Ortodontide Tedavi Zamanlaması İçin İskeletsel Matürasyonun Değerlendirilmesi
Özet
Referanslar
Proffit WR, Fields H, Larson B, Sarver DM. Contemporary orthodontics-e-book: contemporary orthodontics-E-Book: Elsevier Health Sciences; 2018.
McNamara JA, Brudon WL, Kokich VG. Orthodontics and dentofacial orthopedics: Needham Press Ann Arbor, Mich; 2001.
Pancherz H, Hägg U. Dentofacial orthopedics in relation to somatic maturation: An analysis of 70 consecutive cases treated with the Herbst appliance. American Journal of Orthodontics. 1985;88(4):273-87.
Macha M, Lamba B, Avula JSS, Muthineni S, Margana PGJS, Chitoori P. Estimation of correlation between chronological age, skeletal age and dental age in children: a cross-sectional study. Journal of clinical and diagnostic research: JCDR. 2017;11(9):ZC01.
Mohan R, Jain RK, Balakrishnan N. Correlation between chronological age and skeletal age using cvmi and modified MP3 methods. Bioinformation. 2020;16(12):1045.
Demirjian A, Goldstein H, Tanner JM. A new system of dental age assessment. Human biology. 1973:211-27.
Björk A, Helm S. Prediction of the age of maximum puberal growth in body height. The Angle Orthodontist. 1967;37(2):134-43.
Hägg U, Taranger J. Maturation indicators and the pubertal growth spurt. American Journal of Orthodontics. 1982;82(4):299-309.
Onis Md, Garza C, Onyango AW, Martorell R. WHO Child Growth Standards. 2006.
Tanner J. Growth at adolescence. Oxford. UK: Blackwell. 1962;325.
Grummer-Strawn LM, Reinold CM, Krebs NF, Control CfD, Prevention. Use of World Health Organization and CDC growth charts for children aged 0-59 months in the United States. 2010.
Tanner JM, Whitehouse R. Standards for subcutaneous fat in British children. British Medical Journal. 1962;1(5276):446.
Sierra AM. Assessment of dental and skeletal maturity. The Angle Orthodontist. 1987;57(3):194-208.
Coutinho S, Buschang PH, Miranda F. Relationships between mandibular canine calcification stages and skeletal maturity. American Journal of Orthodontics and Dentofacial Orthopedics. 1993;104(3):262-8.
Nur B, Kusgoz A, Bayram M, Celikoglu M, Nur M, Kayipmaz S, et al. Validity of Demirjian and Nolla methods for dental age estimation for Northeastern Turkish children aged 5–16 years old. Medicina oral, patologia oral y cirugia bucal. 2012;17(5):e871.
Jayaraman J, Wong HM, King NM, Roberts GJ. The French–Canadian data set of Demirjian for dental age estimation: a systematic review and meta-analysis. Journal of forensic and legal medicine. 2013;20(5):373-81.
Tunc ES, Koyuturk AE. Dental age assessment using Demirjian's method on northern Turkish children. Forensic science international. 2008;175(1):23-6.
Cardoso HF. Accuracy of developing tooth length as an estimate of age in human skeletal remains: the deciduous dentition. Forensic science international. 2007;172(1):17-22.
Perinetti G, Contardo L, Gabrieli P, Baccetti T, Di Lenarda R. Diagnostic performance of dental maturity for identification of skeletal maturation phase. The European Journal of Orthodontics. 2012;34(4):487-92.
Mentes A, Ergeneli S, Tanboga I. Applicability of Demirjian’s standards to the Turkish children’s dental age estimation. J Marmara Univ Dent Fac. 2000;4(1):63-8.
Fishman LS. Radiographic evaluation of skeletal maturation: a clinically oriented method based on hand-wrist films. The Angle Orthodontist. 1982;52(2):88-112.
Baccetti T, Franchi L, McNamara Jr JA, editors. The cervical vertebral maturation (CVM) method for the assessment of optimal treatment timing in dentofacial orthopedics. Seminars in orthodontics; 2005: Elsevier.
Poland J. Skiagraphic atlas showing the development of the bones of the wrist and hand: for the use of students and others: Smith, Elder, & Company; 1898.
Greulich WW, Pyle SI. Radiographic atlas of skeletal development of the hand and wrist. American Journal of the Medical Sciences. 1959;238(3):393.
Tanner J, Whitehouse R, Marshall W, Carter B. Prediction of adult height from height, bone age, and occurrence of menarche, at ages 4 to 16 with allowance for midparent height. Archives of disease in childhood. 1975;50(1):14-26.
Loder RT, Estle DT, Morrison K, Eggleston D, Fish DN, Greenfield ML, et al. Applicability of the Greulich and Pyle skeletal age standards to black and white children of today. American Journal of Diseases of Children. 1993;147(12):1329-33.
Wenzel A, Droschl H, Melsen B. Skeletal maturity in Austrian children assessed by the GP and the TW-2 methods. Annals of human biology. 1984;11(2):173-7.
Groell R, Lindbichler F, Riepl T, Gherra L, Roposch A, Fotter R. The reliability of bone age determination in central European children using the Greulich and Pyle method. The British journal of radiology. 1999;72(857):461-4.
Büken B, Şafak AA, Yazıcı B, Büken E, Mayda AS. Is the assessment of bone age by the Greulich–Pyle method reliable at forensic age estimation for Turkish children? Forensic science international. 2007;173(2-3):146-53.
Koc A, Karaoglanoglu M, Erdogan M, Kosecik M, Cesur Y. Assessment of bone ages: Is the Greulich‐Pyle method sufficient for Turkish boys? Pediatrics International. 2001;43(6):662-5.
TANNER J. A new system for estimating skeletal maturity from the hand and wrist, with standard derived from a study of 2,600 of healthy. British children. 1962.
Carty H. Assessment of skeletal maturity and prediction of adult height (TW3 method).: Edited by JM Tanner, MJR Healy, H. Goldstein and N. Cameron. Pp 110. London, etc: WB Saunders, 2001. ISBN: 0-7020-2511-9.£ 69.95. The Journal of Bone & Joint Surgery British Volume. 2002;84(2):310-1.
Pinchi V, De Luca F, Ricciardi F, Focardi M, Piredda V, Mazzeo E, et al. Skeletal age estimation for forensic purposes: A comparison of GP, TW2 and TW3 methods on an Italian sample. Forensic science international. 2014;238:83-90.
Chumela WC, Roche AF, Thissen D. The FELS method of assessing the skeletal maturity of the hand‐wrist. American Journal of Human Biology. 1989;1(2):175-83.
Roche AF. Growth, maturation, and body composition: the Fels Longitudinal Study 1929-1991: Cambridge University Press; 1992.
Referanslar
Proffit WR, Fields H, Larson B, Sarver DM. Contemporary orthodontics-e-book: contemporary orthodontics-E-Book: Elsevier Health Sciences; 2018.
McNamara JA, Brudon WL, Kokich VG. Orthodontics and dentofacial orthopedics: Needham Press Ann Arbor, Mich; 2001.
Pancherz H, Hägg U. Dentofacial orthopedics in relation to somatic maturation: An analysis of 70 consecutive cases treated with the Herbst appliance. American Journal of Orthodontics. 1985;88(4):273-87.
Macha M, Lamba B, Avula JSS, Muthineni S, Margana PGJS, Chitoori P. Estimation of correlation between chronological age, skeletal age and dental age in children: a cross-sectional study. Journal of clinical and diagnostic research: JCDR. 2017;11(9):ZC01.
Mohan R, Jain RK, Balakrishnan N. Correlation between chronological age and skeletal age using cvmi and modified MP3 methods. Bioinformation. 2020;16(12):1045.
Demirjian A, Goldstein H, Tanner JM. A new system of dental age assessment. Human biology. 1973:211-27.
Björk A, Helm S. Prediction of the age of maximum puberal growth in body height. The Angle Orthodontist. 1967;37(2):134-43.
Hägg U, Taranger J. Maturation indicators and the pubertal growth spurt. American Journal of Orthodontics. 1982;82(4):299-309.
Onis Md, Garza C, Onyango AW, Martorell R. WHO Child Growth Standards. 2006.
Tanner J. Growth at adolescence. Oxford. UK: Blackwell. 1962;325.
Grummer-Strawn LM, Reinold CM, Krebs NF, Control CfD, Prevention. Use of World Health Organization and CDC growth charts for children aged 0-59 months in the United States. 2010.
Tanner JM, Whitehouse R. Standards for subcutaneous fat in British children. British Medical Journal. 1962;1(5276):446.
Sierra AM. Assessment of dental and skeletal maturity. The Angle Orthodontist. 1987;57(3):194-208.
Coutinho S, Buschang PH, Miranda F. Relationships between mandibular canine calcification stages and skeletal maturity. American Journal of Orthodontics and Dentofacial Orthopedics. 1993;104(3):262-8.
Nur B, Kusgoz A, Bayram M, Celikoglu M, Nur M, Kayipmaz S, et al. Validity of Demirjian and Nolla methods for dental age estimation for Northeastern Turkish children aged 5–16 years old. Medicina oral, patologia oral y cirugia bucal. 2012;17(5):e871.
Jayaraman J, Wong HM, King NM, Roberts GJ. The French–Canadian data set of Demirjian for dental age estimation: a systematic review and meta-analysis. Journal of forensic and legal medicine. 2013;20(5):373-81.
Tunc ES, Koyuturk AE. Dental age assessment using Demirjian's method on northern Turkish children. Forensic science international. 2008;175(1):23-6.
Cardoso HF. Accuracy of developing tooth length as an estimate of age in human skeletal remains: the deciduous dentition. Forensic science international. 2007;172(1):17-22.
Perinetti G, Contardo L, Gabrieli P, Baccetti T, Di Lenarda R. Diagnostic performance of dental maturity for identification of skeletal maturation phase. The European Journal of Orthodontics. 2012;34(4):487-92.
Mentes A, Ergeneli S, Tanboga I. Applicability of Demirjian’s standards to the Turkish children’s dental age estimation. J Marmara Univ Dent Fac. 2000;4(1):63-8.
Fishman LS. Radiographic evaluation of skeletal maturation: a clinically oriented method based on hand-wrist films. The Angle Orthodontist. 1982;52(2):88-112.
Baccetti T, Franchi L, McNamara Jr JA, editors. The cervical vertebral maturation (CVM) method for the assessment of optimal treatment timing in dentofacial orthopedics. Seminars in orthodontics; 2005: Elsevier.
Poland J. Skiagraphic atlas showing the development of the bones of the wrist and hand: for the use of students and others: Smith, Elder, & Company; 1898.
Greulich WW, Pyle SI. Radiographic atlas of skeletal development of the hand and wrist. American Journal of the Medical Sciences. 1959;238(3):393.
Tanner J, Whitehouse R, Marshall W, Carter B. Prediction of adult height from height, bone age, and occurrence of menarche, at ages 4 to 16 with allowance for midparent height. Archives of disease in childhood. 1975;50(1):14-26.
Loder RT, Estle DT, Morrison K, Eggleston D, Fish DN, Greenfield ML, et al. Applicability of the Greulich and Pyle skeletal age standards to black and white children of today. American Journal of Diseases of Children. 1993;147(12):1329-33.
Wenzel A, Droschl H, Melsen B. Skeletal maturity in Austrian children assessed by the GP and the TW-2 methods. Annals of human biology. 1984;11(2):173-7.
Groell R, Lindbichler F, Riepl T, Gherra L, Roposch A, Fotter R. The reliability of bone age determination in central European children using the Greulich and Pyle method. The British journal of radiology. 1999;72(857):461-4.
Büken B, Şafak AA, Yazıcı B, Büken E, Mayda AS. Is the assessment of bone age by the Greulich–Pyle method reliable at forensic age estimation for Turkish children? Forensic science international. 2007;173(2-3):146-53.
Koc A, Karaoglanoglu M, Erdogan M, Kosecik M, Cesur Y. Assessment of bone ages: Is the Greulich‐Pyle method sufficient for Turkish boys? Pediatrics International. 2001;43(6):662-5.
TANNER J. A new system for estimating skeletal maturity from the hand and wrist, with standard derived from a study of 2,600 of healthy. British children. 1962.
Carty H. Assessment of skeletal maturity and prediction of adult height (TW3 method).: Edited by JM Tanner, MJR Healy, H. Goldstein and N. Cameron. Pp 110. London, etc: WB Saunders, 2001. ISBN: 0-7020-2511-9.£ 69.95. The Journal of Bone & Joint Surgery British Volume. 2002;84(2):310-1.
Pinchi V, De Luca F, Ricciardi F, Focardi M, Piredda V, Mazzeo E, et al. Skeletal age estimation for forensic purposes: A comparison of GP, TW2 and TW3 methods on an Italian sample. Forensic science international. 2014;238:83-90.
Chumela WC, Roche AF, Thissen D. The FELS method of assessing the skeletal maturity of the hand‐wrist. American Journal of Human Biology. 1989;1(2):175-83.
Roche AF. Growth, maturation, and body composition: the Fels Longitudinal Study 1929-1991: Cambridge University Press; 1992.
