RU2725243C1 - Method of treating parodontosis - Google Patents

Abstract

FIELD: medicine.SUBSTANCE: invention refers to medicine, namely to dentistry, and is intended for use in complex treatment of patients with periodontosis. Oral cavity is injected into the transient fold of the oral vestibule at 0.5 atmospheres through a mini needle of the apparatus for carboxytherapy of medical carbon dioxide with volume of 7.0 ml with a gas temperature of 37 degrees. Needle is inserted into a transient fold through one tooth on the upper or lower jaw, and 6 injections are performed in one jaw every session; one therapeutic course of periodontosis is 10 sessions in one day for each jaw. During the year, 3 courses are recommended with moderate severity of periodontosis.EFFECT: method makes it possible to saturate tissues of periodontium with oxygen, to improve microcirculation of blood and cellular metabolism, to achieve reduction of dystrophy of jaw bone tissue due to formation of type 1 collagen in these bones under action of carbon dioxide gas on tissues.1 cl, 1 ex

Description

The invention relates to medicine, namely to dentistry, and can be used in the treatment of patients with periodontal disease.

In the treatment of periodontal disease, it is necessary to solve the difficult task of restoring the blood supply to periodontal tissues and reducing dystrophic processes in them. It is known that periodontal disease is a systemic disease of a non-inflammatory nature, leading to degeneration of periodontal tissues and bone tissue. The disease is manifested by progressive atrophy of the tooth cells of the alveolar processes. X-ray examination allows you to identify sclerotic changes in bone tissue (reduction of bone marrow spaces, fine-meshed bone pattern). Atrophic processes in this tissue lead to a uniform decrease in the height of the interdental septa with persistent cortical plates. An X-ray examination determines the decrease in bone tissue of the interdental septa, foci of osteoporosis, the pattern of the bone is small-cell, sclerotized. The roots of the teeth are exposed: with a mild degree of up to 4 mm, an average degree of severity of 4 to 6 mm, a severe degree of more than 6 mm.

Many methods have been proposed for the treatment of periodontal disease.

The known method proposed by Popova A.N. (Prospects for plasmolifting in dentistry [Text] / A.N. Popova, S.V. Krainov, I.V. Firsova // Medical Sciences: past, present, future: materials of the International Scientific and Practical Conference (Ufa, May 26, 2014 .) - Ufa, 2014 .-- S. 113-115). Methodology: initially a small amount of blood is taken (up to 36 ml), and then using centrifugation in a specially designed biotechnological test tube, blood is divided into three fractions. These are red blood cells, plasma, and a fraction that is enriched in platelets and growth factors.

The autoplasma obtained after centrifugation is administered locally: in the damaged areas of the gums - it is superimposed on the mucous membrane under a Diplen film; injections are made under the elements of damage to the oral mucosa; in the field of implant placement; in the area of sinus lift; in place of the hole of the extracted tooth - as an osteotropic material; in soft tissues in inflammatory processes of the maxillofacial region

The effect of the procedure: the elimination of bleeding, the reduction of mobility, the relief of pain, the elimination of bad breath, the physiological coloring of the gums, the acceleration of healing of the area of the extracted teeth, the stopping of the progression of periodontal disease, and the reduction of the risk of implant rejection. The disadvantages of this method are possible post-injection complications, the lack of the ability to accurately control the pressure and volume of autoplasma administration, and the high cost of the procedure.

An analogue is also a patent of the Russian Federation No. 2153319. A method for the treatment of periodontal disease: a biopolymer film is applied to the gingival margin, the hydrophilic layer of which includes cavinton and voltaren, while the film is applied to the gum with a hydrophilic layer for 10-12 hours and the procedure is repeated daily until the microcirculation and hemodynamics of periodontal tissues are normalized. The disadvantage of this method is the lack of a snug fit to the tissues of the oral cavity due to the constant salivation of the patient, which reduces the concentration of the drug.

The prototype is a method of obtaining an injectable form of platelet-rich autoplasms and the introduction of periodontal tissue (Akhmerov PP Autostimulation of regenerative processes in maxillofacial surgery and cosmetology [Text] / PP Akhmerov, RF Zarudy, IN Rychkova, MG Isaeva et al. // Methodological manual. - Moscow. - 2011. - 55 p.). Blood sampling is carried out from the ulnar vein. To obtain the injectable form of autoplasma, 9 ml Plasmoliphting ™ specialized vacuum tubes (sterile, sodium heparin containing in vivo technology with a specialized thixotropic gel) were used. After filling, the tubes were installed in an EVA 20 centrifuge. Centrifugation parameters 3200 rpm for 5 minutes, or 1000G.

Platelet autoplasma is introduced into the area of the periodontal papillae and marginal gums at the rate of 0.1-0.2 ml per 3 mm ² and into the transitional fold 0.3-0.5 ml per 1-2 teeth. The calculation of the amount of autoplasma required for preparation was carried out based on the amount of 3.5 ± 0.5 ml (1 tube) per one dentofacial segment, consisting of 6-8 teeth. Injections were made on days 1, 7, 14 of treatment, 21 days after treatment. At the same time, growth factors, getting into the tissues, stimulate the formation of fibroblasts and increase their synthetic activity. Fibroblasts produce collagen, hyaluronic acid and elastin, which in turn leads to the formation of young connective tissue and the growth of capillaries. In addition, growth factors block osteoclasts and stimulate the proliferation of osteoblasts, which inhibits further loss of bone tissue and contributes to its restoration. Histologically, this is manifested by an influence not only on the epithelial, but also on the connective tissue. The growth of the young capillary network is stimulated, hemodynamics, trophism are improved, local immunity, metabolism and oxygenation are activated (the latter is extremely important in conditions of involutive processes, accompanied by the accumulation of free radicals and trophic disorders

The main disadvantages of using autoplasmotherapy are the cost of this method for the centrifugation stage, excessive trauma to the patient and insufficient effect in strengthening the jaw bone.

In Russia and abroad, the carboxytherapy method has become widespread in medicine. Carbon dioxide (CO ₂ ) is a gas that is odorless and colorless. With subcutaneous administration, CO _{2 is} immediately distributed simultaneously at the muscle and microcyclic levels. Most of the gas is excreted through the lungs (when exhaled), while the remaining part is converted into carbon dioxide in the tissues and excreted through the kidneys. At the vascular level, CO ₂ increases vascular tone and provides active microcirculatory vasodilation. Vasodilation caused by injection of CO ₂ occurs due to its direct effect on smooth muscle cells of the arteriole.

In addition, this provides the Bohr effect, a mechanism that allows the transport of CO ₂ from tissues to the lungs, and O ₂ from the lungs to tissues through the oxygen and hemoglobin dissociation curve. When injected externally, CO ₂ triggers this mechanism, which leads to increased tissue oxygenation and neoangionesis.

Pharmacodynamics of carboxytherapy: active vasodilation, direct effect on smooth muscle arteriolar fiber, sympatholytic effect, increased arterio-arteriolar expulsion, increased oxidative processes, resulting in hydrolysis of triglycerides into fatty acids in adipose tissue, hemorheological effect enhances erythrocyte deformation, improves cellular metabolism promotes the formation of type 1 collagen in bone tissue, which strengthens the bone structure of the jaw bones.

Scope: cosmetic medicine - cellulitis (edematous fibrosclerotic panniculopathy), localized obesity, decreased skin elasticity, aging of facial skin, stretch marks (striae); cosmetic surgery - before and after liposuction, complications after liposuction; angiology-organic and functional arteriopathy, microangiopathy; urology-erectile dysfunction; dermatology - psoriasis; phlebology - ulcers.

The technical result of the proposed method for the treatment of periodontal disease is aimed at improving blood microcirculation, supplying tissues with oxygen, reducing dystrophy of the jaw bone tissue during periodontal disease due to the formation of type 1 collagen in the jaw bones under the influence of carbon dioxide on the human body. This is achieved by introducing into the mucous membrane the transitional fold of the vestibule of the oral cavity under a pressure of 0.5 atmospheres through a mini-needle with a special device for carboxytherapy of a medicinal substance (medical carbon dioxide with a volume of 0.5-1.0 ml with a gas temperature of 37 degrees). The needle is injected into the transitional fold through one tooth on the upper or lower jaw and up to 6-7 injections are made in each jaw in one session, and one course of treatment, depending on the severity of periodontal disease, is from 5 to 12 sessions one day after each session the patient lies in the dental chair for about 30 minutes, from 2 to 4 courses are allowed during the year, depending on the severity of periodontal disease.

There is no data in the literature on the use of carboxytherapy in the treatment of patients with periodontal disease. Therefore, experimental studies were conducted under the guidance of a morphologist, first on healthy pigs, and then only on humans. We used research methods - rheography, radiological methods and research of gum biopsy specimens. In pigs, a biopsy sample was taken 1 hour after the injection of carbon dioxide into the transitional folds of the jaws, and a histological examination of biopsy samples was carried out in humans after a course of treatment. After the injection, tissue hypoxia was corrected due to the Bor effect, effects on endothelial growth factors, stimulation of neoangiogenesis and fibroblasts, and collagen synthesis. Carbon dioxide introduced under the mucous membrane instantly causes vasodilation and sharply enhances local blood circulation, increasing the oxygen concentration in tissues more than 3 times.

A method for the treatment of periodontal disease is as follows. A transitional fold of the vestibule of the oral cavity of the drug is introduced into the mucous membrane, namely, medical carbon dioxide with a volume of 0.5-1.0 ml, depending on the severity of periodontal disease. This dosage prevents tearing of soft tissues of the transitional fold and the formation of a necrosis zone. The temperature of the injected gas should be 37 degrees. (in the human oral cavity 37 ° C), which reduces the time for heating the gas in the tissues and contributes to the instantaneous effect on the surrounding tissue. The carboxytherapy procedure is performed using the Carboxy pen apparatus (Registration certificate for a medical device dated November 22, 2016 No. ФЗЗ 2011/10985), which is allowed to maintain a stable volume of 0.5-1 ml and a pressure of 0.5 atmospheres (maximum pressure to prevent mucosal detachment from the periosteum ) throughout the course of the procedure. The needle is injected into the transitional fold (the transition of the fixed mucous membrane of the gum to the movable) through one tooth on the upper or lower jaw and in one session on each jaw up to 6-7 injections are made, and one course of treatment, depending on the severity of periodontal disease, is from 5 to 12 sessions in one day, after each session the patient lies in the dental chair for about 30 minutes, from 2 to 4 courses are allowed during the year. For example, with mild periodontal disease 2 courses, with an average of 3 and severe 4 courses.

A clinical case of the use of a method for the treatment of periodontal disease. The study was carried out in accordance with Good Clinical Practice standards and the principles of the Helsinki Declaration. The study protocol was approved by the Ethics Committees of all participating clinical centers. Prior to inclusion in the study, all participants received written informed consent.

A patient (V., 45 years old) came to the clinic with complaints of difficulty chewing food, hypersensitivity to temperature stimuli, aesthetic deficiency in the tooth area 1.7, 1.5, 1.4, 1.3, 1.2, 1.1, 2.1, 2.2, 2.3, 2.4, 2.5 , 2.7, 3.7, 3.6, 3.5, 3.4, 3.3, 3.2, 3.1, 4.1, 4.2, 4.3, 4.4, 4.5, 4.6, 4.7.

An objective examination revealed exposure of the roots of the teeth 1.7, 1.5, 1.4, 1.3, 1.2, 1.1, 2.1, 2.2, 2.3, 2.4, 2.5, 2.7, 3.7, 3.6, 3.5, 3.4, 3.3, 3.2, 3.1, 4.1, 4.2, 4.3, 4.4, 4.5, 4.6, 4.7 from 4 to 6 mm, which corresponds to moderate severity. An X-ray examination determined a decrease in the bone tissue of the interdental septa, individual foci of osteoporosis, and a small-cell, sclerotized bone pattern.

Patient B., 45 years old, was diagnosed with chronic generalized periodontal disease of moderate severity.

The patient is prescribed therapeutic treatment, if necessary, surgical treatment, orthopedic treatment (splinting of teeth), carboxytherapy was used as a physiotherapeutic method in the complex treatment.

A method of treating periodontal disease was as follows. The place of introduction into the mucous membrane of the transitional fold of the vestibule of the oral cavity was treated with a 0.02% alcohol solution of chlorhexidine bigluconate, then a mini-needle was inserted with the Carboxy pen device (other devices can be used) into the transitional fold through one tooth on the upper jaw. The injected volume of medical carbon dioxide was 0.7 ml (moderate severity of periodontal disease). The pressure with which the drug was administered was 0.5 atmospheres. Then the patient was in the dental chair for 30 minutes. The patient was injected with 6 injections of gas into the transitional fold of the upper jaw. Then the patient was prescribed the next day for treatment on the lower jaw. The course of treatment was 10 sessions (in the upper jaw and lower jaw for 10 sessions), which is equal to 3 weeks. After each course of treatment, the patient was assigned studies (rheography, x-ray method and gum biopsy study) to monitor the quality of treatment. In the course of the analysis of the results, an improvement was obtained in the microcirculation of the gum blood, a decrease in the dystrophy of the bone tissue of the jaws, and a decrease in the exposure of the roots of teeth by an average of 1.5 mm. This patient received 3 courses of carbon dioxide treatment. Between the courses of carboxytherapy, there were breaks of 3 months. The patient is under the supervision of a periodontist at a dental clinic.

We used our method of treatment of periodontal disease in the complex treatment of 15 patients with chronic generalized periodontal disease of varying severity. The results of complex treatment of patients are quite satisfactory.

Claims (1)

A method of treating periodontal disease, including introducing into the mucous membrane of the transitional fold of the vestibule of the oral cavity of a drug substance, characterized in that the medicinal substance uses medical carbon dioxide with a volume of 0.7 ml with a gas temperature of 37 degrees, which is introduced into the transitional fold of the vestibule of the oral cavity under a pressure of 0.5 atmospheres through a mini-needle with a carboxytherapy apparatus, while the needle is injected into the transitional fold through one tooth on the upper or lower jaw and 6 injections are made in each jaw in one jaw, and one course of treatment is 10 sessions in one day, after each session the patient lies in the dental chair for 30 minutes, 3 courses are carried out during the year.