RU2334488C1 - Under-gingival frame - Google Patents

Abstract

FIELD: medicine.

SUBSTANCE: invention relates to the field of medicine, namely, to surgical stomatology and can be used for treating patients with parodontitis. Under-gingival frame includes plate curved so that to correspond to the form of upper or lower jaw, and elements whereby it is fixed to patient's jaw. All elements of frame are made from polylactide, which represents polymerized mixtures of L-lactic acid and D-lactic acid, with content of D-lactide in mixture from 4 to 50 mol%. Or, alternatively, all its elements are made from mixture of copolymers of lactide and glicolide, with content of glicolide copolymer in it of 6 to 30 mol%.

EFFECT: increased efficiency of parodontitis treatment with simultaneous framing of patient's mobile teeth and formation of new bone tissues of alveolar process, as well as obtaining haemostatic anti-inflammatory osteoplastic and prolonged effect.

2 cl, 8 dwg, 4 ex

Description

The invention relates to medicine, namely to the field of surgical dentistry, and can be used in the treatment of patients with periodontitis.

A known method of producing dental plates from a combined transplant, in which the plate is made by pouring into the metal form of crushed bone tissue of the fetus with the addition of a mixture of solutions of collagen gel, methyl cellulose, glycerin and alcohol extract of propolis, drying it, followed by layering of allogeneic placental tissue moistened with a mixture of collagen gel solutions , methyl cellulose, glycerol, followed by drying and sterilization (see RF patent No. 2106781, IPC A01N 1/02, 1998).

However, the known dental plate in its use has the following disadvantages:

- insufficient effectiveness of periodontal treatment with simultaneous splinting of the patient’s mobile teeth,

- low efficiency of the formation of new bone tissue of the alveolar process by the method of directed regeneration,

- insufficient hemostatic anti-inflammatory osteoplastic and prolonged effect.

Known subgingival splint, including a plate curved in shape of a section of the upper or lower jaw, and also the elements of its attachment to the patient's jaw (see Danishevsky NF and others, Periodontal Disease. Atlas, M .: Medicine, 1999, p.205 -207).

However, the known subgingival tire in its use has the following disadvantages:

- insufficient effectiveness of periodontal treatment with simultaneous splinting of the patient’s mobile teeth,

- low efficiency of the formation of new bone tissue of the alveolar process by the method of directed regeneration,

- insufficient hemostatic anti-inflammatory osteoplastic and prolonged effect.

Known subgingival splint, including a plate curved in shape of a section of the upper or lower jaw, as well as elements of its attachment to the patient's jaw (see Ivanov B.C., Periodontal disease. M: MIA, 2000, p.186-194).

However, the known subgingival tire in its use has the following disadvantages:

- insufficient effectiveness of periodontal treatment with simultaneous splinting of the patient’s mobile teeth,

- low efficiency of the formation of new bone tissue of the alveolar process by the method of directed regeneration,

- insufficient hemostatic anti-inflammatory osteoplastic and prolonged effect.

The objective of the invention is to create a subgingival tire.

The technical result is to increase the effectiveness of periodontal treatment with the simultaneous splinting of the patient’s mobile teeth and with the formation of new bone tissue of the alveolar process by the method of directed regeneration, as well as obtaining a hemostatic anti-inflammatory osteoplastic and prolonged effect.

The technical result in the implementation of the invention is achieved by the fact that a subgingival splint is proposed, including a plate curved in shape of a section of the upper or lower jaw, as well as elements of its attachment to the patient's jaw, while all its elements are made of polylactide, which is a polymerized mixture of L-lactic acid and D-lactic acid [poly (L, D-lactide)] when the content of D-lactide in this mixture is from 4 to 50 mol%, or all of its elements are made from a mixture of copolymers of lactide and glycolide when the content of icolide from 6 to 30 mol.%, while the thickness of the subgingival tire is selected from 0.15 mm to 2 mm. The thickness of the subgingival tire is selected from 0.15 mm to 2 mm.

Experimental studies of the proposed subgingival tire showed its high efficiency. The proposed subgingival splint during its use provides a significant increase in efficiency with simultaneous splinting of the patient’s mobile teeth and with the formation of new bone tissue of the alveolar process directed regeneration. At the same time, it was found that the use of the proposed subgingival splint helps to obtain a hemostatic anti-inflammatory osteoplastic and prolonged effect.

The design of the proposed subgingival tire is easy to understand and does not require additional graphical illustrations. The nature of the interaction of the subgingival tire material with connective tissue 3 months after surgery is illustrated by photographs, in which Fig. 1 shows connective tissue in the form of fibrous collagen structures and cellular elements, Fig. 2 shows collagen fibers grouped into bundles with a general direction parallel to the surface implant, in Fig.3 presents cells of the fibroblastic series of various degrees of maturity, in Fig.4 presents the epithelium covering the exfoliating flap of mucus stasis of the gingival membrane, Fig. 5 shows blood vessels detected between cells with hyperemia, Fig. 6 shows pale pink bone beams that appear on the surface of the preserved bone, around which osteoblasts with basophilic cytoplasm are located, Fig. 7 shows the absence of destructive changes in the preserved bone, and Fig. 8 shows the presence of a large number of blood vessels in the bone restoration zone.

The implementation of the proposed subgingival tire is illustrated by the following examples.

Example 1. Dog "Ginger", outbred, age 1.5 years. Under thiopental anesthesia with sedation of the Elenium, the mucosal-periosteal flap in the area of the anterior teeth (four incisors) of the lower jaw was dissected and, using a milling cutter connected to the physiological dispenser, the outer wall of the alveolar process was removed to a half root length at a speed of 300 rpm. Then, root cement was refreshed and a 0.7 mm thick subgingival splint made of polylactide was immobilized, using a polymerized mixture of L-lactic acid and D-lactic acid [poly (L, D-lactide)], and the content in the mixture was D- lactide was 4 mol.%. The subgingival splint was closed with a prepared mucoperiosteal flap and fixed with catgut sutures.

After 3 months, the dog was withdrawn from the experiment under thiopental anesthesia, a fragment of the jaw was isolated in the area of the operation, fixed in 10% neutral formalin, and histological studies were performed with hematoxylin and eosin staining.

On histological preparations, after replanting around the implant (subgingival splint), a fairly dense connective tissue was formed at this observation period. Its structure includes fibrous structures and cellular elements. Fibrous structures are represented by collagen fibers (FIG. 1). In tinctorial properties, they do not differ from ordinary collagen fibers of dense connective tissue. Collagen fibers are grouped in bundles with a common direction parallel to the surface of the implant (figure 2). Closer to the implant surface, in addition to collagen fibers, argyrophil fibers with a network-like arrangement are detected. As for the cellular elements, they differ in heteromorphism. These are mainly fibroblastic cells of various degrees of maturity (Fig. 3). In addition to them, typical macrophages are found here.

Example 2. Dog "Black", not purebred, age 2 years. Under thiopental anesthesia with sedation of the Elenium, the mucosal-periosteal flap was prepared in the animal in the region of the posterior teeth (premolar) of the lower jaw and, with a cutter connected to the physiological dispenser, the outer wall of the alveolar process was removed to a half root length at a speed of 300 rpm. Then the root cement was refreshed and a 2 mm thick subgingival splint made of polylactide was immobilized, using a polymerized mixture of L-lactic acid and D-lactic acid [poly (L, D-lactide)], the content in the mixture of D-lactide being 50 mol%. The subgingival splint was closed with a prepared mucoperiosteal flap and fixed with catgut sutures.

After 3 months, the dog was withdrawn from the experiment under thiopental anesthesia, a fragment of the jaw was isolated in the area of the operation, fixed in 10% neutral formalin, and histological studies were performed with hematoxylin and eosin staining.

Comparison of the cellular composition of the connective tissue of animals of the control group and the experimental group did not reveal any differences either in the morphology of cells or in the composition of cellular elements. The epithelium covering the exfoliating flap of the gingival mucosa is thickened, traces of glycogen are found in it (Fig. 4). No evidence of submersible growth.

Example 3. Dog "Polkan", outbred, age 2.5 years. Under thiopental anesthesia with sedation of the Elenium, the mucosal-periosteal flap was prepared in the area of the anterior teeth (incisors) of the lower jaw and the outer wall of the alveolar process was removed to a half of the root length at a rotation speed of 300 rpm. The root cement was then refreshed and a 1.2 mm thick subgingival splint made of a mixture of a lactide-glycolide copolymer was immobilized, the content of a glycolide copolymer in the mixture being 30 mol%. The subgingival splint was closed with a prepared mucoperiosteal flap and fixed with catgut sutures.

After 3 months, the dog was withdrawn from the experiment under thiopental anesthesia, a fragment of the jaw was isolated in the area of the operation, fixed in 10% neutral formalin, and histological studies were performed with hematoxylin and eosin staining.

As a result of the study, it was found that between the implant and the bone tissue of the jaw, connective tissue is looser than from the flap of the gingival mucosa. Its fibrous structures are represented by bundles of collagen fibers and have a direction parallel to the surface of the implant. Cellular elements are more diverse. These are fibroplasts, macrophages, individual leukocytes and cells of the osteoblastic series. The latter were detected closer to the surface of the bone tissue. Between the cells revealed blood vessels with hyperemia (Fig. 5). Active regeneration takes place in the bone tissue located in the injury zone, which is manifested in the appearance on the surface of the preserved bone of bone rods of pale pink color. Around the beams are osteoblasts with basophilic cytoplasm (Fig.6).

Example 4. Dog "Squirrel", outbred, age 2 years. Under thiopental anesthesia with sedation of the Elenium, the mucosal-periosteal flap was prepared in the animal in the region of the posterior teeth (premolar) of the lower jaw and, with a cutter connected to the physiological dispenser, the outer wall of the alveolar process was removed to a half root length at a speed of 300 rpm. The root cement was then refreshed and a 1.5 mm thick subgingival splint made of a mixture of a lactide-glycolide copolymer was immobilized, the content of the glycolide copolymer being 6 mol%. The subgingival splint was closed with a prepared mucoperiosteal flap and fixed with catgut sutures.

After 3 months, the dog was withdrawn from the experiment under thiopental anesthesia, a fragment of the jaw was isolated in the area of the operation, fixed in 10% neutral formalin, and histological studies were performed with hematoxylin and eosin staining.

As a result of the study of histological preparations, it was established that between the formed beams there is a loose tissue rich in cellular elements and blood vessels. There is a clearly distinguishable border between the preserved bone and the neoplasm. No destructive changes in the preserved bone were found. The bone tissue itself has a typical structure and color (Fig. 7). In general, processes can be characterized as active regeneration and remodeling of bone with the participation of osteoblasts. Attention is drawn to the previously noted circumstance with the presence in the area of bone restoration of a large number of blood vessels (Fig. 8). There is a phenomenon of asymmetry in the course of the process of bone tissue regeneration throughout the injury zone.

Thus, the tissue reaction of the jaw to the insertion into the injury zone of the proposed subgingival splint differs significantly depending on the location of the surgical intervention. In the periodontal area of the anterior teeth at the site of injury, the formation of mainly connective tissue took place, which was located between the subgingival splint and bone tissue. In the area of the lateral teeth (premolars), simultaneously with the formation of connective tissue, signs of active bone regeneration from the damaged alveolar process are clearly revealed. Already at this time of observation, signs of restructuring of newly formed bone tissue were found. There was no significant difference between the histological picture of the tissue when using an implant made of polylactide or from a mixture of copolymers of lactide and glycolide.

The results of an experimental study showed that the proposed subgingival splint made of resorbable osteoplastic polylactide materials or a mixture of lactide-glycolide copolymers can be an effective tool in the complex surgical treatment of periodontal disease aimed at strengthening mobile teeth.

Claims (2)

1. The subgingival splint, including a plate curved in shape of the upper or lower jaw section, as well as elements of its attachment to the patient’s jaw, characterized in that all its elements are made of polylactide, which is a polymerized mixture of L-lactic acid and D-lactic acid, when the content of the mixture of D-lactide from 4 to 50 mol.%, or all of its elements are made from a mixture of copolymers of lactide and glycolide, when the content of the mixture of the copolymer of glycolide from 6 to 30 mol.%. 2. The subgingival tire according to claim 1, characterized by the manufacture of a thickness of from 0.15 to 2 mm

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