Antimicrobial agents are vital in combating pathogenic microorganisms through diverse and intricate mechanisms. These compounds may operate by disrupting cell wall synthesis, interfering with cell ...

Antimicrobial nanoparticles are materials with exceptional antimicrobial properties, capable of controlling bacterial, viral, and fungal infections. Thanks to their unique physicochemical attributes, ...

Many life-threatening bacteria are becoming increasingly resistant to existing antibiotics. Researchers have now discovered a new class of antibiotics with a unique spectrum of activity and mechanism ...

Antimicrobial agents form the essential shield behind which modern medicine operates. However, this shield is progressively weakening as antimicrobial resistance (AMR) escalates, posing a serious ...

Scientists say they have identified a critical mechanism that allows deadly bacteria to gain resistance to antibiotics. The findings, “The pentapeptide-repeat protein, MfpA, interacts with ...

The intravenous formulation of fosfomycin has a novel mechanism of action an no known cross-resistance to other antibiotic ...

Reviews of Infectious Diseases, Vol. 12, Supplement 1. Pathophysiology of Gastrointestinal Infections: The Role of Bismuth Subsalicylate (Jan. - Feb., 1990), pp. S11-S15 (5 pages) This report ...

The modeling study predicts the rate of drug-resistant BSIs will rise sharply in Europe over the next 5 years, driven ...