Biofilm-associated <i>Escherichia coli</i> infections: pathogenesis, clinical implications, and treatment strategies
Damini Thakur, Lokender Kumar
Abstract
Biofilm formation is a complex process in which bacteria adhere to surfaces and create a protective matrix. Biofilms shield bacteria, such as Escherichia coli, from antibiotics and the host immune system, greatly facilitating their pathogenesis by enabling immune evasion and antimicrobial resistance. This review examines the stages of E. coli biofilm formation and their role in infections across various body sites, including the central nervous system, eyes, ears, teeth, respiratory tract, cardiovascular system, gastrointestinal tract, urinary tract, and medical device-related infections. Each infection site is thoroughly analyzed in terms of clinical manifestations, diagnostic challenges, treatment resistance, and implications for patient management. Furthermore, this review discusses therapeutic advancements, which are crucial for combating biofilm-associated infections. By unraveling the complexities of biofilms and developing novel therapeutics, researchers and clinicians can enhance strategies for diagnosing, treating, and preventing persistent E. coli infections.