Antimicrobial activity of omiganan pentahydrochloride tested against contemporary bacterial pathogens commonly responsible for catheter-associated infections

doi:10.1093/jac/dkn074

JAC Advance Access originally published online on February 29, 2008
Journal of Antimicrobial Chemotherapy 2008 61(5):1092-1098; doi:10.1093/jac/dkn074

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© The Author 2008. Published by Oxford University Press on behalf of the British Society for Antimicrobial Chemotherapy. All rights reserved. For Permissions, please e-mail: journals.permissions@oxfordjournals.org

Original research

Antimicrobial activity of omiganan pentahydrochloride tested against contemporary bacterial pathogens commonly responsible for catheter-associated infections

Thomas R. Fritsche¹^,*, Paul R. Rhomberg¹, Helio S. Sader¹^,2 and Ronald N. Jones¹^,3

¹ JMI Laboratories, North Liberty, IA 52317, USA ² Universidade Federal de Sao Paulo, Sao Paulo, Brazil ³ Tufts University School of Medicine, Boston, MA, USA

Received 14 November 2007; returned 29 December 2007; revised 17 January 2008; accepted 31 January 2008

^* Corresponding author. Tel: +1-319-665-3370; Fax: +1-319-655-3371; E-mail: thomas-fritsche{at}jmilabs.com

Objectives: Omiganan pentahydrochloride is a cidal cationic peptide witha broad antimicrobial spectrum, including yeast, currently indevelopment as a topical agent for the prevention of catheter-associatedinfections. We evaluated the spectrum and potency of omigananagainst pathogens commonly associated with such infections.

Methods: A recent (2005–06) collection of bacterial isolates originatingfrom patients with bloodstream, respiratory tract, and skinand skin structure infections in US medical centres was evaluatedby reference broth microdilution methods against omiganan andcomparator agents.

Results: All tested Gram-positive (390) and -negative (167) isolateswere inhibited by $≤$ 128 and $≤$ 1024 mg/L, respectively, of omiganan.The agent was the most active against coagulase-negative staphylococci(range 1–8 mg/L; MIC_50/90, 4 mg/L) and inhibited all Staphylococcusaureus at $≤$ 32 mg/L (MIC_50/90, 16 mg/L). Omiganan was 16-foldmore active against Enterococcus faecium than Enterococcus faecalis(MIC_50/90 results, 4/8 versus 64/128 mg/L, respectively). MICranges and MIC₅₀ potencies were unaffected by methicillin resistancein staphylococci, vancomycin resistance in enterococci, andpenicillin resistance in streptococci. Omiganan potency wasalso unaffected by extended-spectrum β-lactamase (ESBL)production in Escherichia coli when compared with wild-typestrains (MIC₅₀ values 32 mg/L), although a 4-fold increase wasnoted among ESBL-positive Klebsiella spp. (128 versus 32 mg/L,respectively). Wild-type Enterobacter spp. displayed higheromiganan MIC_50/90 results (64/512 mg/L) compared with AmpC-hyperproducingstrains (32/64 mg/L). Carbapenem-susceptible and -resistantP. aeruginosa strains exhibited omiganan MIC_50/90 values of128/256 mg/L.

Conclusions: At a 1% (10 000 mg/L) topical gel formulation, omiganan canbe expected to inhibit all clinically relevant bacterial speciesproducing catheter-associated infections (all MIC values, $≤$ 1024mg/L), including those with antimicrobial-resistant phenotypes.

Keywords: cationic peptides , topical antimicrobials , resistance , bloodstream infections

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