Enamel of primary teeth - morphological and chemical aspects
Abstract
Enamel is one of the most important structures of the tooth, both from a functional and esthetic point of view. Primary enamel carries registered information regarding metabolic and physiological events that occurred during the period around birth and the first year of life. Detailed knowledge of normal development and the structure of enamel is important for the assessment of mineralization defects. The aim of the thesis is to add more detailed information regarding the structure of primary enamel. The structural appearance of the neonatal line and the quantitative developmental enamel defect, enamel hypoplasia, was thoroughly investigated with a polarized light microscope, microradiography and scanning electron microscope. X-ray microanalysis of some elements was also performed across the enamel and the neonatal line. Postnatal mineralization of enamel at different ages and from different individuals was studied regarding the chemical content, by using secondary ion mass spectrometry. The enamel’s response to demineralization was investigated in relation to the individual chemical content and the degree of mineralization of the enamel, by using polarized light microscope, microradiography, scanning electron microscope and X-ray microanalysis. The neonatal line is a hypomineralized structure seen as a step-like rupture in the enamel matrix. The neonatal line is due to disturbances in the enamel secretion stage. The enamel prisms in the postnatal enamel appeared to be smaller than the prenatal prisms. The hypoplasias showed a rough surface at the base and no aprismatic surface layer was seen in the defect. The enamel of the rounded border of hypoplasia appeared to be hypomineralized, with the bent prisms not being densely packed. Mineralization of enamel is a gradual process, still continuous at 6 months postnatally in the primary mandibular incisors. The thickness of the buccal enamel is reached at 3-4 months of age. Demineralization of enamel depends on the degree of mineralization and the chemical content of the enamel exposed. In a more porous enamel, deeper lesions will develop. The posteruptive maturation has a beneficial effect on the enamel’s resistance to demineralization.
Parts of work
Study I: Sabel N., Johansson C., Kuhnisch J., Robertson A., Steiniger F., Norén J.G., Klingberg G., Nietzsche S. Neonatal lines in the enamel of primary teeth - a morphological and scanning electron microscopic investigation.
Archieves of Oral Biology 2008; 53: 954-63. ::doi::10.1016/j.archoralbio.2008.05.003 Study II: Sabel N., Klingberg G., Nietzsche S., Robertson A., Odelius H., Norén J.G. Analysis of some elements in primary enamel during postnatal mineralization.
Swedish Dental Journal 2009; 33: 85-95. ::PMID::19728580 Study III: Sabel N., Klingberg G., Dietz W., Nietzsche S., Norén J.G. Polarized light and scanning electron microscopic investigation of enamel hypoplasia in primary teeth.
International Journal of Paediatric Dentistry 2010; 20: 31-6. ::doi::10.1111/j.1365-263X.2009.01006.x Study IV: Sabel N., Robertson A., Nietzsche S., Norén J.G. Demineralization of enamel in primary second molars related to properties of the enamel.
Accepted for publication in The Scientic World Journal, 2011.
Degree
Doctor of Philosophy (Odontology)
University
University of Gothenburg. Sahlgrenska Academy
Institution
Institute of Odontology. Department of Pedodontics
Disputation
Fredagen den 2 mars 2012, kl. 9.00, Hörsal Arvid Carlsson, Academicum, Medicinaregatan 3
Date of defence
2012-03-02
nina.sabel@vgregion.se
Date
2012-02-10Author
Sabel, Nina
Keywords
Demineralization
Enamel
Enamel hypoplasia
Microradiography
Mineralization
Neonatal line
Polarized light microscopy
Scanning electron microscopy
Secondary ions mass spectrometry
X-ray microanalysis
Publication type
Doctoral thesis
ISBN
978-91-628-8361-4
ISSN
0348-6672
Language
eng