Fish bone and chitosan based nanogels in green dentistry: sustainable and eco-friendly biomimetic remineralizing agents for early enamel caries
Dalia Sherif; Iman Fathy; Eman Alaa; Nada Atef; El-Messiry, Hend;
Abstract
Background Biomimetic enamel reconstruction represents an innovative strategy in restorative dentistry and
materials science, providing a biologically and eco-friendly inspired approach for managing early enamel caries. This
study aimed to evaluate the remineralizing potential of organically derived biomimetic nanogels—chitosan nanogel
(n-C) and fish bone nanogel (n-FB)—on demineralized enamel, using scanning electron microscopy (SEM), and
energy dispersive X-ray (EDX) analysis for semi-quantitative calcium/phosphate assessment.
Methods Fifty-seven extracted primary molars were demineralized for 96 h. Three samples were used as the
demineralized control group, while the remaining 54 were randomly assigned to three groups: [1] Artificial Saliva
(AS) group—specimens incubated in artificial saliva at 37 °C for seven days; [2] Nano-Fish Bone (n-FB) group—n-FB
gel applied once daily for five minutes, rinsed, then incubated in refreshed artificial saliva; [3] Nano-Chitosan (n-C)
group—n-C gel applied similarly. Specimens were analysed using SEM and EDX for surface morphology and
elemental Ca/P ratio, and data were statistically analysed.
Results Both biomimetic nanogels significantly reversed the demineralization effects, showing enamel prism
reformation. For the calcium-to-phosphorus (Ca/P) ratio, the highest mean value was recorded in the AS group (2.77
± 0.06), followed by the NC group (2.58 ± 0.61), the n-C group (2.45 ± 0.18), and the lowest in the n-FB group (2.19
± 0.38). ANOVA analysis demonstrated a significant difference between groups (P = 0.020). The n-C group and n-FB
produced a more uniform and well-mineralized surface structure closest to normal enamel.
Conclusions Both nanogels provided enhanced remineralization, however, nano–fish bone exhibited more uniform
surface morphology and significantly higher phosphate levels than nano–chitosan, suggesting a comparatively
greater remineralization potential.
materials science, providing a biologically and eco-friendly inspired approach for managing early enamel caries. This
study aimed to evaluate the remineralizing potential of organically derived biomimetic nanogels—chitosan nanogel
(n-C) and fish bone nanogel (n-FB)—on demineralized enamel, using scanning electron microscopy (SEM), and
energy dispersive X-ray (EDX) analysis for semi-quantitative calcium/phosphate assessment.
Methods Fifty-seven extracted primary molars were demineralized for 96 h. Three samples were used as the
demineralized control group, while the remaining 54 were randomly assigned to three groups: [1] Artificial Saliva
(AS) group—specimens incubated in artificial saliva at 37 °C for seven days; [2] Nano-Fish Bone (n-FB) group—n-FB
gel applied once daily for five minutes, rinsed, then incubated in refreshed artificial saliva; [3] Nano-Chitosan (n-C)
group—n-C gel applied similarly. Specimens were analysed using SEM and EDX for surface morphology and
elemental Ca/P ratio, and data were statistically analysed.
Results Both biomimetic nanogels significantly reversed the demineralization effects, showing enamel prism
reformation. For the calcium-to-phosphorus (Ca/P) ratio, the highest mean value was recorded in the AS group (2.77
± 0.06), followed by the NC group (2.58 ± 0.61), the n-C group (2.45 ± 0.18), and the lowest in the n-FB group (2.19
± 0.38). ANOVA analysis demonstrated a significant difference between groups (P = 0.020). The n-C group and n-FB
produced a more uniform and well-mineralized surface structure closest to normal enamel.
Conclusions Both nanogels provided enhanced remineralization, however, nano–fish bone exhibited more uniform
surface morphology and significantly higher phosphate levels than nano–chitosan, suggesting a comparatively
greater remineralization potential.
Other data
| Title | Fish bone and chitosan based nanogels in green dentistry: sustainable and eco-friendly biomimetic remineralizing agents for early enamel caries | Authors | Dalia Sherif; Iman Fathy; Eman Alaa; Nada Atef; El-Messiry, Hend | Issue Date | 2026 | Journal | BMC Oral Health | Volume | 26 | Start page | 632 | DOI | 10.1186/s12903-026-08008-z |
Attached Files
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|---|---|---|---|---|
| s12903-026-08008-z.pdf | 3.01 MB | Adobe PDF | Request a copy |
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