The antimicrobial efficacy of a new central venous catheter with long-term broad-spectrum activity

doi:10.1093/jac/46.1.45

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Journal of Antimicrobial Chemotherapy (2000) 46, 45-50
© 2000 The British Society for Antimicrobial Chemotherapy

The antimicrobial efficacy of a new central venous catheter with long-term broad-spectrum activity

J. M. Schierholz^a^,*, C. Fleck^b, J. Beuth^a and G. Pulverer^b

^a Institute for Scientific Evaluation of Naturopathy, University of Cologne, Robert-Koch-strasse 10, 50931 Cologne; ^b Institute of Medical Microbiology, Immunology and Hygiene, University of Cologne, Goldenfelsstrasse 19–21, 50935 Cologne, Germany

Indwelling vascular catheters are a major cause of nosocomialsepsis. Prevention of colonization of polymeric surfaces bycontinuous release of bactericidal, highly biocompatible antimicrobialsincorporated into polymers has been investigated as a promisingnew approach. An antimicrobial polyurethane catheter was investigatedby HPLC and various antimicrobial assays. Controlled drug deliverygoverned by the physico-chemical mass transfer from the polyurethanebulk provided long-term release of the antimicrobial substancesfrom the material to the outer surface and catheter lumen. Thein vitro activity of catheters coated with miconazole and rifampicinagainst 158 clinical isolates of catheter-associated infectionswas evaluated. Incubated in physiological NaCl at 37°C,the half-life of inhibitory activity of catheters coated withmiconazole or rifampicin exceeded 3 weeks. In static and dynamicadhesion assays, coated catheters were able to prevent colonizationwith Staphylococcus aureus, Staphylococcus epidermidis and enterococci.To produce catheters resistant to infection, a potent antimicrobialefficacy combined with an excellent biocompatibility over timeis needed. The long lasting efficacy of the antimicrobial polyurethanealloy as well as the increased antifungal activity of miconazolecombined with rifampicin may be regarded as a promising improvementfor long-term central venous access.

^* Corresponding author. Tel/Fax: +49-2204-609545.

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