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Abstract
Aim This study aimed to ascertain the efficacy of a novel injectable hydrogel containing quercetin and silver nanoparticles incorporated with gelatin to enhance bone formation. Materials and Methods The lyophilized material preparation involved creating a gel-based medium containing xenogenic bone graft Bio-Oss, silver nanoparticles, and quercetin, followed by freeze-drying and injection into rat femurs for antibacterial efficacy and structural property assessment via an MTT Assay. In vitro analysis included testing cell viability and antimicrobial properties. Swelling tests measured scaffold swelling ratios in a culture medium, providing insights into their performance. Animal studies were conducted involving surgical procedures to create bone defects and assess the efficacy of bone grafts on rat tibiae. Nano-computed tomographic imaging was used to evaluate changes in bone volume post-operation, providing detailed insights into alterations in trabecular content. An independent t-test was performed for statistical analysis. Results No significant difference was found between groups with respect to cell viability and antimicrobial activity. There was maximum bone volume and trabecular width seen in the experimental group (426.54 ±34.78 mm3, 0.509 ± 0.023 mm), followed by the control group, and the difference was statistically significant (p<0.05). Conclusion The study shows that the application of this injectable hydrogel helped in enhancing bone formation.
Highlights
Atrophic alveolar ridges are a common issue, posing significant challenges for both patients and practitioners
The study shows that the application of this injectable hydrogel helped in enhancing bone formation
Our study revealed a distinct pattern of bone formation, characterized by increased bone volume, surface area, and trabecular thickness in the treatment group, contrasting sharply with the control group
Summary
Atrophic alveolar ridges are a common issue, posing significant challenges for both patients and practitioners These ridges are characterized by a reduction in the volume of the maxilla and mandible, which can be caused by periodontal disease, endodontic complications, or trauma, eventually leading to tooth loss due to vertical or horizontal bone loss. This bone resorption can result in a variety of issues, including decreased oral function, aesthetic concerns, and difficulties in dental implant placement and restoration. Alloplastic grafts are made of synthetic materials like hydroxyapatite or bioactive glass
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