Combating Bacterial Resistance by Polymers and Antibiotic Composites

(1) Background: Since the discovery of antibiotics in the first half of the 20th century, humans have abused this privilege, giving rise to antibiotic-resistant pathogens. Recent research has brought to light the use of antimicrobial peptides in polymers, hydrogels, and nanoparticles (NPs) as a newer and safer alternative to traditional antibiotics. (2) Methods: This review article is a synthesis of the scientific works published in the last 15 years, focusing on the synthesis of polymers with proven antimicrobial properties. (3) Results: After a critical review of the literature was made, information and data about the synthesis and antimicrobial activity of antibacterial polymers and NPs functionalized with antibiotics were extracted. Fluorinated surfactants such as the Quaterfluo (R) series presented significant antimicrobial effects and could be modulated to contain thioesters to boost this characteristic. Biopolymers like chitosan and starch were also doped with iodine and used as iodophors to deliver iodine atoms directly to pathogens, as well as being antimicrobial on their own. Quaternary phosphonium salts are known for their increased antimicrobial activity compared to ammonium-containing polymers and are more thermally stable. (4) Conclusions: In summary, polymers and polymeric NPs seem like future alternatives to traditional antibiotics. Future research is needed to determine functional doses for clinical use and their toxicity.