RU2715093C1 - Method for correction of blood microcirculation disorders in periodontium in chronic tobacco intoxication in experiment - Google Patents

Abstract

FIELD: medicine.

SUBSTANCE: invention refers to medicine, namely to experimental medicine and dentistry, and can be used for correction of blood microcirculation disorders in periodontium in case of chronic tobacco intoxication experimentally. In conditions of chronic tobacco intoxication, the rabbits are exposed to the planned surgical intervention and the xiphoid process of irradiation with electromagnetic radiation of the terahertz range at the frequency of the molecular spectrum of radiation and absorption of atmospheric oxygen 129.0 GHz for 15 minutes in each localization, with output power of 250 mcW. Irradiation is carried out once a day, course of 5 procedures, daily.

EFFECT: method provides improvement of blood microcirculation in periodontium experiment by exposure to electromagnetic radiation of terahertz range at frequency of molecular spectrum of radiation and absorption of atmospheric oxygen.

1 cl, 1 ex

Description

The invention relates to medicine, namely to experimental medicine and dentistry, and can be used for the correction of indicators of blood microcirculation in the periodontium disturbed due to smoking.

Tobacco is one of the most common bad habits in the human population around the world. At present, the effect of smoking on the occurrence and progression of diseases of the cardiovascular, respiratory, endocrine, digestive systems, oncopathology, whose contribution to the mortality structure of modern man is invariably large (G. Melnichenko, et al., 2010; Luepker Russel V., 2016).

The relevance of the problem of smoking leads to a large number of scientific studies over the past decades aimed at studying it. Of great interest is this problem for dentistry. During smoking, tobacco smoke primarily comes into contact with organs and tissues of the oral cavity, providing thermal and toxic damaging effects. In the implementation of the latter, a major role is given to changes in the microcirculation of periodontal tissues and the oral mucosa. It is known that smoking damages the endothelial lining of blood vessels, causes chronic vasospasm of the microvasculature, thereby worsening tissue trophism and lowering the periodontal functional reserve (Grudyanov A.I., Kemularia I.V., 2010; Naumov A.V., Vyshivanyuk V.A. ., Vertkin A.L., 2012).

The systemic effect of chronic tobacco intoxication is manifested in a change in hemorheological parameters: an increase in platelet aggregation, an increase in fibrinogen level, a tendency to an increase in atherogenic coefficient (Murtazina F.F., Mannanova F.F., et al., 2006).

Smoking is one of the most frequently mentioned risk factors for failure of implant treatment in the literature. Studies demonstrate a more frequent development of peri-implantitis and implant rejection in smoking patients (Mikhalchenko D.V., Yakovlev A.T. et al., 2015).

Thus, the possibility of correcting microcirculatory disorders caused by tobacco intoxication in order to improve the conditions for reconstructive interventions on the periodontium and alveolar part of the jaw in smokers is pathogenetically substantiated.

Currently, a promising direction is the development of methods for non-drug correction of microcirculation disorders and tissue trophism. In this aspect, the possibility of using terahertz therapy is of great interest (Kirichuk V.F., Tsymbal A.A., 2015).

Of the known methods of physiotherapy, the closest is the combined use of ozone, EHF puncture and laser therapy (wavelength 890 nm, pulse mode, power 3-5 W, frequency 1500 Hz, exposure 1-1.5 min for 6-8 zones ) in the early postoperative period after dental implantation with a preventive purpose (Korchazhkina N.B., Radzievsky S.A., Olesova V.N., 2002).

The disadvantages of this technique are the need for a long exposure period - 43-50 minutes in total every day, for 10-12 days, the need to use three different physiotherapeutic devices, the lack of the possibility of selective effects on cellular metabolites, and the lack of information about the possibility of correction of microcirculatory disorders caused by tobacco intoxication in the preoperative period.

The task to which our proposed method is aimed is to correct microcirculatory disorders caused by chronic tobacco intoxication by acting on active cellular metabolites.

The problem is solved in that in conditions of chronic tobacco intoxication, rabbits using the electromagnetic radiation of the terahertz range at a frequency of the molecular spectrum of radiation and absorption of atmospheric oxygen of 129.0 GHz irradiate the area of the planned surgical intervention and the projection of the xiphoid process of the sternum for 15 minutes at each location, at the weekend power of 250 μW, while irradiation is carried out 1 time per day, a course of 5 procedures, daily.

The result of the claimed method for the correction of microcirculation disorders caused by chronic tobacco intoxication is an improvement in microcirculation in the periodontal vessels, a decrease in vasospasm, and, as a result, an improvement in the conditions for reconstructive surgery on the periodontal and alveolar parts of the jaw.

The study was carried out on 18 sexually mature male rabbits of the New Zealand breed weighing 3-3.5 kg in 3 groups of animals of 6 animals each: group 1 - control, modeling of tobacco intoxication was not carried out; animals of the 2nd and 3rd groups were experimentally recreated chronic tobacco intoxication for 6 weeks.

The well-known model Cheng-Yo Yen, Feng-Chen Kao et.al (2008) was used as a model simulating the state of chronic tobacco intoxication: rabbits of the 2nd and 3rd groups were placed in a forced-air and exhaust ventilation chamber, where tobacco was pumped smoke, for 7 minutes every half hour for 6 hours a day, daily. All animals during the experiment were in the same conditions: at a temperature of 20 ± 2C and 12-hour lighting with free access to food and water.

5 days before the end of the period of experimental chronic tobacco intoxication, animals of the 2nd group were irradiated with mucous membranes in the transitional fold of the mandible incisor using terahertz electromagnetic waves at the frequencies of the molecular spectrum of radiation and oxygen absorption of 129.0 GHz with an output power of 250 μW, setting the irradiator 1.5 cm from the mucosa for 15 minutes, 1 time per day, a course of 5 procedures daily. In animals of the 3rd group, the mucous membrane was irradiated in the area of the transitional fold in the lower jaw incisor and the projection of the xiphoid process of the sternum was performed for 15 minutes in each localization by the terahertz electromagnetic waves at the frequencies of the molecular spectrum of radiation and oxygen absorption of 129.0 GHz at an output power of 250 μW, setting irradiator at a distance of 1.5 cm from the surface of the mucous membrane or skin of the animal, 1 time per day, in a course of 5 procedures, daily.

The experiment was monitored by recording local blood flow in peri-implant tissues using laser Doppler flowmetry using a LAKK-02 capillary blood flow analyzer (version 4) (Russia, NPP Lazma LLC, Moscow). We analyzed changes in the integral indicator of capillary blood flow, consisting of the average speed of red blood cells, the capillary hematocrit and the number of functioning capillaries, the microcirculation index (M).

The study revealed initial values of the microcirculation index (M) at the level of 17.21 ± 0.53 pF units, the differences between the groups were not statistically significant. After a period of modeling of chronic tobacco intoxication, this indicator decreased in the 2nd and 3rd groups by 31.2% (11.87 ± 0.98 pf units). After 5 sessions of exposure to terahertz radiation, an improvement was noted in the 2nd group to 84-85% of the initial value, in the 3rd group, the microcirculation index reached 89-90% of the initial values, which amounted to 14.48 ± 0.41 and 15 , 22 ± 0.39 pF units respectively.

Example 1.

In an intact rabbit weighing 3.5 kg, the initial value of the integral indicator of microcirculation (M) was determined, which amounted to 17.54 pf units.

The animal was then simulated for chronic tobacco intoxication for 6 weeks.

5 days before the end of the experiment, the integral microcirculation index (M) was determined; it amounted to 12.25 pF units, thus decreasing to 69.84% of the initial value.

Further, the animal was exposed to the area of the alleged surgical intervention in the area of the mandibular incisor and the xiphoid process of the sternum with electromagnetic radiation of the terahertz range at a frequency of the molecular spectrum of radiation and absorption of atmospheric oxygen of 129.0 GHz for 15 minutes for each location. The irradiator was installed at a distance of 1.5 cm from the surface of the mucous membrane or skin of the animal. The radiation power of the apparatus is 250 μW. Irradiation was carried out by the course: 5 procedures, daily.

After the 5th irradiation session, the integral microcirculation index (M) was determined, which amounted to 15.48 pF units, which indicates the restoration of microcirculation in periodontal tissues.

Thus, the study confirms the possibility of using electromagnetic waves of the terahertz range at a frequency of emission and absorption of atmospheric oxygen of 129.0 GHz to correct microcirculatory disorders in periodontal disease caused by chronic tobacco intoxication in order to prepare for reconstructive interventions on the tissues of the alveolar part of the jaw.

Sources of information:

1. Grudyanov A.I., Kemularia I.V. The effect of smoking on microcirculation in periodontal tissues with periodontitis of varying severity according to laser Doppler flowmetry // Dentistry. - 2010 .-- T.89. - No. 6. - S.10-14.

2. Kirichuk V.F., Tsymbal A.A. Patterns and mechanisms of the biological action of electromagnetic waves in the terahertz range // - Saratov: Publishing house of Sarat. state honey. University, 2015 .-- 291 p.

3. Korchazhkina N.B., Radzievsky S.A., Olesova V.N. Ozone, EHF, laser therapy and their combined use with a prophylactic purpose in the early postoperative period after dental implantation // Problems of balneology, physiotherapy and exercise therapy. - 2002. - No. 6. - S. 17–19.

4. Melnichenko G.A., Butrova S.A., Larina A.A. The effect of smoking on human health and body weight // Obesity and metabolism. - 2010. - T.7 - No. 1. - S. 15-19.

5. Mikhalchenko D.V., Yakovlev A.T., Badrak E.Yu., Mikhalchenko A.V. The problem of inflammation in peri-implant tissues and factors affecting its course // Volgograd Journal of Medical Scientific Research. - 2015. - No. 4 (48). - S.15-18.

6. Murtazina F.F., Mannanova F.F., Kildebekova R.N., Nizamov A.K., Mingazova L.R., Zaydullin R.R. The effect of smoking on the hemodynamics of intact periodontal tissues and hemorheological blood parameters in young people // Bulletin of the Bashkir University. - 2006. - T.11. - No. 3. - S. 70-73.

7. Naumov A. V., Vyshivanyuk V. A., Vertkin A. L. Vascular endothelial dysfunction and hemodynamic disturbances in periodontal disease in young people with nicotine addiction // Cardiovascular therapy and prevention. - 2012. - T.11. - No. 2. - S. 70-75.

8. Yen Cheng-Yo, Tu Yuan-kun, et al. Measurement of tibial endothelial cell function after cigarette smoking, cessation of smoking and hyperbaric oxygen therapy // Injury, Vol. 39, p. 40 - 46.

9. Russel V. Luepker Smoking and passive smoking // Cardiovascular Innovations and Applications. - 2016 .-- Vol. 1. - No. 4. - P.391-398

Claims (1)

A method for correcting blood microcirculation disorders in periodontal disease during chronic tobacco intoxication in an experiment, which consists in irradiating the area of the planned surgical intervention and the xiphoid process of the sternum with electromagnetic radiation from the terahertz range at the frequency of the molecular spectrum of radiation and absorption of atmospheric oxygen 129 under conditions of chronic tobacco intoxication; 0 GHz for 15 minutes in each location, with an output power of 250 μW, while irradiation is carried out 1 time per day and, with a course of 5 procedures, daily.