期刊
JOURNAL OF MATERIALS SCIENCE-MATERIALS IN MEDICINE
卷 32, 期 9, 页码 -出版社
SPRINGER
DOI: 10.1007/s10856-021-06583-x
关键词
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资金
- Department of Science and Technology of Jilin Province, China [20190304032YY]
- Interdisciplinary Research Funding Program for Doctoral Students of Jilin University, China [101832020DJX087]
Caries and dental erosion are common oral diseases. Biomimetic mineralisation is an ideal approach for restoring enamel, forming a new mineral layer that is tightly attached to the surface. This review highlights the application of various techniques in biomimetic mineralisation for enamel restoration.
Caries and dental erosion are common oral diseases. Traditional treatments involve the mechanical removal of decay and filling but these methods are not suitable for cases involving large-scale enamel erosion, such as hypoplasia. To develop a noninvasive treatment, promoting remineralisation in the early stage of caries is of considerable clinical significance. Therefore, biomimetic mineralisation is an ideal approach for restoring enamel. Biomimetic mineralisation forms a new mineral layer that is tightly attached to the surface of the enamel. This review details the state-of-art achievements on the application of amelogenin and non-amelogenin, amorphous calcium phosphate, ions flow and other techniques in the biomimetic mineralisation of enamel. The ultimate goal of this review was to shed light on the requirements for enamel biomineralisation. Hence, herein, we summarise two strategies of biological minimisation systems for in situ enamel restoration inspired by amelogenesis that have been developed in recent years and compare their advantages and disadvantages. [GRAPHICS]
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