1 research outputs found
Bioinspired Peptide-Decorated Tannic Acid for in Situ Remineralization of Tooth Enamel: In Vitro and in Vivo Evaluation
Tooth enamel can be eroded by the
local cariogenic bacteria in
plaque or nonbacterial factors in the oral environment. The damage
is irreversible in most situations. For the etched human tooth enamel
to be restored in situ, a salivary-acquired pellicle (SAP) bioinspired
tannic acid (SAP-TA) is synthesized. Statherin is one of the SAP proteins
that can selectively adsorb onto enamel surface. Peptide sequence
DDDEEKC is a bioinspired sequence of statherin and has the adsorption
capacity of hydroxyapatite (HAP). TA has abundant polyphenol groups
that can grasp Ca<sup>2+</sup> in saliva to induce the regeneration
of HAP crystal. Hence, SAP-TA not only enhances the binding force
at the interface of remineralization but also mimics the biomineralization
process of tooth enamel. Moreover, ferric ion can coordinate with
SAP-TA to form a compact coating that increases the adsorbed amounts
of SAP-TA on tooth enamel. Compared with SAP-TA alone, the etched
enamels treated with SAP-TA/FeÂ(III) have a better remineralization
effect and mechanical properties (surface microhardness recovery >80%
and binding force of 64.85 N) when being incubated in artificial saliva
for 2 weeks. In vivo remineralization performance is evaluated in
a classical rat caries model. The polarizing microscope and micro-CT
results show that SAP-TA/FeÂ(III) has a good effect on the remineralization
process in a real oral environment, indicating that it is a promising
repair material for in situ remineralization of enamel