Mitigating Antibacterial Resistance Through Nanotechnology-Based Approaches

Abstract

A global hazard to public health has emerged from antibacterial resistance, leading to the need for innovative approaches to combat this issue. Nanotechnology has emerged as a promising field with various nanomaterials and nanodevices being developed to mitigate antibacterial resistance. Strategies based on nanotechnology have also concentrated on creating nanoscale biosensors for the quick identification of antibiotic resistance. A platform for creating new antibacterial agents, increasing targeted medication delivery, and developing better detection techniques is provided by nanoparticles, nanobiosensors, and nanomaterials. Future research and development projects utilizing nanotechnology-based methods may result in ground-breaking ways to tackle antibiotic resistance, eventually enhancing public health. High sensitivity and specificity provided by nanoscale sensors and devices enable early detection of bacteria that are multidrug resistant and facilitate specialized treatment approaches.