratio of the distance between the longitudinal axes of the studs to their diameter selected in the range 3 - 9.  2. The assembly according to claim 1, characterized in that the removable heads are selected from a set of bushings made with different lengths along the longitudinal axis.  3. The assembly according to claim 1, characterized in that the ratio of the area of the endo-axial plate to the sum of the area of the diameters of the endo-axial holes is selected in the range of 1.5 - 1.7.  4. The assembly according to claim 1, characterized in that the ratio of the longitudinal length of the sleeve to the length of the studs is selected no more than 1.2.  5. The assembly according to claim 1, characterized in that the ratio of the longitudinal length of the sleeve to the length of the studs is selected in the range of 1.2 - 3.5.  6. The assembly according to claim 4 or 5, characterized in that the longitudinal hole with a thread is made through.  7. The assembly according to claim 4 or 5, characterized in that the sleeve is cylindrical.  8. The assembly according to claim 5, characterized in that the sleeve is made conical and an annular groove is made on the conical surface.  9. The assembly according to claims 5 and 7, characterized in that the length of the longitudinal hole with the thread is chosen smaller than the longitudinal length of the sleeve, and on the side of the cylindrical surface of the sleeve there is a transverse hole located orthogonally to the longitudinal axis of the sleeve outside its longitudinal hole with thread.  10. The assembly according to claim 9, characterized in that a cotter pin, an elastic element, a cup, a sleeve are inserted with the possibility of its placement inside the cup and moving it along the longitudinal axis of the sleeve, and the elastic element is installed between the bottom of the cup and the base of the sleeve, in the cup a transverse hole, the diameter of which is chosen larger than the diameter of the forelock, the cup is connected to the sleeve by means of a forelock placed in the transverse holes of the cup and the sleeve and fixed in the transverse hole of the sleeve.  11. The assembly of claim 10, wherein the elastic element is made in the form of a cylinder of silicone rubber.  12. The assembly of claim 10, characterized in that the coupling is inserted, which is made with the possibility of changing its length and is mounted on the outer cylindrical surfaces of two adjacent glasses.  13. The assembly according to p. 12, characterized in that the coupling is made in the form of a bar and threaded shanks, a threaded hole is made in the bar, and threaded shanks are installed in it with the possibility of screwing in and out to change the distance between the free ends of the shanks, which are made with the possibility of fixing them on the outer cylindrical surfaces of two adjacent glasses by means of V-shaped petals, each of which is fixed to the free ends of the threaded shanks.  14. The assembly according to PP.11 and 13, characterized in that the attachment is introduced, which is made of a D-shaped patrician with the possibility of attaching the V-shaped legs of the part of the patrician to the crown of the abutment tooth, and of the U-shaped matrix, and from the side of the glass, the matrix is made with a blind wall connected to its U-shaped walls, and on the side of the crown, the matrix is made open with the possibility of pairing its inner surface with the outer surface of the U-shaped part of the patrician, an elastic element is installed between the outer surface of the U-shaped hour In the blind wall of the matrix, a threaded hole is made in which a threaded shank of the attachment is installed with the possibility of screwing in and out to change its length between the blind wall of the matrix and the glass, and in the wall П -shaped part of the patrician and in one of the side walls of the matrix holes are made in which a cotter pin is installed with the possibility of coupling the patrician and the matrix, and the diameter of the hole in the matrix is chosen larger than the diameter of the cotter pin.

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