Review
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YENİ NESİL DENTAL YAŞ TAYİNİ YÖNTEMLERİNE GÜNCEL BİR BAKIŞ: BİR DERLEME

Year 2023, Volume: 3 Issue: 3, 173 - 177, 29.12.2023
https://doi.org/10.61139/ijdor.1379568

Abstract

Adli diş hekimliğinde, dental bulgular yaş ve cinsiyetin belirlenmesinde önemli bir rol oynamaktadır. Dişler, anatomik yapıları ve sağlamlıkları nedeniyle, mekanik, kimyasal ve fiziksel etkilere maruz kalmalarına rağmen kimlik tespitinde kritik bir işleve sahiptirler. Ancak, tahmini dental yaş belirleme yöntemlerinin çoğu genellikle invaziv, maliyetli ve mevcut dişin ekstraksiyonunu gerektiren prosedürlerdir. Ek olarak, 2 boyutlu görüntülemelerde oluşan distorsiyon ve magnifikasyon gibi durumlarda yanlış değerlendirmeler yapılabilmektedir. Son dönemde, özellikle Konik Işınlı Bilgisayarlı Tomografi (KIBT), Bilgisayarlı Tomografi (BT) ve mikro-BT gibi üç boyutlu görüntüleme teknolojileri, dişin ve pulpanın hacimsel verisi ile yaş arasındaki potansiyel ilişkiyi incelemek için kullanılmaktadır. KIBT, araştırmacıların pulpa değişikliklerini kapsamlı bir şekilde değerlendirmelerine ve kronolojik yaş ile pulpa hacmi arasındaki ilişkinin açıklanmasına imkan sağlamaktadır. KIBT ile elde edilen 3 boyutlu görüntülerde, dişin ve pulpanın hacimsel ölçümlerinin objektif olarak değerlendirilmesiyle birlikte tahmini dental yaş kriteri olarak kullanılabilmektedir. Bu derleme, yaş tahmini için en güvenilir, kullanışlı ve doğru yöntemlerin tespit edilmesini, uygulanabilirliklerinin araştırılmasını ve özetlenmesini güncel veriler ve yöntemler doğrultusunda açıklanmasını hedeflemektedir.

References

  • 1. Andrade VM, Fontenele RC, de Souza AC, Almeida CA, Vieira AC, Groppo FC, Freitas DQ, Junior ED. Age and sex estimation based on pulp cavity volume using cone beam computed tomography: development and validation of formulas in a Brazilian sample. Dentomaxillofac Radiol. 2019 Oct;48(7):20190053.
  • 2. Altan H, Altan A, Bilgic F, Akinci Sozer O, Damlar I. The applicability of Willems’ method for age estimation in southern Turkish children: A preliminary study. J Forensic Leg Med. 2016;38:24–7.
  • 3. Gupta S, Agnihotri A, Chandra A, Gupta OP. Contemporary practice in forensic odontology. J Oral Maxillofac Pathol. 2014;18(2):244–250.
  • 4. Bing L, Wu X-P, Shangguan H, Xiao W, Yun K-M. Morphology and volume of maxillary canine pulp cavity for individual age estimation in forensic dentistry. Int J Morphol. 2017;35(3):1058-62.
  • 5. Akay G, Gungor K, Gurcan S. The applicability of kvaal methods and pulp/tooth volume ratio for age estimation of the Turkish adult population on cone beam computed tomography images. Aust J Forensic Sci. 2017;51:251–65.
  • 6. Hegde RJ, Sood PB. Dental maturity as an indicator of chronological age: radiographic evaluation of dental age in 6 to 13-year-old children of Belgaum using Demirjian methods. J Indian Soc Pedod Prev Dent. 2002;20:132–138.
  • 7. Yaşar ZF, Büken E, Tekindal MA. Demirjian Metodu Farklı Ülkelerde Yaş Tayininde Kullanılabilir mi? Adli Tıp Bülteni. 2016.
  • 8. Mani SA, Naing L, John J, Samsudin AR. Comparison of two methods of dental age estimation in 7–15-year-old Malays. Int J Paediatr Dent. 2007;18:380–388.
  • 9. Demirjian A, Tanner HGM, Jain V, et al. A new system of dental age assessment. Hum Biol. 1973;45:211–227.
  • 10. Willems G, Van Olmen A, Spiessens B, et al. Dental Age Estimation in Belgian Children: Demirjian’s Technique Revisited. J Forensic Sci. 2001;46(4).
  • 11. Cameriere R, Ferrante L, Cingolani M. Age estimation in children by measurement of open apices in teeth. Int J Legal Med. 2006;120:49–52.
  • 12. Drusini AG, Toso O, Ranzato C. The coronal pulp cavity index: a biomarker for age determination in human adults. Am J Phys Anthropol. 1997;103:353–363.
  • 13. Demirkıran DS, Çelikel A, Zeren C, Arslan MM. Methods for age estimation. Dicle Tıp Dergisi. 2014;41(1):238-243.
  • 14. Mah JK, Yi L, Huang RC, Choo H. Advanced applications of cone beam computed tomography in orthodontics. Seminars in Orthodontics. 2011;17(1):57-71.
  • 15. Tardivo D, Sastre J, Ruquet M, Thollon L, Adalian P, Leonetti G, et al. Three-dimensional modeling of the various volumes of canines to determine age and sex: a preliminary study. J Forensic Sci. 2011;56:766–70.
  • 16. Arora J, Talwar I, Sahni D, Rattan V. Secondary dentine as a sole parameter for age estimation: comparison and reliability of qualitative and quantitative methods among North Western adult Indians. Egypt J Forensic Sci. 2016;6:170–178.
  • 17. Chiego DJ. Essentials of oral histology and embryology: a clinical approach. 4th ed. Elsevier Health Sciences, Mosby; 2014.
  • 18. Paewinsky E, Pfeiffer H, Brinkmann B. Quantification of secondary dentine formation from orthopantomograms: a contribution to forensic age estimation methods in adults. Int J Legal Med. 2005;119:27-30.
  • 19. Bjørk MB, Kvaal SI. CT and MR imaging used in age estimation: a systematic review. J Forensic OdontoStomatol. 2018;36(1):14-25.
  • 20. Porto LV, Celestino da Silva Neto J, Anjos Pontual AD, Catunda RQ. Evaluation of volumetric changes of teeth in a Brazilian population by using cone beam computed tomography. J Forensic Leg Med. 2015 May;36:4-9.
  • 21. De Angelis D, Gaudio D, Guercini N, Cipriani F, Gibelli D, Caputi S, et al. Age estimation from canine volumes. Radiol Med. 2015 Aug;120(8):731–6.
  • 22. Ge ZP, Ma RH, Li G, Zhang JZ, Ma XC. Age estimation based on pulp chamber volume of first molars from cone-beam computed tomography images. Forensic Sci Int. 2015;253:133–e1-e7.
  • 23. Neelakantan P, Subbarao C, Subbarao CV. Comparative evaluation of modified canal staining and clearing technique, cone-beam computed tomography, peripheral quantitative computed tomography, spiral computed tomography, and plain and contrast medium-enhanced digital radiography in studying root canal morphology. J Endod. 2010;9:1547-51.
  • 24. Vandevoort FM, Bergmans L, Van Cleynenbreugel J, Bielen DJ, Lambrechts P, Wevers M, Peirs A, Willems G. Age calculation using X-ray microfocus computed tomographical scanning of teeth: a pilot study. J Forensic Sci. 2004;49:787-790.
  • 25. Aboshi H, Takahashi T, Komuro T. Age estimation using microfocus x-ray computed tomography of lower premolars. Forensic Sci Int. 2010;200:35-40.
  • 26. Someda H, Saka H, Matsunaga S, et al. Age estimation based on three-dimensional measurement of mandibular central incisors in Japanese. Forensic Sci Int. 2009;185:110-114.
  • 27. Yang F, Jacobs R, Willems G. Dental age estimation through volume matching of teeth imaged by cone-beam CT. Forensic Sci Int. 2006;159:78–83.
  • 28. Star H, Thevissen P, Jacobs R, Fieuws S, Solheim T, Willems G. Human dental age estimation by calculation of pulp-tooth volume ratios yielded on clinically acquired cone beam computed tomography images of monoradicular teeth. J Forensic Sci. 2011;56(Suppl. 1):S77–S82.
  • 29. Yousefi F, Mohammadi Y, Ahmadvand M, Razaghi P. Dental age estimation using cone-beam computed tomography: a systematic review and meta-analysis. Imaging Science in Dentistry. 2023;53.
  • 30. Forst D, Nijjar S, Flores-Mir C, Carey J, Secanell M, Lagravere M. Comparison of in vivo 3D cone-beam computed tomography tooth volume measurement protocols. Prog Orthod. 2014;15(69):1-13.
  • 31. Li W, Chen F, Zhang F, Ding W, Ye Q, Shi J, Fu B. Volumetric measurement of root resorption following molar mini-screw implant intrusion using cone beam computed tomography. PLoS One. 2013;8(4):1-7.
  • 32. El H, Palomo JM. Measuring the airway in 3 dimensions: a reliability and accuracy study. Am J Orthod Dentofacial Orthop. 2010;137(4 Suppl):S50-S52.
  • 33. Lo Giudice A, Ronsivalle V, Grippaudo C, Lucchese A, Muraglie S, Lagravère MO, et al. One Step before 3D Printing—Evaluation of Imaging Software Accuracy for 3-Dimensional Analysis of the Mandible: A Comparative Study Using a Surface-to-Surface Matching Technique. Materials. 2020;13(12):2798.
  • 34. Asif MK, Nambiar P, Mani SA. Dental age estimation employing CBCT scans enhanced with MIMICS software: comparison of two different approaches using pulp/tooth volumetric analysis. J Forensic Leg Med. 2018 Dec;54:53-61.

A CURRENT PERSPECTIVE ON NOVEL METHODS FOR DETERMINING DENTAL AGE IN THE NEW GENERATION: A REVIEW

Year 2023, Volume: 3 Issue: 3, 173 - 177, 29.12.2023
https://doi.org/10.61139/ijdor.1379568

Abstract

In forensic odontology, dental findings play a significant role in determining age and gender. Due to their anatomical structures and durability, teeth have a critical function in identification, even when exposed to mechanical, chemical, and physical effects. However, most of the estimated dental age determination methods are generally invasive, costly, and require procedures like tooth extraction. Additionally, misinterpretations can occur in 2-dimensional imaging due to distortions and magnifications. Recently, three-dimensional imaging technologies, especially Cone Beam Computed Tomography (CBCT), Computed Tomography (CT), and micro-CT, are being used to investigate the potential relationship between the volumetric data of the tooth and pulp and age. CBCT allows researchers to comprehensively evaluate pulp changes and explain the relationship between chronological age and pulp volume. With the 3D images obtained by CBCT, the volumetric measurements of the tooth and pulp can be objectively evaluated and can be used as a criterion for estimated dental age. This review aims to identify, investigate, and summarize the most reliable, practical, and accurate methods for age estimation based on current data and methods.

References

  • 1. Andrade VM, Fontenele RC, de Souza AC, Almeida CA, Vieira AC, Groppo FC, Freitas DQ, Junior ED. Age and sex estimation based on pulp cavity volume using cone beam computed tomography: development and validation of formulas in a Brazilian sample. Dentomaxillofac Radiol. 2019 Oct;48(7):20190053.
  • 2. Altan H, Altan A, Bilgic F, Akinci Sozer O, Damlar I. The applicability of Willems’ method for age estimation in southern Turkish children: A preliminary study. J Forensic Leg Med. 2016;38:24–7.
  • 3. Gupta S, Agnihotri A, Chandra A, Gupta OP. Contemporary practice in forensic odontology. J Oral Maxillofac Pathol. 2014;18(2):244–250.
  • 4. Bing L, Wu X-P, Shangguan H, Xiao W, Yun K-M. Morphology and volume of maxillary canine pulp cavity for individual age estimation in forensic dentistry. Int J Morphol. 2017;35(3):1058-62.
  • 5. Akay G, Gungor K, Gurcan S. The applicability of kvaal methods and pulp/tooth volume ratio for age estimation of the Turkish adult population on cone beam computed tomography images. Aust J Forensic Sci. 2017;51:251–65.
  • 6. Hegde RJ, Sood PB. Dental maturity as an indicator of chronological age: radiographic evaluation of dental age in 6 to 13-year-old children of Belgaum using Demirjian methods. J Indian Soc Pedod Prev Dent. 2002;20:132–138.
  • 7. Yaşar ZF, Büken E, Tekindal MA. Demirjian Metodu Farklı Ülkelerde Yaş Tayininde Kullanılabilir mi? Adli Tıp Bülteni. 2016.
  • 8. Mani SA, Naing L, John J, Samsudin AR. Comparison of two methods of dental age estimation in 7–15-year-old Malays. Int J Paediatr Dent. 2007;18:380–388.
  • 9. Demirjian A, Tanner HGM, Jain V, et al. A new system of dental age assessment. Hum Biol. 1973;45:211–227.
  • 10. Willems G, Van Olmen A, Spiessens B, et al. Dental Age Estimation in Belgian Children: Demirjian’s Technique Revisited. J Forensic Sci. 2001;46(4).
  • 11. Cameriere R, Ferrante L, Cingolani M. Age estimation in children by measurement of open apices in teeth. Int J Legal Med. 2006;120:49–52.
  • 12. Drusini AG, Toso O, Ranzato C. The coronal pulp cavity index: a biomarker for age determination in human adults. Am J Phys Anthropol. 1997;103:353–363.
  • 13. Demirkıran DS, Çelikel A, Zeren C, Arslan MM. Methods for age estimation. Dicle Tıp Dergisi. 2014;41(1):238-243.
  • 14. Mah JK, Yi L, Huang RC, Choo H. Advanced applications of cone beam computed tomography in orthodontics. Seminars in Orthodontics. 2011;17(1):57-71.
  • 15. Tardivo D, Sastre J, Ruquet M, Thollon L, Adalian P, Leonetti G, et al. Three-dimensional modeling of the various volumes of canines to determine age and sex: a preliminary study. J Forensic Sci. 2011;56:766–70.
  • 16. Arora J, Talwar I, Sahni D, Rattan V. Secondary dentine as a sole parameter for age estimation: comparison and reliability of qualitative and quantitative methods among North Western adult Indians. Egypt J Forensic Sci. 2016;6:170–178.
  • 17. Chiego DJ. Essentials of oral histology and embryology: a clinical approach. 4th ed. Elsevier Health Sciences, Mosby; 2014.
  • 18. Paewinsky E, Pfeiffer H, Brinkmann B. Quantification of secondary dentine formation from orthopantomograms: a contribution to forensic age estimation methods in adults. Int J Legal Med. 2005;119:27-30.
  • 19. Bjørk MB, Kvaal SI. CT and MR imaging used in age estimation: a systematic review. J Forensic OdontoStomatol. 2018;36(1):14-25.
  • 20. Porto LV, Celestino da Silva Neto J, Anjos Pontual AD, Catunda RQ. Evaluation of volumetric changes of teeth in a Brazilian population by using cone beam computed tomography. J Forensic Leg Med. 2015 May;36:4-9.
  • 21. De Angelis D, Gaudio D, Guercini N, Cipriani F, Gibelli D, Caputi S, et al. Age estimation from canine volumes. Radiol Med. 2015 Aug;120(8):731–6.
  • 22. Ge ZP, Ma RH, Li G, Zhang JZ, Ma XC. Age estimation based on pulp chamber volume of first molars from cone-beam computed tomography images. Forensic Sci Int. 2015;253:133–e1-e7.
  • 23. Neelakantan P, Subbarao C, Subbarao CV. Comparative evaluation of modified canal staining and clearing technique, cone-beam computed tomography, peripheral quantitative computed tomography, spiral computed tomography, and plain and contrast medium-enhanced digital radiography in studying root canal morphology. J Endod. 2010;9:1547-51.
  • 24. Vandevoort FM, Bergmans L, Van Cleynenbreugel J, Bielen DJ, Lambrechts P, Wevers M, Peirs A, Willems G. Age calculation using X-ray microfocus computed tomographical scanning of teeth: a pilot study. J Forensic Sci. 2004;49:787-790.
  • 25. Aboshi H, Takahashi T, Komuro T. Age estimation using microfocus x-ray computed tomography of lower premolars. Forensic Sci Int. 2010;200:35-40.
  • 26. Someda H, Saka H, Matsunaga S, et al. Age estimation based on three-dimensional measurement of mandibular central incisors in Japanese. Forensic Sci Int. 2009;185:110-114.
  • 27. Yang F, Jacobs R, Willems G. Dental age estimation through volume matching of teeth imaged by cone-beam CT. Forensic Sci Int. 2006;159:78–83.
  • 28. Star H, Thevissen P, Jacobs R, Fieuws S, Solheim T, Willems G. Human dental age estimation by calculation of pulp-tooth volume ratios yielded on clinically acquired cone beam computed tomography images of monoradicular teeth. J Forensic Sci. 2011;56(Suppl. 1):S77–S82.
  • 29. Yousefi F, Mohammadi Y, Ahmadvand M, Razaghi P. Dental age estimation using cone-beam computed tomography: a systematic review and meta-analysis. Imaging Science in Dentistry. 2023;53.
  • 30. Forst D, Nijjar S, Flores-Mir C, Carey J, Secanell M, Lagravere M. Comparison of in vivo 3D cone-beam computed tomography tooth volume measurement protocols. Prog Orthod. 2014;15(69):1-13.
  • 31. Li W, Chen F, Zhang F, Ding W, Ye Q, Shi J, Fu B. Volumetric measurement of root resorption following molar mini-screw implant intrusion using cone beam computed tomography. PLoS One. 2013;8(4):1-7.
  • 32. El H, Palomo JM. Measuring the airway in 3 dimensions: a reliability and accuracy study. Am J Orthod Dentofacial Orthop. 2010;137(4 Suppl):S50-S52.
  • 33. Lo Giudice A, Ronsivalle V, Grippaudo C, Lucchese A, Muraglie S, Lagravère MO, et al. One Step before 3D Printing—Evaluation of Imaging Software Accuracy for 3-Dimensional Analysis of the Mandible: A Comparative Study Using a Surface-to-Surface Matching Technique. Materials. 2020;13(12):2798.
  • 34. Asif MK, Nambiar P, Mani SA. Dental age estimation employing CBCT scans enhanced with MIMICS software: comparison of two different approaches using pulp/tooth volumetric analysis. J Forensic Leg Med. 2018 Dec;54:53-61.
There are 34 citations in total.

Details

Primary Language English
Subjects Paedodontics
Journal Section Reviews
Authors

Yelda Polat 0000-0002-3228-3143

Sema Çelenk

Early Pub Date December 30, 2023
Publication Date December 29, 2023
Submission Date October 22, 2023
Acceptance Date November 15, 2023
Published in Issue Year 2023 Volume: 3 Issue: 3

Cite

APA Polat, Y., & Çelenk, S. (2023). A CURRENT PERSPECTIVE ON NOVEL METHODS FOR DETERMINING DENTAL AGE IN THE NEW GENERATION: A REVIEW. HRU International Journal of Dentistry and Oral Research, 3(3), 173-177. https://doi.org/10.61139/ijdor.1379568
AMA Polat Y, Çelenk S. A CURRENT PERSPECTIVE ON NOVEL METHODS FOR DETERMINING DENTAL AGE IN THE NEW GENERATION: A REVIEW. HRU Int J Dent Oral Res. December 2023;3(3):173-177. doi:10.61139/ijdor.1379568
Chicago Polat, Yelda, and Sema Çelenk. “A CURRENT PERSPECTIVE ON NOVEL METHODS FOR DETERMINING DENTAL AGE IN THE NEW GENERATION: A REVIEW”. HRU International Journal of Dentistry and Oral Research 3, no. 3 (December 2023): 173-77. https://doi.org/10.61139/ijdor.1379568.
EndNote Polat Y, Çelenk S (December 1, 2023) A CURRENT PERSPECTIVE ON NOVEL METHODS FOR DETERMINING DENTAL AGE IN THE NEW GENERATION: A REVIEW. HRU International Journal of Dentistry and Oral Research 3 3 173–177.
IEEE Y. Polat and S. Çelenk, “A CURRENT PERSPECTIVE ON NOVEL METHODS FOR DETERMINING DENTAL AGE IN THE NEW GENERATION: A REVIEW”, HRU Int J Dent Oral Res, vol. 3, no. 3, pp. 173–177, 2023, doi: 10.61139/ijdor.1379568.
ISNAD Polat, Yelda - Çelenk, Sema. “A CURRENT PERSPECTIVE ON NOVEL METHODS FOR DETERMINING DENTAL AGE IN THE NEW GENERATION: A REVIEW”. HRU International Journal of Dentistry and Oral Research 3/3 (December 2023), 173-177. https://doi.org/10.61139/ijdor.1379568.
JAMA Polat Y, Çelenk S. A CURRENT PERSPECTIVE ON NOVEL METHODS FOR DETERMINING DENTAL AGE IN THE NEW GENERATION: A REVIEW. HRU Int J Dent Oral Res. 2023;3:173–177.
MLA Polat, Yelda and Sema Çelenk. “A CURRENT PERSPECTIVE ON NOVEL METHODS FOR DETERMINING DENTAL AGE IN THE NEW GENERATION: A REVIEW”. HRU International Journal of Dentistry and Oral Research, vol. 3, no. 3, 2023, pp. 173-7, doi:10.61139/ijdor.1379568.
Vancouver Polat Y, Çelenk S. A CURRENT PERSPECTIVE ON NOVEL METHODS FOR DETERMINING DENTAL AGE IN THE NEW GENERATION: A REVIEW. HRU Int J Dent Oral Res. 2023;3(3):173-7.