RU2276587C1 - Method for substituting jaw bone defects - Google Patents

Abstract

FIELD: medicine; maxillofacial surgery.

SUBSTANCE: method involves applying surgical bone defect treatment. The incision is de-epithelialized. Diplene film is placed over the whole bone defect zone and over its vestibular, intraoral and approximal surfaces as well, with composite structure introduced into it containing 60% by mass of hydroxyapatite and 40% by mass of beta-tricalcium phosphate. The film overlaps the bone defect area by 3 mm all over its perimeter.

EFFECT: enhanced effectiveness of treatment.

3 cl

Description

The invention relates to medicine, namely to surgical dentistry.

A surgical method is known for the treatment of periodontal diseases using a non-resorbable silicone membrane for directed tissue regeneration of the periodontal tissues (Chupakhin P.V. Use of non-resorbable membranes for the targeted regeneration of periodontal tissues: Dis. Candidate of Medical Sciences. - M., 2000, 170 pp.).

It is known to use a collagen sponge with hydroxyapatite (Kolapol) to close the perforation of the bottom of the maxillary sinus and restore the bone of the alveolar process of the upper jaw. During surgery, smooth the sharp edges of the tooth socket, the colapole block is modeled as a cone in the shape of a hole, inserted into the hole, and the edges of the wound are brought together with fingers. A retaining suture or sutures with catgut are applied to the mucous membrane of the gums (A.I. Romanov, T.G. Robustova, R.G. Anyutin. Application of the drug Kalapol to eliminate perforations of the maxillary sinus and defects of the alveolar process of the maxilla. // Dentistry. - 1996. - No. 5. - P.49).

A known method of surgical treatment of bone atrophy of the alveolar bone. The method consists in the fact that after surgical treatment of the hole to remove granulations from pathological pockets, an artificial membrane is inserted into the hole for 1-2 interdental spaces from the vestibular and intraoral sides, and a composition containing carboxymethyl cellulose, hydroxyapatite and distilled water is used as the membrane (US Pat. RF №2124321, IPC 6 A 61 17/24. The method of surgical treatment of bone atrophy of the alveolar ridge. Goldstein EV Publ. 10.01.99).

This method is selected for the prototype.

The disadvantages of this method is that the artificial membrane can be used on the defect area, equal in area to only 1-2 interdental spaces, has poor adhesion, and the solubility of the membrane in alkali or water is determined by the degree of cellulose etrification under dissolution conditions, in addition, the membrane matrix made perforated, which reduces its barrier function.

The objective of the invention is to accelerate the process of regeneration of bone tissue, providing the ability to replace bone defects of various sizes.

This is achieved due to the fact that the artificial membrane is applied to the entire area of the bone defect, overlapping it around the entire perimeter by 3 mm, as well as to the approximate surfaces, and as an artificial membrane, a Diplen film with a composite structure introduced into it is used, consisting of the following components (wt.%):

hydroxyapatite - 60,

beta-tricalcium phosphate - 40.

When the area of the bone defect exceeds 30 mm ² in area, an osteoplastic material is additionally introduced into the cavity of the bone defect. In addition, up to 0.05 mg / cm ² anti-inflammatory drugs may be additionally included in the composite membrane structure.

As an artificial membrane, a Diplen film having a hydrophilic-hydrophobic layer was used. The composition of the hydrophilic layer is poly (beta-hydroxyethyl) methacrylate, and the hydrophobic layer is plasticized polyvinyl butyral with a ratio of hydrophilic to hydrophobic layer (35-40: 5). Sorption capacity for water and blood is 3-5 g / g. The adhesion to intact skin is 23 N / m. The film is micro-impermeable, takes the form of a wound surface, provides normal metabolic processes in the wound, and prevents plasma loss.

The GAM layer is a composite structure consisting of the following components, wt.%: Hydroxyapatite - 60 and beta-tricalcium phosphate - 40.

Hydroxyapatite, the average composition of which is usually depicted as Ca ₁₀ (RON ₄ ) ₆ (OH) ₂ , is the only biologically active calcium compound that has a displaced composition and constant properties. Hydroxyapatite - granules of irregular shape with a diameter of up to 40 microns, specific surface area of up to 3 m ² / g.

Tricalcium phosphate is a bioresorbable granulate consisting of phaseless beta-tricalcium phosphate. Mineral tricalcium phosphate is absolutely non-allergenic, non-aggressive and not rejected by the body. It initiates the process of bone formation, in addition to which it is itself a bone substituting element.

In addition, the GAM layer provides perfect adhesion to bone tissue, as it is an adhesive structure.

All parameters are worked out experimentally and are optimal.

Information on the timing of bone tissue regeneration by the prototype method was not found by the authors in the scientific, medical and patent documentation available to them, however, only the properties of an artificial membrane from Diplen film, with a composite structure introduced into it, objectively allow it to be considered more effective. Due to the used membrane, it is possible to replace bone defects with an area of more than 1-2 interdental spaces, and the use of an additional osteoplastic material allows bone defects to be replaced with an area of more than 30 mm ² . The introduction of anti-inflammatory drugs in the compositional structure of the membrane accelerates the process of bone tissue regeneration, eliminating the inflammation slowing down this process.

The method is as follows: under the infiltration anesthesia, a mucosal incision is made to the trapezoidal or angular bone on the vestibular surface of the alveolar bone of the jaw in the area of the bone destruction site. The mucoperiosteal flap leans back. Bone tissue trepans over the destruction site, surgical treatment of the bone defect, diepithelization of the incision, application of an artificial membrane based on hydroxyapatite on the vestibular, intraoral and proximal surfaces around the entire perimeter of the bone defect, overlapping it by 3 mm, and Diplen film is used as an artificial membrane ”, With a composite structure consisting of hydroxyapatite and beta-tricalcium phosphate introduced into it. The mucoperiosteal flap is put in place, overlapping the membrane, and sutured with interrupted sutures.

When the area of the bone defect, exceeding an area of 30 mm ² additionally into the cavity of the bone defect, osteoplastic material is introduced.

In destructive inflammatory processes in periapical tissues, up to 0.05 mg / cm ² anti-inflammatory drugs can be additionally included in the composite membrane structure.

This method can also be used in the treatment of destructive forms of periodontal diseases, with perforation of the bottom of the maxillary sinus and with destructive inflammatory processes in periapical tissues.

Clinical example 1.

Patient P. came to the clinic with complaints of a defect in tooth filling 1.5, when examining the oral cavity, there was a filling on the medial occlusal surface of tooth 1.5, with a violation of the marginal fit and discoloration. Percussion is painless. From the anamnesis, the tooth was previously treated for complications of caries. On the targeted x-ray, bone destruction was established in the perapical region with clear contours with a diameter of 5-6 mm.

Diagnosis: Granulomatous periodontitis of the tooth 1.5.

Treatment: Under the infiltration anesthesia, a mucosal incision was made to the trapezoidal bone on the vestibular surface of the alveolar bone of the jaw in the area of the bone destruction destruction center. Separated mucoperiosteal flap. Bone tissue above the destruction site was trepanated, pathological tissue was removed from the bone cavity, the root tip of the “causal” tooth was resected; retrograde filling of the root canal was performed, the bone cavity measuring 7-8 mm was closed by the proposed artificial membrane. The film covers the defect 3 mm from the edges of the bone cavity. The mucoperiosteal flap is put in place, overlapping the film, the wound is sutured with interrupted sutures.

The patient was observed for 12 months with x-rays every 3 months. On the 6th month of observations, complete restoration of bone tissue was noted.

Clinical example 2.

Patient S. came to the clinic with complaints of a defect in tooth 2.4 fillings, while examining the oral cavity, there was a filling on the chewing surface of tooth 2.4, with a violation of the marginal fit and discoloration. Percussion is painless. From the anamnesis, the tooth was previously treated for complications of caries. On the roentgenogram in the areas of teeth 2.4 and 2.5, bone destruction was established in the periapical tissues with a clear contour with a diameter of 1-1.5 cm with palpation of the alveolar process, compliance of the anterior wall was noted.

Diagnosis: Radicular cyst of the upper jaw in the teeth 2.4, 2.5.

Under the infiltration anesthesia, a mucosal incision to the trapezoidal bone was made on the vestibular surface of the alveolar bone of the jaw in the area of the bone destruction destruction center. Separated mucoperiosteal flap. Bone tissue above the destruction site was trepanated, abnormal tissue was removed from the bone cavity, the tops of the roots of the teeth facing the cyst cavity were resected, retrograde filling of the root canals was performed, “Ostim-100” (osteoplastic material) was introduced into the bone defect. The bone cavity is covered with a Diplen film, with a composite structure introduced into it consisting of hydroxyapatite and beta-tricalcium phosphate. The film covers the defect 3 mm from the edges of the bone cavity. The mucoperiosteal flap is put in place, overlapping the film, the wound is sutured with interrupted sutures.

The patient was observed for 12 months with x-rays every 3 months. At the 3rd month of observations, parietal formation of bone tissue was noted, the defect was significantly smaller than the initial one and amounted to 6-8 mm; by the end of the 6th month, complete restoration of bone tissue was observed.

Clinical example 3.

Patient K. came to the clinic with complaints of a defect in tooth 3.5 fillings, while examining the oral cavity, there was a filling on the chewing surface of tooth 3.5, with a violation of the marginal fit and discoloration. Percussion is painless. From the anamnesis, the tooth was previously treated for complications of caries. On the targeted x-ray, bone destruction was established in the perapical region with clear contours with a diameter of 4-5 mm.

Diagnosis: Granulomatous periodontitis of the tooth 3.5.

Treatment: Under the infiltration anesthesia, a mucosal incision was made to the trapezoidal bone on the vestibular surface of the alveolar bone of the jaw in the area of the bone destruction destruction center. Separated mucoperiosteal flap. The bone tissue above the destruction site was trepanated, the pathological tissue was removed from the bone cavity, the root tip of the “causal” tooth was resected, the root canal was retrograde filling the root canal, the bone cavity was covered with a Diplen film with a composite structure consisting of hydroxyapatite, beta- tricalcium phosphate and additionally included anti-inflammatory drugs up to 0.05 mg / cm ² . The film covers the defect at least 3 mm from the edges of the bone cavity. The mucoperiosteal flap is put in place, overlapping the film, the wound is sutured with interrupted sutures.

The patient was observed for 12 months with x-rays every 3 months. At 6 months of observation, complete restoration of bone tissue was noted.

The studies were carried out in the medical center “Foderis”, and at the Department of General Dentistry and the training of dental technicians at the Moscow Medical and Dental University.

Claims (3)

1. A method for replacing bone defects in the jaw, including surgical treatment of a bone defect, de-epithelialization of the incision, application of the Diplen film on the entire area of the bone defect, as well as on its vestibular, intraoral, approximate surfaces, while the film should overlap the area of the bone defect by 3 mm around the perimeter, characterized in that a film containing hydroxyapatite is used by introducing into the Diplen film a composite structure consisting of 60 wt.% hydroxyapatite and 40 wt.% beta-tricalcium phosphate. 2. The method according to claim 1, characterized in that when the area of the bone defect exceeds the area of 30 mm ² , an osteoplastic material is additionally introduced into the cavity of the bone defect. 3. The method according to claim 1, characterized in that during destructive inflammatory processes in periapical tissues, up to 0.05 mg / cm ² anti-inflammatory drugs can be additionally included in the composite membrane structure.