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Nanomedicines as a cutting-edge solution to combat antimicrobial resistance

Raghu Solanki, Nilesh Makwana, Rahul Kumar, Madhvi Joshi, Ashish Patel, Dhiraj Bhatia, Dipak Kumar Sahoo

2024RSC Advances62 citationsDOIOpen Access PDF

Abstract

, β-lactamase), and membrane alterations that reduce the antibiotic's binding affinity and entry. Microbes also resist antimicrobials through peptidoglycan precursor modification, ribosomal subunit methylation, and alterations in metabolic enzymes. Rapid development of new strategies is essential to curb the spread of AMR and microbial infections. Nanomedicines, with their small size and unique physicochemical properties, offer a promising solution by overcoming drug resistance mechanisms such as reduced drug uptake, increased efflux, biofilm formation, and intracellular bacterial persistence. They enhance the therapeutic efficacy of antimicrobial agents, reduce toxicity, and tackle microbial resistance effectively. Various nanomaterials, including polymeric-based, lipid-based, metal nanoparticles, carbohydrate-derived, nucleic acid-based, and hydrogels, provide efficient solutions for AMR. This review addresses the epidemiology of microbial resistance, outlines key resistance mechanisms, and explores how nanomedicines overcome these barriers. In conclusion, nanomaterials represent a versatile and powerful approach to combating the current antimicrobial crisis.

Topics & Concepts

AntimicrobialEnhanced Data Rates for GSM EvolutionMechanism (biology)NanomaterialsAntibiotic resistanceNanotechnologyResistance (ecology)Materials scienceComputer scienceMicrobiologyBiologyPhysicsArtificial intelligenceAntibioticsEcologyQuantum mechanicsNanoparticles: synthesis and applicationsGraphene and Nanomaterials ApplicationsAdvanced Nanomaterials in Catalysis
Nanomedicines as a cutting-edge solution to combat antimicrobial resistance | Litcius