• Journal of the korean academy of Pediatric Dentistry
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• v.35 no.3
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• pp.562-570
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• 2008

Amelogenesis imperfecta is a group of hereditary defects of enamel, unassociated with any other generalized defects. It is classified into 14 subtypes according to different clinical and genetic features. According to its clinical features, it is classified into hypoplastic type, hypocalcified type and hypomaturation type. However, these features tend to co-exist often. Dental features associated with amelogenesis imperfecta include quantitative and qualitative enamel deficiencies, pulpal calcification, root malformations, abnormal eruption, impaction of permanent teeth, progressive resorption of root and crown, congenital missing teeth and anterior and posterior open bite occlusions. The first case patient is a 16 month-old child with discoloration of deciduous teeth. All of her deciduous and permanent dentition has shown amelogenesis imperfecta. The restorational, orthodontic and recent prosthodontic treatments have been completed. Another patient is a 9 year and 3 month-old child with amelogenesis imperfecta in both deciduous and permanent dentition. The restoration has been done and the prosthodontic treatment is planned after the completion of growth. Above cases indicate that amelogenesis imperfecta occurs both in deciduous and permanent dentition, and it requires the long term treatment and care.

• Journal of the korean academy of Pediatric Dentistry
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• v.37 no.4
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• pp.467-471
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• 2010

Amelogenesis imperfecta, one of the dental genetic disease, is clinically and genetically complex disease. Amelogenesis imperfecta can be classified into three major categories according to clinical phenotype; hypoplastic, hypomaturation, and hypocalcification. Recently a novel gene, Fam83h, was identified to cause autosomal dominant hypocalcification amelogenesis imperfecta, however its functional role in the pathogenesis of enamel defect is not known yet. So this study was aimed to identify the knockdown effect of Fam83h gene on the amelogenin mRNA expression via shRNA transfection into immortalized ameloblast cell line. The result showed that the knockdown of Fam83h did not influence the amelogenin expression. Further study of the functional role of Fam83h gene should be performed to understand the complex nature of amelogenesis as well as molecular pathogenesis of amelogenesis imperfecta.