Reduced bacterial adherence to silicone plastic neurosurgical prosthesis.

Abstract	Bacteria have been shown to adhere to smooth surfaces, such as shunts, by secreting a complex polysaccharide coat called the glycocalyx. We assume that if bacterial adherence could be reduced to zero, foreign-body-related infections would be essentially eliminated. This study describes a new technique for quantitating bacterial adherence to plastic using radioactive chromium, and demonstrates that presoaking the silicone plastic surgical tubing used for ventriculoperitoneal and ventriculoatrial shunts in bacitracin A solution (50,000 units in 250 ml) reduces the adherence of Staphylococcus epidermidis by 54%. We conclude that pretreatment of a hydrocephalic shunt tubing with an aqueous bacitracin solution before its implantation may help to reduce the postoperative shunt infections due to direct contamination of the shunt at the time it is inserted.
Authors	D J Gower, V C Gower, S H Richardson, D L Kelly Jr
Journal	Pediatric neuroscience (Pediatr Neurosci) 1985-1986 Vol. 12 Issue 3 Pg. 127-33 ISSN: 0255-7975 [Print] Switzerland
PMID	3843255 (Publication Type: Journal Article)
Chemical References	Silicones Bacitracin bacitracin A
Topics	Bacitracin (analogs & derivatives, pharmacology) Bacterial Infections (prevention & control) Cerebrospinal Fluid Shunts (instrumentation) Humans Microscopy, Electron, Scanning Postoperative Complications (prevention & control) Silicones Staphylococcus epidermidis

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