@Article{, title={A review on Fungal Nanoparticales as Antimicrobial Agents to Control Oral Biofilms مراجعة على الفطريات النانوية مثل عوامل مضادات الميكروبات للتحكم في الأغشية الحيوية عن طريق الفم}, author={Ali Mihsen Alyassiri علي محسن الياسري and Hajir Hassn Hussen هاجر حسن حسين and Abdulridha Taha Sarhan عبد الرضا طه سرحان}, journal={Hilla university college Journal For Medical Science مجلة كلية الحلة الجامعة للعلوم الطبية}, volume={1}, number={1}, pages={67-100}, year={2022}, abstract={A variety of materials and drugs have been used in dentalcare to protect the oral cavity from microbial activities,particularly the formation of dental biofilms. These compoundshave the potential to be harmful to the humanbody. Despite these challenges, nanotechnology applicationsin dentistry have been developed and used withsome success in the improvement of restorative materials.It also focuses on several problematic parts of dental care,like oral biofilm communities, and also how nanotechnologymay assist overcome these obstacles. Nanoparticles(NPs) are frequently used in the medical sector fora numerous application, and investigations have alreadyshown that NPs have antimicrobial effects. The extensiveutilization of silver nanoparticles (AgNPs) has raised theirconsumption. Nanotechnology has been used effectivelyin the development of restorative materials in dentistry.Traditional AgNPs production methods require the use oftoxic chemicals and dangerous solvents. There is a needfor novel approaches for synthesizing AgNPs that useenvironmentally friendly agents and fluids. It really is importantto look for suitable production settings in orderto validate a good AgNP synthesis. Green techniques arethe most commonly used in this industry since they areboth environmentally friendly and economically effective.Biological NPs generated from fungal secretions. BiologicalNPs synthesized from fungal secretions or extracts areused in safe synthesis because they outperform chemicalprocedures. The objective of this review paper is to understandthe role of fungal AgNPs as antimicrobial agents indentistry, mainly in the reduction of oral biofilm communities.

} }