Abstract: Compositions and methods for using cyclopropanated structural analogs of fatty acid biofilm dispersal agents are characterized by superior biofilm dispersion. When used in combination with antimicrobials, these analogs decrease the minimum inhibitory concentration of antimicrobial agents required for eradication of the biofilm and/or treatment of infection. Methods for using these analogs include direct application to a surface, blending with lipid based carriers, or covalent anchoring the molecule to a surface. Typically, the cyclopropanated structural analog has the structure according to formula (I): wherein R1 is a C1-C24 linear or branched alkyl group; or an acid halide or acid anhydride thereof.

Abstract: Compositions and methods for using cyclopropanated structural analogs of fatty acid biofilm dispersal agents are characterized by superior biofilm dispersion. When used in combination with antimicrobials, these analogs decrease the minimum inhibitory concentration of antimicrobial agents required for eradication of the biofilm and/or treatment of infection. Methods for using these analogs include direct application to a surface, blending with lipid based carriers, or covalent anchoring the molecule to a surface. Typically, the cyclopropanated structural analog has the structure according to formula (I): wherein R1 is a C1-C24 linear or branched alkyl group; or an acid halide or acid anhydride thereof.

Abstract: Compositions and methods for using cyclopropanated structural analogs of fatty acid biofilm dispersal agents are characterized by superior biofilm dispersion. When used in combination with antimicrobials, these analogs decrease the minimum inhibitory concentration of antimicrobial agents required for eradication of the biofilm and/or treatment of infection. Methods for using these analogs include direct application to a surface, blending with lipid based carriers, or covalent anchoring the molecule to a surface.

Abstract: The invention provides compositions featuring chitosan and polyethylene glycol and methods for using such compositions for the local delivery of biologically active agents to an open fracture, complex wound or other site of infection. Advantageously, the chitosan-PEG compositions can be loaded with one or more antimicrobial agents, including hydrophobic agents, and can be tailored to the needs of particular patients at the point of care (e.g., in a surgical suite, clinic, physician's office, or other clinical setting).

Abstract: A novel composite for internal application within wounds, incisions, and the like, for the prevention of biofilm growth therein is provided. Such a composite includes an antibiotic introduced within a sponge-like chitosan delivery product with electrically conductive nanomaterials present. Such a delivery product is also lyophilized subsequent to nanomaterial introduction but prior to antibiotic inclusion. The inventive lyophilized composite permits delivery of needed antibiotics internally within a patient with the simultaneous exposure to a sufficiently strong electrical current to permit a synergistic effect of increased antibiotic efficacy. In such a manner, relatively low amounts of antibiotic may be utilized to reduce the propensity of biofilm formation and/or growth within a wound or incision, or on the surface of an implant. Additionally, the lyophilized chitosan/nanomaterial composite allows for a maximum amount of antibiotic to be introduced with maximum elution therefrom as well.