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International Journal of Legal Medicine
Published in: International Journal of Legal Medicine 6/2019

01-11-2019 | Original Article

Age estimation from anterior cervical vertebral ring apophysis ossification in South Africans

Authors: A. Uys, H. Bernitz, S. Pretorius, M. Steyn

Published in: International Journal of Legal Medicine | Issue 6/2019

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Abstract

Age estimation in living individuals around the age of 18 years remains a difficult challenge. In this study, the anterior inferior vertebral ring apophysis development of cervical vertebrae C2, C3, and C4 of 496 white and 478 black South African individuals aged between 15 and 22 years was assessed from cephalometric radiographs. Apophysis development was scored according to a four-stage scoring system. Ancestry and sex differences in apophysis maturation were assessed and likelihood values determined for individuals in each population group being 18 years, based on developmental stages. Regression equations were developed for each ancestry and sex group. The results indicated that the median ages for attainment of stages 0, 1, and 2 were below the 18-year threshold for all ancestry and sex groups. Additionally, WSA males and BSA females attained stage 3 for C2, and WSA females attained stage 3 for C2, C3, and C4, below the 18-year threshold. The presence of stage 0 for black and white males in all three observed vertebrae and stage 1 for black males for C2, C3, and C4, white females for C2 and C3, and white males for C4 indicates an age below 18 years (with a 95% or higher probability). The results indicate that anterior inferior apophysis ossification stages of C2, C3, and C4 can be used as a reliable indicator to determine the likelihood of being 18 years of age at a 95% confidence index level. Apophysis development provides a valuable addition to the methods that can be used to assess age in the adolescent years.
Literature
1.
Schmeling A, Geserick G, Reisinger W, Olze A (2007) Age estimation. Forensic Sci Int 165:178–181CrossRef
2.
Demirjian A, Goldstein H, Tanner JM (1973) A new system of dental age assessment. Hum Biol 45:211–227
3.
Nykänen R, Espeland L, Kvaal SI, Krogstad O (1998) Validity of the Demirjian method for dental age estimation when applied to Norwegian children. Acta Odontol 56:238–244CrossRef
4.
Nyström M, Haataja J, Kataja M, Evalahti M, Peck L, Kleemola-Kujala E (1986) Dental maturity in Finnish children, estimated from the development of seven permanent mandibular teeth. Acta Odontol Scand 44:193–198CrossRef
5.
Uys A, Bernitz H, Pretorius S, Steyn M (2018) Estimating age and the probability of being at least 18 years of age using third molars : a comparison between Black and White individuals living in South Africa. Int J Legal Med 132:1437–1446CrossRef
6.
Uys A, Fabris-Rotelli I, Bernitz H (2014) Estimating age in black South African children. South African Dent J 69:56–61
7.
Gunst K, Mesotten K, Carbonez A, Willems G (2003) Third molar root development in relation to chronological age: a large sample sized retrospective study. Forensic Sci Int 136:52–57CrossRef
8.
Liversidge HM, Marsden PH (2010) Estimating age and the likelihood of having attained 18 years of age using mandibular third molars. Br Dent J 209:1–12CrossRef
9.
Cavric J, Galic I, Vodanovic M et al (2016) Third molar maturity index (I) for assessing age of majority in a black African population in Botswana. Int J Legal Med 130:1109–1120CrossRef
10.
Panchbhai AS (2011) Dental radiographic indicators, a key to age estimation. Dentomaxillofacial Radiol 40:199–212CrossRef
11.
Thevissen PW, Kaur J, Willems G (2012) Human age estimation combining third molar and skeletal development. Int J Legal Med 126:285–292CrossRef
12.
Schmeling A, Grundmann C, Fuhrmann A, Kaatsch HJ, Knell B, Ramsthaler F, Reisinger W, Riepert T, Ritz-Timme S, Rösing FW, Rötzscher K, Geserick G (2008) Criteria for age estimation in living individuals. Int J Legal Med 122:457–460CrossRef
13.
Ritz-Timme S, Cattaneo C, Collins MJ, Waite ER, Schütz HW, Kaatsch HJ, Borrman HIM (2000) Age estimation: the state of the art in relation to the specific demands of forensic practise. Int J Legal Med 113:129–136CrossRef
14.
Schmeling A, Reisinger W, Loreck D, Vendura K, Markus W, Geserick G (2000) Effects of ethnicity on skeletal maturation: consequences for forensic age estimations. Int J Legal Med 113:253–258CrossRef
15.
Standring S (2016) Gray’s Anatomy, 41st edn. Elsevier Limited, New York
16.
Cunningham C, Scheuer L, Black S et al (2016) Chapter 7 – the vertebral column, 2nd edn. Elsevier, London, United Kingdom
17.
Bick EM, Copel JW (1951) The ring apophysis of the human vertebra. J bone Jt Surg 33–A:783–787CrossRef
18.
Dias MS (2007) Normal and abnormal development of the spine. Neurosurg Clin N Am 18:415–429CrossRef
19.
Albert AM, Maples WR (1995) Stages of epiphyseal union for thoracic and lumbar vertebral centra as a method of age determination for teenage and young adult skeletons. J Forensic Sci 40:623–633CrossRef
20.
Albert AM (1998) The use of vertebral ring epiphyseal union for age estimation in two cases of unknown identity. Forensic Sci Int 97:11–20CrossRef
21.
McKern TW, Stewart TD (1957) Skeletal age changes in young American males. Analysed from the standpoint of age identification. In: Technical report EP 45. Quartermaster Research and Development Center, Environmental Protection Research Division. Natick, Massachusetts: 99
22.
McKern TW, Stewart TD (1957) Skeletal age changes in young American males. Analysed from the standpoint of age identification. In: Technical report EP 45. Quartermaster Research and Development Center, Environmental Protection Research Division. Natick, Massachusetts: 98–110
23.
Cardoso HFV, Ríos L (2011) Age estimation from stages of epiphyseal union in the presacral vertebrae. Am J Phys Anthropol 144:238–247CrossRef
24.
Buikstra J, Gordon C, St. Hoyme L (1984) The case of the severed skull: individuation in forensic anthropology. Springfield, IL
25.
Stevenson PH (1924) Age order of epiphyseal union in man. Am J Phys Anthropol 7:53–93CrossRef
26.
Baccetti T, Franchi L, McNamara JA Jr (2002) An improved version of the cervical vertebral maturation method for the assessment of mandibular growth. Angle Orthod 72:316–323PubMed
27.
Franchi L, Baccetti T, McNamara JA Jr (2000) Mandibular growth as related to cervical vertebral maturation and body height. Am J Orthod Dentofac Orthop 118:335–340CrossRef
28.
Baccetti T, Franchi L, McNamara JA Jr (2005) The cervical vertebral maturation (CVM) method for the assessment of optimal treatment timing in dentofacial orthopedics. Semin Orthod 11:119–129CrossRef
29.
Caldas M de P, Ambrosano GMB, Haiter Neto F (2007) New formula to objectively evaluate skeletal maturation using lateral cephalometric radiographs. Braz Oral Res 21:330–335CrossRef
30.
Altan M, Dalcı Ö, İşeri H (2012) Growth of the cervical vertebrae in girls from 8 to 17 years. A longitudinal study. Eur J Orthod 34:327–334CrossRef
31.
Lamparski DG (1975) Skeletal age assessment utilizing cervical vertebrae. Am J Orthod 67:458–459CrossRef
32.
Hassel B, Farman AG (1995) Skeletal maturation evaluation using cervical vertebrae. Am J Orthod Dentofac Orthop 107:58–66CrossRef
33.
Hellsing E (1991) Cervical vertebral dimensions in 8-, 11-, and 15-year-old children. Acta Odontol Scand 49:207–213CrossRef
34.
European Union, European Commission (2004) Radiation Protection 136. European guidelines on radiation protection in dental radiology. Luxembourg: Office for Official Publications of the European Communities
35.
Malina RM (1979) Secular changes in size and maturity : causes and effects. Monogr Soc Res Child Dev 44:59–102CrossRef
36.
Kim JY, Oh IH, Lee EY, Choi KS, Choe BK, Yoon TY, Lee CG, Moon JS, Shin SH, Choi JM (2008) Anthropometric changes in children and adolescents from 1965 to 2005 in Korea. Am J Phys Anthropol 136:230–236CrossRef
37.
Fredriks AM, van Buuren S, Burgmeijer RJF et al (2000) Continuing positive secular growth change in the Netherlands 1955–1997. Pediatr Res 47:316–323CrossRef
38.
Maresh MM (1972) A forty five year investigation for secular changes in physical maturation. Am J Phys Anthropol 36:103–109CrossRef
39.
40.
World Medical Association (2013) World Medical Association Declaration of Helsinki ethical principles for medical research involving human subjects. JAMA 310:2191–2194CrossRef
Metadata
Title
Age estimation from anterior cervical vertebral ring apophysis ossification in South Africans
Authors
A. Uys
H. Bernitz
S. Pretorius
M. Steyn
Publication date
01-11-2019
Publisher
Springer Berlin Heidelberg
Published in
International Journal of Legal Medicine / Issue 6/2019
Print ISSN: 0937-9827
Electronic ISSN: 1437-1596
DOI
https://doi.org/10.1007/s00414-019-02137-7

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