2020
DOI: 10.1038/s41368-020-00097-y
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Two-in-one strategy: a remineralizing and anti-adhesive coating against demineralized enamel

Abstract: Tooth enamel is prone to be attacked by injurious factors, leading to a de/remineralization imbalance. To repair demineralized enamel and prevent pulp inflammation caused by biofilm accumulation, measures are needed to promote remineralization and inhibit bacterial adhesion on the tooth surface. An innovative material, poly (aspartic acid)-polyethylene glycol (PASP-PEG), was designed and synthesized to construct a mineralizing and anti-adhesive surface that could be applied to repair demineralized enamel. A cy… Show more

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Cited by 30 publications
(27 citation statements)
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“…HA is a slowly resorbing, non-toxic, bioactive, and biocompatible material [10]. The presence of HA in a material promotes the biomimetic mineralization of dental tissues [11]. Among nanomaterials, the nano-HA particles have a similar crystal structure as that of the apatite present in the hard tissues of humans [12] and have been successfully used for various medical applications related to bone tissue engineering [13].…”
Section: Introductionmentioning
confidence: 99%
“…HA is a slowly resorbing, non-toxic, bioactive, and biocompatible material [10]. The presence of HA in a material promotes the biomimetic mineralization of dental tissues [11]. Among nanomaterials, the nano-HA particles have a similar crystal structure as that of the apatite present in the hard tissues of humans [12] and have been successfully used for various medical applications related to bone tissue engineering [13].…”
Section: Introductionmentioning
confidence: 99%
“…In view of the abundant existence of Ca 2+ ions on the tooth surfaces, modifying polymers with groups that can interact with these ions has been an alternative. For example, Hou et al synthesized a highly hydrophilic diblock copolymer polyethylene glycol-poly (aspartic acid) (PEG-PAsp), where carboxyl groups in the PAsp segments provide binding sites with Ca 2+ on the enamel surfaces, so that PEG segments on the other side can inhibit S. mutans and Stoeptococcus sanguis (S. sanguis) adhesion on the enamel (Hou et al, 2020). Compared with carboxyl groups, PO 3− 4 groups are equipped with stronger ability to bind with Ca 2+ .…”
Section: Polymeric Agentsmentioning
confidence: 99%
“…The polymers can be adsorbed to negatively charged metallic oxide spontaneously, such as titanium or niobium oxide surfaces, to form a stable, densely packed PEG monomolecular adlayer to reduce the adhesion of bacteria ( Harris et al, 2004 ). Poly (aspartic acid)-polyethylene glycol (PASP-PEG) was synthesized by a similar method with high affinity for hydroxyapatite (HA)/tooth surfaces and low toxicity, and promoted mineralization of PASP, like mineralization protein ( Hou et al, 2020 ). And the reason for antiadhesion is as follows ( Figure 3 ): Firstly, a water layer is formed due to hydrophilicity ( LĂŒsse and Arnold, 1996 ; Aray et al, 2004 ); in addition, “steric repulsion” can be obtained from the long chain of PASP-PEG, which is an entropic effect concerning the change in free energy associated with confinement and the dehydration of soft polymer chains ( Hui et al, 2017 ).…”
Section: Super-hydrophilic Materialsmentioning
confidence: 99%