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Intra-osseous lesions in Greek children and adolescents. A study based on biopsy material over a 26-year period


  • Alexandra Skiavounou1,*,
  • Mana lakovou1
  • John Kontos-Toutouzas1
  • Antonia Kanellopoulou1
  • Stavros Papanikolaou1

1Department of Oral Pathology & Medicine, School of Dentistry, National and Kapodistrian University of Athens

DOI: 10.17796/jcpd.30.2.l26q10j0258hj186 Vol.30,Issue 2,March 2006 pp.153-156

Published: 01 March 2006

*Corresponding Author(s): Alexandra Skiavounou E-mail: askiavou@dent.uoa.gr

Abstract

Objective: The purpose of this retrospective study was to investigate the spectrum of oral intra-osseous lesions in a Greek population, consisting of children and adolescents under 18 years of age.

Material and Methods: Data was obtained from the histopathological reports that accompanied biopsy request forms, which were retrieved from the files of the Oral Pathology Department, Faculty of Dentistry, University of Athens, during a 26-year period. A retrospective analysis with respect to patients’ age and gender, frequency and location of the lesions was performed. The lesions were clas-sified into cystic (odontogenic and non-odontogenic) and solid lesions (odontogenic and non-odon-togenic). The patients were divided into three age groups: a) 0-6 years old, b) 7-12 years old and c) 13-18 years old. Results: 474 intra-osseous lesions were detected and represented 2,38 % out of a total of 19933 biopsies. Male/female ratio was 1,25/1. The majority of the lesions was located in the mandible (49,8%) and occurred in the third age group of patients (58,7%). Odontogenic cysts represented the most frequent intraosseous lesion (64,1%) followed by non-odontogenic solid lesions representing 22,5% of the intra-osseous population. The most frequently encountered lesions in descending order were radicular (36,3%) and dentigerous (18%) cysts, keratocysts (9,5%), apical granulomas (7,6%), odontomas (6%) and fibrous dysplasia (5%). Only 6 malignant lesions were reported (1,3%).

Conclusions: This clinicopathologic study revealed that a broad spectrum of mostly benign bony lesions may occur during childhood.


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Alexandra Skiavounou,Mana lakovou,John Kontos-Toutouzas,Antonia Kanellopoulou,Stavros Papanikolaou. Intra-osseous lesions in Greek children and adolescents. A study based on biopsy material over a 26-year period. Journal of Clinical Pediatric Dentistry. 2006. 30(2);153-156.

References

1. Khanna S, Khanna NN, Varanasi MS. Primary tumors of the jaws in children. J Oral Surg 37: 800–804, 1979.

2. Flaitz CM, Coleman GC. Differential diagnosis of oral enlarge-ments in children. Pediatr Dent 17: 294–300, 1995.

3. Arotiba GT. Astudy of orofacial tumors in Nigerian children. J Oral Maxillofac Surg 54: 34–38, 1996.

4. Sato M, Tanaka N, Sato T, Amagasa T. Oral and maxillofacial tumors in children: a review. Br J Oral Maxillofac Surg 63: 92–95, 1997.

5. Chen YK, Lin LM, Huang HC, Lin CC, Yan YH. A retrospective study of oral and maxillofacial biopsy lesions in a pediatric pop-ulation from southern Taiwan. Pediatr Dent 20: 404–410, 1998.

6. Tanaka N, Murata A, Yamaguchi A, Kohama G. Clinical features and management of oral and maxillofacial tumors in children. Oral Surg Oral Med Oral Pathol Oral Radiol Endod 88: 11–15, 1999.

7. Ulmansky M, Lustmann J, Balkin N. Tumors and tumor-like lesions of the oral cavity and related structures in Israeli chil-dren. Int J Oral Maxillofac Surg 28: 291–294, 1999.

8. Maaita JK. Oral tumors in children: a review. J Clin Pediatr Dent 24: 133–135, 2000.

9. Sousa FB, Etges A, Correa L, Mesquita RA, de Araujo NS. Pediatric oral lesions: a 15-year review from Sao Paolo, Brazil. J Clin Pediatr Dent 26: 413–418, 2002.

10. Skinner RL, Davenport WD, Weir JC, Carr RF. A survey of biop-sied oral lesions in pediatric dental patients. Pediatr Dent 8: 163–167, 1986.

11. Keszler A, Gugliemotti MB, Dominguez FV. Oral pathology in children, frequency, distribution and clinical significance. Acta Odontol Latinoam 5: 39–48, 1990.

12. Das S, Das AK. A review of pediatric oral biopsies from a surgi-cal pathology service in a dental school. Pediatr Dent 15: 208–211, 1993.

13. Al-Khadeeb T, Al-Hadi AH, Almasri NM. Oral and maxillofacial tumors in north Jordanian children and adolescents: a retrospec-tive analysis over 10 years. Int J Oral Maxillofac Surg 32: 78–83, 2003.

14. Chuong R, Kaban LB. Diagnosis and treatment of jaw tumors in children. J Oral Maxillofac Surg 13: 323–332, 1985.

15. Skiavounou-Andrikopoulou A, Piperi E, Papanikolaou V, Karakoulakis I. Oral soft tissue lesions in Greek children and adolescents: a retrospective analysis over a 32-year period. J Clin Pediatr Dent. 29,175–178 2005.

16. Taiwo EO, Salako NO, Sote EO. Distribution of oral tumors in Nigerian children based on biopsy materials examined over an 11- year period. Community Dent Oral Epidemiol 18: 200–203, 1990.

17. Kalyanyama BM, Matee MI, Vuhahula E. Oral tumors in Tanzanian children based on biopsy materials examined over a 15- year period from 1982 to 1997. Int Dent J 52: 10–14, 2002.

18. Bodner L,Woldenberg Y, Bar-Ziv. Radiographic features of large cystic lesions of the jaws in children. Pediatr Radiol 33: 3–6, 2003.

19. Trobs RB, Mader E, Friedrich T, Bennek J. Oral tumors and tumor-like lesions in infants and children. Pediatr Surg Int 19: 639–645, 2003.

20. Bhaskar SN. Oral tumors of infancy and childhood, a survey of 293 cases. J Pediatr 63: 195–210, 1963.

21. Rotenberg BW, Daniel SJ, Nish IA, Ngan BY, Forte V. Myxomatous lesions of the maxilla in children: a case series and review of management. Int J Pediatr Otorhinolaryngol 68: 1251–1256, 2004.

22. Kaban LB. Jaw tumors in children. In: Kaban LB, ed. Pediatric oral and maxillofacial surgery. Philadelphia: PA Saunders; 1990: 384.

23. Godwin TA. A study of orofacial tumors in Nigerian children. J Oral Maxillofac Surg 54: 34–38, 1996.

24. Waldron CA. Fibro-osseous lesions of the jaws. J Oral Maxillofac Surg 51: 825–828, 1993.

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