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Article Type
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Impact of nasal airway obstruction on dentofacial development and sleep disturbances in children: preliminary notes
1Department of Odontostomatology, Saint John the Baptiste Hospital, University of Torino, Italy
DOI: 10.17796/jcpd.27.2.27934221l1846711 Vol.27,Issue 2,April 2003 pp.95-100
Published: 01 April 2003
*Corresponding Author(s): Patrizia Defabjanis E-mail: patrizia.defabjams@virgilio.it
Respiratory disorders in the upper respiratory tract during sleep are most often part of a continuous pathological process of long standing. Schematically, three clinical syndromes with increasing severity are described: breathing with the mouth open, snoring and sleep apneal hypopnea syndrome. Obstruc-tive sleep apnea syndrome (OSAS) is a subtle, but severe sleep disorder of early childhood. It is often dif-ficult to detect and may have long-term consequences, including failure to thrive, behavioral disturbances, developmental delay, and cor pulmonale.1 These conditions always include a functional maxillofacial perturbation, which may be associated with a constitutional or acquired morphological disorder.
Pediatric dentists must be aware of the problems connected with mouth breathing and OSAS (obstructive sleep apnea syndrome) in children as any delay in diagnosis and treatment may cause pro-longed morbidity. They also have a role in the diagnosis and co-management of these patients because the signs and symptoms may be recognizable in the dental practice.
Besides the medical approach itself, the treatment sometimes is surgical, always orthopedic: the earlier it is initiated, the more effective, simple and unrestraining it is. The aim of this work is to focus attention on the early diagnosis and prevention of these pathologies. Diagnostic guidelines will be illustrated.
Patrizia Defabjanis. Impact of nasal airway obstruction on dentofacial development and sleep disturbances in children: preliminary notes. Journal of Clinical Pediatric Dentistry. 2003. 27(2);95-100.
1. Spahis J. Sleepless nights: obstructive sleep apnea in the pediatric patient. Pediatr Nurs 20: 469-72, 1994.
2. Tomes CS. On the developmental origin of the v-shaped con-tracted maxilla. Monthly Rev Dent Surg 1: 2-5, 1872.
3. Todd TW, Cohen MD, Broadbent B. The role of allergy in the eti-ology of orthodontic deformity. J Allergy 10: 246-249, 1939.
4. Balyeat RM, Bowen R. Facial and dental deformities due to perennial nasal allergy in childhood. Int J Orthodont 20: 445-449, 1934.
5. Angle EH. Treatment of malocclusion of the teeth. 4th ed, Philadelphia, SS White Dental Manufacturing Co, 1907.
6. Moss ML. The functional matrix: funtional cranial components. in Vistas in Orthodontics. Kraus BS and Reidel R., eds, Philadel-phia, Lea and Febiger, pp 85-98, 1962.
7. Gregg l, Zedalis D, Howard CW, Boyle RP, Prussin NJ. Surgical alternatives for treatment of obstructive sleep apnoea: review and case series.” Ann R Australas Coll Dent Surg 15: 181-4, 2000.
8. Raskin S, Limme M, Poirrier R. Could mouth breathing lead to obstructive sleep apnea syndromes. A preliminary study. Orthod Fr 71: 27-35, 2000.
9. Ogura JIH. Physiologic relationships of the upper and lower air-ways. Ann Otol Rhinol and Oral Surg 30: 345-368, 1944.
10. Goffart Y. Physiopathology of mouth breathing. Snoring and apnea. Acta Otorhinolaryngol Belg 47: 157-66, 1993.
11. Adam GI, Boies Jr LR, Paparella MM. Boies’ fundamentals of Otolaryngology, Philadelphia, WB Saunders Co, 1978.
12. Moller E. The activity of the muscles of mastication as related to the morphology of the facial skeleton. Acta Phidsiol Scand 69: 280- 284, 1966.
13. Sassouni V, Forrest EJ. Orthodontics in dental practice. (St. Louis, C.V. Mosby Co), 1971.
14. Epker BN, O’Ryan F. Determinants of class II dentofacial mor-phology: I. A biomechanical theory. In The effect of surgical intervention on craniofacial growth. JA McNamara Jr, ed Cran-iofacial Growth Series, Center for Human Growth and Develop-ment, The University of Michigan, Ann Arbor, 1982.
15. Saarinen UM, Kajossari M. Breastfeeding as prophylaxix against atopic disease: Prospecrtive follow-up study until 17 years old. Lancet 346: 1065-1069, 1995.
16. Guilleminault C, Pelayo R. Sleep-disordered breathing in chil-dren. Ann Med 30: 350-6, 1998.
17. Richards W, Ferdman RM. Prolonged morbidity due to delays in the diagnosis and treatment of obstructive sleep apnea in chil-dren. Clin Pediatr 39: 103-8, 2000.
18. Kawashima S, Niikuni N, Lo CH, Kohno M, Nakajima I, Akasaka M. Clinical findings in Japanese children with obstructive sleep apnea syndrome: focus on dental findings. J Oral Sci 41: 99-103, 1999.
19. Page DC. Breast-feeding is early functional jaw orthopedics (an introduction). The Funct Orthod 18: 24-25, 2000.
20. Van Der Linden. Facial growth and facial orthopedics. Quintes-sence Books, 1986.
21. Enlow D. Handbook of facial growth. Saunders, 1982.
22. Page DC. Breastfeeding develops better jaws, airways and over-all health. American Public Health Association Annual Session, Poster Presentation abstract, 11002, Nov. 2000.
23. Sinclair D. Human growth after birth, London, Oxford Univer-sity Press, 1973.
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