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    Article
    World of Medicine and Biology / №1(63), 2018 / CONNECTIONS OF TRANSVERSAL VOLUMES OF THE UPPER AND LOWER JAW AND SAGITTAL CHARACTERISTICS OF THE DENTAL ARCH WITH ODONTOMETRIC AND CEPHALOMETRIC INDICATORS OF YOUTH-BRACHYCEPHALS WITH ORTHOGNATIC BITE
    А. V. Маrchenko

    CONNECTIONS OF TRANSVERSAL VOLUMES OF THE UPPER AND LOWER JAW AND SAGITTAL CHARACTERISTICS OF THE DENTAL ARCH WITH ODONTOMETRIC AND CEPHALOMETRIC INDICATORS OF YOUTH-BRACHYCEPHALS WITH ORTHOGNATIC BITE

    About the author: А. V. Маrchenko
    Heading CLINICAL MEDICINE
    Type of article Scentific article
    Annotation The article describes and analyzes the correlation of computer-tomographic characteristics of dental arcs with odontometric and cephalometric indices of youth-brachycephals with orthognathic bite. Relative majority of predominantly direct mean forces, correlations of linear sizes necessary for constructing the correct form of the dental arch with the size of the teeth and the cephalometric indices in the brachycephalic males are established with the parameters of the maxillary dental arch in the sagittal plane (43.0%), and the smallest - with the parameters of the maxillary dental arcs in the vertical plane (24.4%). With the transversal dimensions of the upper and lower jaw, the relative number of such correlations is 32.3%. The greatest number of correlations of the size of the teeth with transversal dimensions of the upper and lower jaw are established with mesiodistal (53.5% of the total number of links between these indices) and vestibular-tongue (50.7%) size of the crowns of the teeth and with the width of the dentin-enamel border in the vestibular-tongue direction (54.2%); with the parameters of the maxillary dental arch in the sagittal plane - almost similar distribution is maintained (80.6% with mesiodistal dimensions of crowns of teeth, 83.3% with vestibular-tongue dimensions of crowns of teeth, 72.2% with width of dentin-enamel border in vestibular-tongue direction, 72.2% with the width of the dentin-enamel border in the mesiodistal direction); with the parameters of the maxillary dental arc in the vertical plane there is a completely different distribution - the greatest number of correlations is established only with the width of the dentin-enamel border in the vestibular-tongue direction (38.9%) and with the cephalometric indices (34.3%).
    Tags youth-brachycephals with orthognatic bite, correlations, cephalometric indicators
    Bibliography
    • Anderson G., Fields H.W., Beck M., Chacon G., Vig K.W. Development of Cephalometric Norms Using a Unified Facial and Dental Approach. The Angle Orthodontist, 2006; 76(4): 612-618.
    • Bunak V.V. Antropometriya. Prakticheskiy kurs. 1941; M.: Uchpedgiz. (in Russian)
    • Bushan M.G., Vasilenko Z.S., Grigoreva L.P. Spravochnik po ortodonti. 1990; Kishenev: Kartya Moldovenyaske. (in Russian)
    • Budai M., Farkas L.G., Tompson B., Katie М., Forrest C.R. Relation between anthropometric and cephalometric measurements and proportions of the face of healthy young white adult men and women. J. Craniofac. Surg., 2003; 14(2): 154-161.
    • Bastir M. & Rosas A. Correlated variation between the lateral basicranium and the face: a geometric morphometric study in different human groups. Arch. Oral. Biol., 2006; 51: 814-824.
    • Domenyuk D.A., Dmitrienko S.V., Vedeshina E.G., Kochkonyan A.S., Dmitrienko D.S. Morfometricheskiy analiz formyi verhnih zubochelyustnyih dug s fiziologicheskoy okklyuziey postoyannyih zubov. Institut stomatologii, 2015; 1(66): 75-78. (in Russian)
    • Edgar H.J.H. Estimation of ancestry using dental morphological characteristics. J. Forensic Sci., 2013; 58(1): 3-8.
    • Fadeev R.A. & Lanina A.N. Metod kolichestvennoy otsenki zubochelyustno-litsevyih anomalIy. Ortodontiya, 2012; 1: 99. (in Russian)
    • Fischev S.B., Dmitrienko S.V., Lepilin A.V., Sevastyanov A.V., Fomin I.V. K voprosu opredeleniya razmerov zubnyih dug v sagittalnom i transversalnom napravleniyah. Stomatologiya detskogo vozrasta i profilaktika, 2013; 3(46): 43-45. (in Russian)
    • Gunas I.V., Dmitriev N.A., Marchenko A.V. Methodological aspects of computed tomography odontomorphometry of boys and girls with the physiological bite. Journal of Education, Health and Sport, 2015; 5(11): 345-355. (in Russian)
    • Gunas І., Glushak A., Samoylenko A. Dental arch Transversal characteristics in boys and girlswith orthognathic bite: head shape and face type dependence. Current Issues in Pharmacy and Medical Sciences, 2015; 28(1): 44-47.
    • Hasegawa Y., Terada K., Kageyama I., Tsukada S., Uzuka S., Nakahara R., Nakahara S. Influence of shovel-shaped incisors on the dental arch crowding in Mongolian females. Okajimas Folia Anat. Jpn., 2009; 86(2): 67-72.
    • Hussein K.W., Rajion Z.A., Hassan R., Noor S.N. Variations in tooth size and arch dimensions in Malay schoolchildren. Aust. Orthod. J., 2009; 25(2): 163-168.
    • Ikramov V.B. Individualnaya anatomicheskaya izmenchivost chelyustno-litsevogo apparata u muzhchin i zhenschin zrelogo vozrasta. Ukrainskiy morfologicheskiy almanah, 2010; 8(4): 74-75. (in Russian)
    • Маrchenko А.V. Correlation of transversal dimensions of the jaws and sagittal characteristics of the dental arch with odontometric and cephalometric indices in boys with orthognathic bite. World of Medicine and Biology, 2017; 4(62): 58-63.
    • Маrchenko А.V., Gunas І.V., Petrushanko T.O., Serebrennikova O.А., Trofimenko Yu.Yu. Computer-tomographic characteristics of root length incisors and canines of the upper and lower jaws in boys and girls with different craniotypes and physiological bite. Wiadomości Lekarskie, 2017; LXX(3, I): 499-502.
    • Noback M.L. & Harvati К. Covariation in the Human Masticatory Apparatus. The anatomical record, 2015; 298: 64-84.
    • Orlova I.V., Fischev S.B., Sevastyanov A.V., Korolyov A.I., Bagomaev T.S. Obosnovanie k vyiboru metodov opredeleniya razmerov zubnyih dug po morfometricheskim parametram litsa s umenshennoy vyisotoy gnaticheskoy chasti litsa. Sovremennyie naukoemkie tehnologii, 2014; 6: 94-98. (in Russian)
    • Ronay V., Miner R.M., Will L.A., Arai K. Mandibular arch form: the relationship between dental and basal anatomy. Am. J. Orthod. Dentofacial Orthop., 2008; 134(3): 430-438.
    • Sevastyanov A.V., Fischev S.B., Egorova A.V. Sootvetstvie razmerov postoyannyih zubov parametram zubnyih dug i kraniofatsialnogo kompleksa (obzor literaturyi). Parodontologiya, 2010; 2: 18-20. (in Russian)
    • Suleymanova L.M., Gioeva Yu.A., Persin L.S. Kompleks diagnosticheskih meropriyatiy, neobhodimyiy dlya vklyucheniya v protokol lecheniya zubochelyustno- litsevyih anomalIy. Ortodontiya, 2012; 1: 94-95. (in Russian)
    • Thu K.M., Winn T., Jayasinghe J.A.P., Abdullah N. The maxillary arch and cephalometric measurements: comparing ethnic malays and ethnic chinese in Malaysia. International Journal of Anatomy and Research, 2015; 3(2): 999-907.
    • Yaradaykina M.N., Fischev S.B., Sevastyanov A.V., Rtischeva S.S., Berdin V.V. Vzaimosvyaz razmerov postoyannyih zubov s parametrami zubochelyustnyih dug i chelyustno-litsevoy oblastyu. 2011; Tezisyi predstavlenyi v sbornike materialov resp. konferentsii stomatologov, Ufa (str. 254-257). Ufa : [b. i.]. (in Russian)
    Publication of the article «World of Medicine and Biology» №1(63), 2018 year, 047-052 pages, index UDK [616.314+616.31.2] : 611.715-053.6
    DOI 10.26724/2079-8334-2018-1-63-47-52