4.8 Article

Safe and Durable Treatment of Dentin Hypersensitivity via Nourishing and Remineralizing Dentin Based on β-Chitooligosaccharide Graft Derivative

Journal

SMALL
Volume -, Issue -, Pages -

Publisher

WILEY-V C H VERLAG GMBH
DOI: 10.1002/smll.202300359

Keywords

beta-chitooligosaccharide; biomineralization; dentin hypersensitivity; dentin tubules; lamina limitans; nourishing

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This study presents a novel therapy for dentin hypersensitivity (DH) based on beta-chitooligosaccharide graft derivative (CAD) that demonstrates remarkable biosafety and durable therapeutic value. CAD restores the protective membrane in dentine tubules, promotes mineral deposition and bone anabolism, and regulates immunoglobulin levels and inflammatory factors. In vitro tests show that CAD occludes exposed dentine tubules with a depth of over 70 μm. In a study on Sprague-Dawley rats, the CAD group exhibits a 10.96% increase in molar dentin bone mineral density and an improvement in trabecular thickness of about 0.03 μm within 2 weeks. Overall, this research demonstrates the potential of modified marine biomaterials as safe and long-lasting therapy for DH.
Dentin hypersensitivity (DH) is a common symptom of various dental diseases that usually produces abnormal pain with external stimuli. Various desensitizers are developed to treat DH by occluding dentine tubules (DTs) or blocking intersynaptic connections of dental sensory nerve cells. However, the main limitations of currently available techniques are the chronic toxic effects of chemically active ingredients and their insufficiently durable efficacy. Herein, a novel DH therapy with remarkable biosafety and durable therapeutic value based on beta-chitooligosaccharide graft derivative (CAD) is presented. Particularly, CAD indicates the most energetic results, restoring the amino polysaccharide protective membrane in DTs, significantly promoting calcium and phosphorus ion deposition and bone anabolism, and regulating the levels of immunoglobulin in saliva and cellular inflammatory factors in plasma. Exposed DTs are occluded by remineralized hydroxyapatite with a depth of over 70 mu m, as shown in in vitro tests. The bone mineral density of Sprague-Dawley rats' molar dentin increases by 10.96%, and the trabecular thickness of bone improves to about 0.03 mu m in 2 weeks in the CAD group compared to the blank group. Overall, the ingenious concept that modified marine biomaterial can be a safe and durable therapy for DH is demonstrated by nourishing and remineralizing dentin.

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