材料科学
生物膜
香芹酚
表面电荷
生物污染
纳米技术
润湿
化学工程
微生物学
复合材料
细菌
抗菌剂
生物
化学
膜
遗传学
工程类
物理化学
作者
Jungmi Park,Zhenting Xiang,Yuan Liu,Cheng‐Hsuan Li,Chider Chen,Harini Nagaraj,Tiffany Nguyen,Ahmed Nabawy,Hyun Koo,Vincent M. Rotello
标识
DOI:10.1021/acsami.4c06618
摘要
Biofilms, intricate microbial communities entrenched in extracellular polymeric substance (EPS) matrices, pose formidable challenges in infectious disease treatment, especially in the context of interkingdom biofilms prevalent in the oral environment. This study investigates the potential of carvacrol-loaded biodegradable nanoemulsions (NEs) with systematically varied surface charges─cationic guanidinium (GMT-NE) and anionic carboxylate (CMT-NE). Zeta potentials of +25 mV (GMT-NE) and −33 mV (CMT-NE) underscore successful nanoemulsion fabrication (∼250 nm). Fluorescent labeling and dynamic tracking across three dimensions expose GMT-NE’s superior diffusion into oral biofilms, yielding a robust antimicrobial effect with 99.99% killing for both streptococcal and Candida species and marked reductions in bacterial cell viability compared to CMT-NE (∼4-log reduction). Oral mucosa tissue cultures affirm the biocompatibility of both NEs with no morphological or structural changes, showcasing their potential for combating intractable biofilm infections in oral environment. This study advances our understanding of NE surface charges and their interactions within interkingdom biofilms, providing insights crucial for addressing complex infections involving bacteria and fungi in the demanding oral context.
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