%0 Journal Article %A KOCKRO, R.A. %A HAMPL, J.A. %A JANSEN, B. %A PETERS, G. %A SCHEIHING, M. %A GIACOMELLI, R. %A KUNZE, S. %A ASCHOFF, A. %T Use of scanning electron microscopy to investigate the prophylactic efficacy of rifampin-impregnated CSF shunt catheters %D 2000 %J Journal of Medical Microbiology, %V 49 %N 5 %P 441-450 %@ 1473-5644 %R https://doi.org/10.1099/0022-1317-49-5-441 %I Microbiology Society, %X Infection continues to be one of the major complications of cerebrospinal fluid (CSF) shunting procedures, and is caused mainly by skin-derived bacteria. Production of an extracellular biofilm plays an important role in the pathogenesis of shunt-associated infections by protecting bacteria from immune mechanisms and antibiotics. So far, removal of the original shunt and implantation of a new shunting device has been the only successful treatment for most patients. As an alternative strategy to prevent CSF infections, a rifampin-impregnated silicone catheter was designed to provide high initial and long-lasting (>60 days) release of bactericidal drug. To investigate the pathophysiological mechanism of its function, this new device was investigated both in vitro and in a rodent model of CSF infection by scanning electron microscopy (SEM) and bacterial culture. Staphylococcus epidermidis (108 cfu/ml) and S. aureus (104 cfu/ml) served as test strains. SEM demonstrated that, in contrast to the unloaded catheters, initial bacterial adherence on the catheter surface could be reduced to a few single cells, which did not show visible signs of proliferation. Bacterial cultures obtained simultaneously were all sterile, showing that adherent bacteria were killed immediately by the rifampin released from the catheter. Although rifampin incorporation into silicone polymers was not able to prevent initial bacterial adhesion completely, subsequent colonisation could be prevented. %U https://www.microbiologyresearch.org/content/journal/jmm/10.1099/0022-1317-49-5-441