Kiran Jani, Swapnil Mehta, Riya Patel, Bhupendra Prajapati and Gayatri Patel* Pages 1 - 19 ( 19 )
Addressing infectious conditions presents a formidable challenge, primarily due to the escalating issue of bacterial resistance. This, coupled with limited financial resources and stagnant antibiotic research, compounds the antibiotic crisis. Innovative strategies, including novel antibiotic development and alternative solutions, are crucial to combat microbial resistance. Nanotherapeutics offers a promising approach to enhance drug delivery systems. Integration into lipid-based nanoscale delivery systems, particularly through therapeutic substance encapsulation in liposomal carriers, significantly prolongs drug presence at infection sites. This not only reduces toxicity but also shields antibiotics from degradation. Lipidic carriers, particularly liposomes, exhibit remarkable specificity in targeting infectious cells. This holds great promise in combating antimicrobial resistance and potentially transforming treatment for multi-drug resistant infections. Leveraging liposomal carriers may lead to breakthroughs in addressing drugresistant bacterial infections. This review emphasizes the potential of antimicrobial-loaded liposomes as a novel delivery system for bacterial infections. Encapsulating antimicrobial agents within liposomes enhances treatment efficiency. Moreover, liposomal systems counteract challenges posed by antimicrobial resistance, offering hope in managing persistent multidrug-resistant infections. In the battle against bacterial resistance and the antibiotics crisis, the use of antimicrobial-loaded liposomes as delivery vehicles shows great promise. This innovative approach not only extends drug effectiveness and reduces toxicity but also provides a path to address highly resistant infectious conditions. As research advances, liposomal nanotherapeutics may emerge as a transformative solution in the fight against bacterial infections.
Infectious conditions, liposomes, nanotechnology, targeted drug delivery, antimicrobial resistance.