A Comprehensive Review On Antibacterial Agents

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SHAILENDER SISODIYA , Mrs. JAYA SINGH , Dr. AMARJEET SINGH

Abstract

It wasn't until recently that numerous biomedical applications of nanotechnology emerged as a rapidly developing area in the disciplines of both science and medicine. Silver, a chemical that is antimicrobial and also a disinfectant, has also seen widespread use in recent years due to the fact that its toxicity is quite low. Silver nanoparticles have a wide range of beneficial effects against bacteria, fungi, and viruses. Silver nanoparticles can potentially induce cell death by altering the shape of bacterial cell membranes once they have broken through the cell walls of the bacteria. Tissue engineers may use 3D printing to generate functional tissue constructs that can be used to treat wounds, replace diseased tissue, or repair damaged tissue. With the help of this technology, the production of tissue constructions may be precisely regulated and carried out in an automated fashion, opening the door to the possibility of high-volume production. Despite the fact that biomaterial-based inks can be used to print tissue structures in three dimensions, it has been demonstrated that the printed constructs have the potential to cause unforeseen diseases and failure due to biomaterial-related infections. This is the case despite the fact that biomaterial-based inks show promise in the field of tissue engineering. Natural biomaterials, surface treatments for biomaterials, and the incorporation of inorganic agents are among the most widely used treatments and/or strategies that have been developed in order to address biomaterial-related infections. A variety of treatments and/or strategies have been developed in order to address biomaterial-related infections. Despite efforts to enhance ink formulas for 3D printing, implanted tissue constructs still carry a risk of infection. This is despite the fact that the danger has been reduced.

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