EXPERIMENTAL GROUNDING FOR USING INFRARED LASER LIGHT IN ENDODONTIC TREATMENT

L A Mozgovaya; E Yu Kosolapova; I I Zadorina; S V Mozgovaya; N B Fokina; V P Rochev; M S Gavrilenko

doi:10.17816/pmj34351-58

Perm Medical Journal ›› 2017, Vol. 34 ›› Issue (3) :51 -58. DOI: 10.17816/pmj34351-58

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EXPERIMENTAL GROUNDING FOR USING INFRARED LASER LIGHT IN ENDODONTIC TREATMENT

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Abstract

Aim. To raise the quality of endodontic treatment of chronic forms of apical periodontitis using modern technologies. Materials and methods. Complex examination and endodontic treatment of 143 patients (aged 24-56 years) suffering from chronic forms of apical periodontitis was carried out. Simultaneously, in dynamics of treatment, bacteriological content of 427 teeth root canals and film-forming ability of 86 enterococcal strains were studied. Results. The conducted studies confirm the efficiency of using laserotherapy in the treatment of patients with chronic forms of apical periodontitis. Infrared laser light, applied in complex treatment of chronic apical periodontitis, has an antibacterial effect on Gram - and Gram+ anaerobic colonies that permits to reduce the semination of teeth root canals to 93,2 % and contributes to 1,3 time higher restoration of bone tissue in the periapical region than with traditional method of endodontic treatment. Conclusions. The techniques of disinfection of root canals by means of hydrodynamic irrigation and infrared laser light, included into the complex of endodontic interventions, allow to conduct the treatment of chronic apical periodontitis for one visit, thus reducing the number of the possible complications.

Keywords

Chronic apical periodontitis / infrared laser light / microorganisms strains

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L A Mozgovaya, E Yu Kosolapova, I I Zadorina, S V Mozgovaya, N B Fokina, V P Rochev, M S Gavrilenko. EXPERIMENTAL GROUNDING FOR USING INFRARED LASER LIGHT IN ENDODONTIC TREATMENT. Perm Medical Journal, 2017, 34(3): 51-58 DOI:10.17816/pmj34351-58

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References

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[1]	Болячин А.В. Основные принципы и методики ирригации системы корневого канала в эндодонтии. Клиническая эндодонтия 2008; 1-2: 15-19.

[2]	Мозговая Л.А., Виноградов А.Б., Четвертных В.А. Красный и инфракрасный лазерный свет в стоматологической практике. Palmarium Academie Publishing (Dentscland) 2012; 128.

[3]	Мозговая Л.А., Косолапова Е.Ю., Мозговая С.В. Современные технологии, применяемые в эндодонтическом лечении. Внедрение инновационных технологий в хирургическую практику (фундаментальные и прикладные аспекты). Материалы междунар. дистанционной науч.-практ. конф. Пермь 2010; 119-124.

[4]	Мозговая Л.А., Косолапова Е.Ю. Потенцированное действие инфракрасного лазерного света на микрофлору корневых каналов при деструктивных формах хронического периодонтита. Стоматология большого Урала. Профилактика стоматологических заболеваний. Материалы всерос. конгр. Пермь 2009; 82-84.

[5]	Пименов А.Б. Участки корневых каналов, не доступные для инструментальной обработки. Эндодонтия today 2003; 1-2: 23-25.

[6]	Цепов Л.М. Пути повышения качества эндодонтического лечения. Клиническая стоматология 2002; 2: 4-17.

[7]	Haapasalo M. In vitro infection and disinfection of dent tubules. J Dent Res 2002; 66 (8): 1375-1379.

[8]	Оrstavik D. Disinfection by endodontic irrigants and dressings of experimentally infected dentinal tubules. Endod Dent Traumatot 2006; 6: 142-151.