Effect of Subinhibitory Concentrations of Clindamycin and Trospectomycin on the Adherence of Staphylococcus epidermidis in an In Vitro Model of Vascular Catheter Colonization
Septicemia, often due to Staphylococcus epidermidis, is a life-threatening complication associated with indwelling vascular catheters. An important factor in the development of such infections is glycocalix, or slime. An in vitro model that mimics intravenous delivery systems in humans wasdeveloped. It consisted of a modified Robbins device containing slices of silicone cathetersin the removable ports, through which S. epidermidis diluted in 5% dextrose-normal saline with 10% heat-inactivated normal human serum was run, with and without clindamycin andtrospectomycin. S. epidermidis was recovered from all catheters in the absence of antibiotics; no growth was detected with antibiotics. Scanning electron microscopy demonstrated significant reduction in glycocalix and no visible organisms with all concentrations except 0.5 µg/ml trospectomycin and 1 µg/ml clindamycin; for those, a moderate amount of glycocalix and a few bacteria were seen. Thus, subinhibitory levels of trospectomycin and clindamycin may have a role in the prevention of microbial adherence to vascular catheters