Phazlislyahmetova L. A.

Bashkir state medical University, Russia

Change in the dental status of working in environmentally adverse enterprises

The indicators of dental morbidity in the Russian population have significantly changed in the direction of its growth as a result of the increase in the level of occupational hazards at production facilities, the adverse effects of excessive amounts of pesticides, nitrates and other chemicals [9,11]. To date, there is a lot of data confirming the adverse effect on the dentoalveolar system of chemical, physical and biological factors of production [1,4, 6,7,8,10]. At the enterprises of the glass fiber production workers exposed to a complex of adverse factors: fiber glass, glass wool and mineral wool, fibre based on aluminium oxide, fiber based carbon/graphite, silicon carbon (silicon) fibers and yarns, the effect of occupational noise terms of height and welding [6]. According to the results of a dental examination in workers of fiberglass production found that caries and chronic generalized periodontitis detected in 100% of workers. Among the diseases of the oral mucous membrane (OMM) is dominated by leukoplakia , which occurs in response to chronic exogenous irritation, are also dominated by the development of keratosis and hyperkeratosis in the OMM and lips due to prolonged exposure to high temperature. In the glass industry, the probability of developing occupational diseases may be associated with the presence in the air of the working zone of small suspended solids of quartz sand and feldspar. Dust settling on the skin and mucous membranes can cause irritation and inflammatory processes (eczema, etc.), blockage of sebaceous and sweat glands and, consequently, disrupt their normal activity [3]. The dental status of workers: 100% of the cases, dental caries, non-carious lesions, leukoplakia, keratosis and hyperkeratosis of the OMM. The development of actinic keratoses and the hyperkeratosis of the oral mucous membrane and lips promotes long-term exposure to high temperature (steklovarenie furnace). [3] Other adverse human health that the mining production. Such harmful factors of mining production as vibration, dust, and to a greater extent their combined effect contributes to the intensification of lipid peroxidation. The structure, prevalence and severity of the disease are directly dependent on the length of service in harmful conditions [2]. The existing factors of mining production have an adverse effect on the state of indicators of non-specific resistance of the body and in the oral cavity in particular. In mining workers there is a sharp decrease in antimicrobial protection of the oral cavity and excessive growth of the conditionally pathogenic and pathogenic microflora, which leads to the emergence of a complex of diseases of OMM and periodontal tissues in miners [5,8]. For dental treatment 100% of the workers found a high degree of activity of dental caries, chronic generalized periodontitis. Among the adverse environmental factors for the workers of the copper smelting plant are the main adverse microclimate, dust, the impact of copper compounds, Nickel, arsenic, tellurium, selenium, sulfur dioxide, noise, vibration, as well as large physical activity.[7] for workers engaged in the production of copper, it is established that copper accumulates in the oral fluid and is embedded in the enamel of teeth. In addition, the copper ions with organic compounds to form oral liquid a solid chelate complexes, disrupting metabolic processes.[1] In the study of oral cavity in workers of copper smelting enterprises identified in 100% of cases of chronic generalized periodontitis, dental caries, including diseases of the OMM prevails cheilitis, leukoplakia, lichen planus, herpetic lesions of the lips.

Thus, a comparative analysis of studies of the dental status of workers in various harmful industries shows the presence of pronounced changes in the composition of saliva, the presence of OMM, periodontal disease, 100% prevalence of dental caries, which are directly related to the adverse effects of environmental factors of the working environment.

Literature:

1.  Агафонов Ю.А. Этиология, патогенез и профилактика основных стоматологических заболеваний у рабочих металлургического производства меди: ав- тореф. дисс. ... д-ра мед. наук. Екатеринбург, 2005.

2.  Антошина Л. И. Научно-методические основы выбора биомаркеров для ранней диагностики влияния факторов рабочей среды современного горнорудного производства: автореф. д.м.н..– Мытищи, 2009. – 234с.

3.  Галикеева А.Ш., Ларионова Т.К., Степанов Е.Г., Мишина А.Е. Стоматологическая заболеваемость, состояние иммунного и элементного статуса полости рта у рабочих стекольного производства.- Российский стоматологический журнал №4.2012. C.52-54.

4.  Галиуллина Э.Ф., Аверьянов С.В. Влияние вредных факторов резинотехнической промышленности на пародонтологический статус работников // Пародонтология. - 2016.- №4. -47-51.

5.  Груздева А.А. Влияние факторов производственной среды на заболеваемость слизистой оболочки рта // Проблемы, достижения и перспективы развития медико-биологических наук и практического здравоохранения: 1998. – Т. 134, ч.ІІ – С. 350–355.

6.  Гуляева О.А., Буляков Р.Т., Чемикосова Т.C., Тухватуллина Д.Н., Юсупова А.Ф., Саляхова А.А.- Стоматологический статус рабочих стекловолокна.// Проблемы стоматологии №1, 2015. C.26-29.

7.  Еловикова Т.М., Липатов Г.Я., Седых Н.А., Молвинских В.С. Анализ стоматологического здоровья рабочих медеплавильного комбината // Медицина в 21 веке. -2014 год – С.61-66.

8.  Сабитова Р.И., Кабирова М.Ф., Герасимова Л.П., Шакиров Д.Ф., Гуляева О.А.  Пародонтологический статус рабочих производства нефтехимии  //  Международный журнал прикладных и фундаментальных исследований. 2017. № 7-2. С. 201-205.

9.  А.А. Трофимчук, О.А. Гуляева, Л.К. Каримова, Д.Н. Тухватуллина Состояние твердых тканей зубов у рабочих горнодобывающей промышленности // Проблемы стоматологии. – 2016. - №2 . – С.56-61

10.                Чемикосова Т.С., Камалова  О.А.,  Ибрагимова З.Н. Состояние слизистой оболочки полости рта у лиц, профессионально контактирующих с хлорфеноксигербицидами  // Стоматология. – 2004. - № 1 – С. 14-18.

11.                Чемикосова Т.С., Камалова О.А. Стоматологический статус рабочих производства хлорорганических гербицидов // Институт стоматологии. – 2003. - №  1 (18). – С. 42-43.