Targeting Enterococcus faecalis Biofilms with Phage Therapy

Abstract: Phage therapy has been proven to be more effective, in some cases, than conventional antibiotics, especially regarding multidrug-resistant biofilm infections. The objective here was to isolate an anti-Enterococcus faecalis bacteriophage and to evaluate its efficacy against planktonic and biofilm cultures. E. faecalis is an important pathogen found in many infections, including endocarditis and persistent infections associated with root canal treatment failure. The difficulty in E. faecalis treatment has been a… Show more

“…High host specificity, bacterial susceptibility and potential for bioengineering for even more refined targeting and resilience to acquired resistance make phages particularly promising antimicrobials in contexts where antibiotics are ineffective or inappropriate [1,29]. Phage research offers promise for advancements both in historical applications of medical phage therapy against infection [13,19] and novel applications throughout biotechnology and agriculture [3,5,10].…”

Propagation method for persistent high yield of diverse Listeria phages on permissive hosts at refrigeration temperatures

“…High host specificity, bacterial susceptibility and potential for bioengineering for even more refined targeting and resilience to acquired resistance make phages particularly promising antimicrobials in contexts where antibiotics are ineffective or inappropriate [1,29]. Phage research offers promise for advancements both in historical applications of medical phage therapy against infection [13,19] and novel applications throughout biotechnology and agriculture [3,5,10].…”

Propagation method for persistent high yield of diverse Listeria phages on permissive hosts at refrigeration temperatures

“…Biofilm-associated VRE infections are challenging for treatment. EFDG1, isolated from sewage water, was efficient not only in nearly eliminating 2-week old E. faecalis biofilms of around 100 μm thickness but also in prevention of E. faecalis root canal infection [52,56].…”

Physiology and Pathology of Multidrug-Resistant Bacteria: Phage-Related Therapy

“…Two lytic phages were recently described that were found to reduce Staphylococcal biofilms by 2 logs and the frequency of bacteriophage resistance developing in the bacteria was sufficiently low to merit these bacteriophages as potential candidates for therapy (42). Another recent study found a bacteriophage, EFDG1, to have effective lytic activity against planktonic and biofilm cultures of Enterococcus faecalis and E. faecium isolates, regardless of their antibiotic resistance profile (43). In addition, EFDG1 efficiently prevented an ex vivo E. faecalis root canal infection (43).…”

“…Another recent study found a bacteriophage, EFDG1, to have effective lytic activity against planktonic and biofilm cultures of Enterococcus faecalis and E. faecium isolates, regardless of their antibiotic resistance profile (43). In addition, EFDG1 efficiently prevented an ex vivo E. faecalis root canal infection (43). There are a number of advantages in using bacteriophages to treat biofilm-related infections.…”

Current Research Approaches to Target Biofilm Infections.