Cationic Microbubbles for Non-Selective Binding of Cavitation Nuclei to Bacterial Biofilms

Abstract: The presence of multi-drug resistant biofilms in chronic, persistent infections is a major barrier to successful clinical outcomes of therapy. The production of an extracellular matrix is a characteristic of the biofilm phenotype, intrinsically linked to antimicrobial tolerance. The heterogeneity of the extracellular matrix makes it highly dynamic, with substantial differences in composition between biofilms, even in the same species. This variability poses a major challenge in targeting drug delivery systems … Show more

“…Some newer targets and applications are also featured in the special issue. LuTheryn [ 4 ] et al describe the first use of cationic MBs for targeted treatment of biofilms, which are notoriously drug-resistant and typically are negatively charged. Cationic MBs were also used by He et al [ 5 ] to safely deliver angiogenic microRNA with an eye toward treatment of cardiovascular disease.…”

Cavitation-Enhanced Drug Delivery and Immunotherapy

“…Some newer targets and applications are also featured in the special issue. LuTheryn [ 4 ] et al describe the first use of cationic MBs for targeted treatment of biofilms, which are notoriously drug-resistant and typically are negatively charged. Cationic MBs were also used by He et al [ 5 ] to safely deliver angiogenic microRNA with an eye toward treatment of cardiovascular disease.…”

Cavitation-Enhanced Drug Delivery and Immunotherapy