RU2437633C1 - Method of bone plasty during direct dental implantation - Google Patents

Abstract

FIELD: medicine. ^ SUBSTANCE: invention relates to medicine and is intended for creation of conditions for bone tissue regeneration during direct dental implantation. X-ray examination is performed. "Cause" tooth is anesthetised and extracted. Hole is processed with anseptics. Bone bed is prepared. Cylindrical nickelide-titanium implant is installed. Free space between implant and bone tissue in area of alveolus edges is filled with osteoplastic material "Bio-Oss", soaked with enriched with platelets patient's plasma. Bone wound with installed implant is covered with nickelide-titanium mesh with cell area 0.077 mm2 and position is fixed with nickelide-titanium pins. After that it is covered with resorbable membrane "Bio-Gide", overlapping defect edges on 4-5 mm. Mucous-periosteal flap is mobilised and wound is sutured hermetically without tightening. Antiseptic processing of oral cavity is carried out by 10 ml of 1% dioxydin solution. Outside part of face in projection of operated part is processed by polychromatic non-coherent polarised light with wavelength 400-2000 nm, density of light energy flow 2.4 J/cm2, degree of polarisation at outlet 95-98% for 2-4 minutes during 5-7 days. Sutures are removed after 8-12 days. ^ EFFECT: method makes it possible to perform bone plasty during direct dental implantation with restoration of lost bone in multiwall and single-wall defects. ^ 4 dwg, 1 ex

Description

The invention relates to medicine, in particular to dentistry, and can be used with direct dental implantation.

The closest technical solution is the method of bone grafting with direct dental implantation, including x-ray studies, removal of the "causal" tooth with anesthesia, curettage of the tooth socket with removal of pathologically changed tissues, irrigation of the hole of the removed tooth with a mixture of 30% lincomycin hydrochloride solution and 10% dioxidine solution taken in the ratio 4: 1, processing the wells through the injected mixture with low-frequency ultrasound in the mode of 24.5-26.5 kHz for 5 minutes by the waveguide from the installation "UT -1 "in a pulse mode 0,2-0,4-0,6 W / cm ² with a pulse repetition rate of 50 Hz, followed by drying the wells filled to 1/3 of its height« AlgOss osteoplastic bioresorbable material "with a grain size of 1 mm , dissection of the bone bed and compaction on the walls of the alveoli of the hole of the introduced osteoplastic material. The screw titanium implant is installed at the same level with the edges of the alveoli, while the free space between the implant and bone tissue in the region of the edges of the alveoli is filled, periodically densified with AlgOss osteoplastic material, the bone wound and granules of the material are covered with a Parodonkol bioresorbable membrane with an overlap on 3-4 mm of the edge of the bone wound, in which the membrane is wetted with blood, the wound is submucously insulated with a Diplendent film with lincomycin and sutured. They make and install a temporary, and after 3-4 weeks permanent artificial crown, based on the implant (RF patent No. 2366378, M.cl. A61C 8/00, 2008).

The disadvantages of this method are the low form-forming and form-stabilizing properties of the bioresorbable membrane, which limits its use in clinical cases with extensive bone defects. The absence of rigid fixation of the integumentary membrane to the surrounding bone defect leads to its submucosal displacement due to edema, mechanical influences and the subsequent germination of connective tissue in the area of the restored defect from the mucous membrane.

The objective of the invention is to create optimal conditions for the regeneration of bone tissue in the area of the defect and around the implant, to reduce the occurrence of undesirable risks associated with infection of the bone grafting site, excessive resorption of bone tissue and biomaterials, due to the shape-forming and form-stabilizing functions of the nickel-titanium elastic membrane.

The problem is achieved in that in the method of bone grafting with direct dental implantation, including x-ray examinations, tooth extraction, processing of the hole, insertion and fixation of the implant in the dental hole, it is new that after treatment of the hole with antiseptics and preparation of the bone bed, a cylindrical nickel titanium implant is installed , the free space between the implant and the bone tissue in the region of the edges of the alveoli is filled with osteoplastic material "Bio-Oss", pre-impregnated nnym platelet-rich plasma of patients with established bone wound implant harboring nikelidtitanovoy mesh with the cell area of 0.077 mm ^2, and fix the position nikelidtitanovymi pins, followed by coating with a resorbable membrane «Bio-Gide», overlapping the edges of the defect by 4-5 mm, mobilize mucoperiosteal the flap, the wound is sutured tightly without tension, an antiseptic treatment of the oral cavity is carried out with 10 ml of 1% dioxidine solution and exposed to polychromatic incoherent polarized light with a wavelength of 400-2000 nm, raft with a flow of light energy per minute 2.4 J / cm ² , the degree of polarization at the output of 95-98% daily 2-4 minutes for 5-7 days, then the seams are removed after 8-12 days.

The wound is treated with 10 ml of a 1% aqueous solution of dioxidine, due to its pronounced antibacterial effect.

The use of nickel-titanium elastic material for mesh and implant provides high biocompatibility with body tissues.

The use of nickel titanium mesh provides the restoration of the required volume of bone tissue defect. One of the advantages of using a nickel-titanium mesh is the ability to form a volume to make up for lost bone in single-wall and multi-wall defects.

The application of a fibrin film to the grid increases the adhesion of tissue elements to a strong framework during reparative osteogenesis in the area of a restored bone defect.

The application of a Bio-Gide bioresorbable membrane to the surface of the nickel-titanium mesh creates a barrier to the growth of soft tissue components into the bone defect from the mucosa of the alveolar bone in the early period of ongoing reparative osteogenesis.

The combined use of a nickel-titanium mesh with a bioresorbable membrane allows you to combine the shape-forming function of the mesh and its stability with the barrier function of the bioresorbable membrane.

Suturing the wound tightly without tension ensures complete microcirculation of the blood in the mucoperiosteal flap and prevents premature divergence of the edges of the wound.

The use of polychromatic incoherent polarized light from the Bioptron apparatus promotes accelerated regression of the inflammatory process, and has a membrane-stabilizing effect on tissue cells.

The method is as follows.

X-ray studies are carried out, including panoramic images in direct and lateral projection. After adequate pain relief, the “causal” tooth is removed. The wells are treated with antiseptics. A bone bed is prepared and a cylindrical nickel titanium implant is placed. The free space between the implant and the bone tissue in the region of the edges of the alveoli is filled with osteoplastic material “Bio-Oss”, previously impregnated with the platelet-rich plasma of the patient. The bone wound with the implant installed is covered with a nickel-titanium mesh with a cell area of 0.077 mm ² and the position is fixed with nickel-titanium pins. Then cover with a resorbable Bio-Gide membrane, which overlaps the edges of the defect by 4-5 mm. The mucoperiosteal flap is mobilized and the wound is sutured tightly without tension. Antiseptic treatment of the oral cavity is carried out with 10 ml of a 1% solution of dioxidine. A polychromatic incoherent polarized light with a wavelength of 400-2000 nm, a light flux density of 2.4 J / cm ² , a degree of polarization at the output of 95-98% is applied to the outside of the face in the projection of the operated area daily for 2-4 minutes for 5- 7 days. Sutures are removed after 8-12 days.

An example of a specific implementation. Patient A., 66 years old, turned to the “Scientific Dental Center” with complaints of a broken bridge. From the anamnesis it is known that the bridge structure lasted about 10 years. 6 months ago there was a breakdown of the prosthesis. During the initial examination, it was revealed that the medial support of the bridge - the upper right first premolar is destroyed to the level of the gums. When probing, the softening of the walls of the root of the tooth is determined. Radiological and tomographic examinations of the lower jaw were performed. Tooth extraction is indicated. The patient was offered a method of simultaneous implantation with full information about all stages of rehabilitation, as well as about alternative methods of treatment. A treatment plan has been drawn up. The operation was performed on April 12, 2010. Under mandibular and infiltration anesthesia of the lower jaw on the left, 3.6 ml of a 4% Ubistesin solution removed the root of the lower left first premolar. Curettage of the hole. A bone defect was treated with 10 ml of a 1% antiseptic solution of dioxidine. For subsequent suturing of the wound, a mucosal-periosteal flap was mobilized. The preparation of the bone bed. A nickel titanium implant is installed. The free space between the implant and the bone tissue in the region of the edges of the alveoli is filled with Bio-Oss osteoplastic material, previously impregnated with the platelet-rich plasma of the patient. The bone wound with the implant installed is covered with a nickel-titanium mesh with a cell area of 0.077 mm ² and fixation of its position by nickel-titanium pins. A bioresorbable Bio-Gide membrane overlapping the edges of the defect by 4-5 mm was applied over the mesh. The wound was sutured tightly in single sutures, without tension. Repeated antiseptic treatment of the oral cavity with 10 ml of 1% dioxidine solution. Outside, from the buccal region in the projection of the operated region, they were exposed to polychromatic incoherent polarized light with a wavelength of 400-2000 nm, a light energy flux density per minute of 2.4 J / cm ² , and a degree of output polarization of 95-98% for 3 minutes. Light exposure procedures were repeated daily for 2-4 minutes for 7 days. The postoperative period without features is satisfactory.

The proposed method is illustrated by photographs, where:

figure 1 shows the state of the dentition of patient A. before treatment;

figure 2 - x-ray examination before treatment;

figure 3 - stage of treatment;

figure 4 - x-ray examination after 30 days.

The technical result of the proposed method is that optimal conditions are created for the regeneration of bone tissue in the area of the defect due to the use of nickel-titanium elastic material for the mesh and implant. The proposed method allows bone grafting with direct dental implantation with the restoration of lost bone in multi-wall and single-wall defects.

Claims (1)

The method of bone grafting with direct dental implantation, including x-ray studies, tooth extraction, processing of the hole, insertion and fixation of the implant in the dental hole, is new, that after treatment of the hole with antiseptics and preparation of the bone bed, a cylindrical nickel-titanium implant is installed, the free space between the implant and bone tissue in the region of the edges of the alveoli is filled with osteoplastic material "Bio-Oss", previously impregnated with platelet-rich plasma cient, bone wound with installed implant harboring nikelid-titanium mesh with an area of 0.077 mm ² the cell and fixed position pins titanium-nickel alloy, followed by coating with a resorbable membrane «Bio-Gide», overlapping the edges of the defect by 4-5 mm, mobilize mucoperiosteal the flap, the wound is sutured tightly without tension, an antiseptic treatment of the oral cavity is carried out with 10 ml of a 1% solution of dioxidine and exposed to polychromatic incoherent polarized light with a wavelength of 400-2000 nm, light flux density per minute that 2.4 J / cm ² , the degree of polarization at the output of 95-98% daily 2-4 min for 5-7 days, then the seams are removed after 8-12 days.

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