Use of domestic light-cured polymer at production of removable orthodontic devices-Reference-Cited by-同舟云学术

Use of domestic light-cured polymer at production of removable orthodontic devices

Published:2021-09-26 Issue:24 Volume: Page:59-63
ISSN:2078-5631
Container-title:Medical alphabet
language:
Short-container-title:Medicinskij alfavit

Author:

Kosyrevа Т. F.¹^ORCID,Voeykova О. V.¹^ORCID,Golochalova N. V.²

Affiliation:

1. Peoples’ Friendship University of Russia, Moscow. Department of pediatric dentistry and orthodontics

2. Russian Academy of Postgraduate Education of the Ministry of Healthcare of Russia, Associate Professor of the Department of Pediatric Dentistry

Abstract

The purpose of work was the clinical laboratory research, identification of reaction of local immunity mucous a mouth, indicators of globulins fraction on carrying within 6 months of the removable orthodontic device from domestic light-cured polymer at children. Immunoglobulins of three classes IgM, IgG, IGA and calculated values of sIgA and sc (free secretory component) were investigated. Contents sekretorny IgA (sIgA) and a free secretory component (sc) is especially important. Results were estimated by V.V. Zverev’s technique et al. (2011) [6]. Results showed that immunoglobulins changed individually at each patient within one extent of dysbiotic disorders that is connected with an initial situation of a condition of oropharynx of the child which had no considerable fluctuations within one degree of a condition of a microbiota of a mucous oropharynx of the child. The bioinertness of Nolatek photopolymer in the form of basic material of the orthodontic device is established. Light-cured domestic nanostructural polymer has high quality of the operational properties in children’s practice of clinic of orthodontics conforming to modern requirements for bioinertness, an esthetics and functionality.

Publisher

Alfmed LLC

Subject

Materials Chemistry,Economics and Econometrics,Media Technology,Forestry

Reference21 articles.

1. Аnurova A.E., Velichko E.V., Kosyreva T.F., Sturov N.V. Influence of the microflora of the oral cavity of mothers on the formation of oral microbiocenosis in children with congenital clefts of the upper lip and palate // Difficult patient. 2017; 1–2 (15): 59–62.

2. Arakelyan A.G. Polymeric materials for bases of removable dentures / A. Ar-akelyan // Concepts of fundamental and applied scientific research: SB. St. mezhdunar. nauch.-pract. Conf. Ufa, 2018. P. 24–25.

3. Arseninа O.I. Modern technology in orthodontics // M., 2009. 80 p.

4. Voeikova O.V., Kosyreva T.F., Anurova. A.E. The experience of using non-dimen-sional plastic «Nolatec» for the manufacture of orthodontic structures // Young scientist. 2017. No. 16 (150). pp. 34–37.

5. Zhizhikin O.I. Development and clinical evaluation of a method for preventing allergic reactions in the oral cavity during prosthetics with the use of acrylic plastics / O. I. Zhizhikin / / Bulletin of Dentistry. 2012. No. 1 (78). pp. 50–53.