Silver nanoparticles were made using cell supernatants from Lactobacillus species. Measurements were made of the optical density of AgNPs produced by completely distinct cell supernatants. Because Lactobacillus demonstrated the best AgNP production, it was selected. Before medium optimization, liquid Ag+ ions were converted to AgNPs once again and added to the eubacterial cell-free supernatant during ten hours of incubation. The nitrate enzyme protein and other reductases may have contributed to the creation of silver nanoparticles. During incubation, a color shift from light yellow to brown was seen, whereas the management had no color change. At about 430 nm, spectrophotometric examination of Ag NPs yields a distinctive Surface Plasmon Resonance band, confirming the existence of spherical or approximately spherical atomic number 47 nanoparticles. The formation of silver nanoparticles was found to be simpler in the cell free supernatant that had been exposed to electromagnetic radiation after mixing with AgNO3 solution than it had been in the cell supernatant that had been exposed to electromagnetic radiation prior to mixing with AgNO3 solution. During this study, the antimicrobial activity of the synthesized AgNPs against different species of extremely infective multidrug resistant lactobacillus was investigated, and AgNPs was compared to antibacterial medicine as Tetracycline. The synthesized AgNPs were tried to own antimicrobial activity against all the tested microorganisms. The diameters of microorganism inhibition zones (mm) measured for lactobacillus was 27.67 ± 0. 577.Aim to studyThe aim of this study to mistreatment of using of lactobacillus microorganism synthesis isolates from teeth passageway from silver technology as medicinal drug infection. The antimicrobial activity was assessed by mensuration the diameter of inhibition zones by crucial the minimum repressing concentration (MIC) and by determining the minimum fatal concentration (MLC).