But these lifesaving devices also can provide a furtive pipeline for germs from the external world to gain access to the bloodstream of patients who often already are sick, resulting in a serious infection or even death, says professor of Medicine Dennis G. Maki.
More than 200 million intravascular devices are in use in hospitals, clinics and outpatient settings today. Although health care staff who insert them wear sterile gloves and swab patient skin with disinfectant, each year, about 500,000 patients develop an associated bloodstream infection. Of those, up to 30,000 die as a result of the infection, says Maki, who is head of the Medical School's infectious diseases section.
Maki's team has published research in today's (Aug. 10) issue of Infection Control and Hospital Epidemiology that shows that a novel method for disinfecting long-term intravascular devices over time should not have an adverse effect on their structural integrity. The research helps answer a legitimate and important concern of medical practitioners, says Maki, who conducted the work with assistant professor of medicine Christopher Crnich, associate professor of engineering physics Wendy Crone and former engineering physics student Jeremy Halfmann (BS '04).
Maki's new approach for patients with intravascular catheters is a daily "rinse cycle" with a 25- to 50-percent solution of ethyl alcohol, or medical-grade ethanol. "We fill each lumen of the catheter with the ethanol solution and then cap it off," says Maki.
"It is allowed to sit there for an hour, rapidly killing any germs that have insidiously gained access. We then simply pull it back out and reattach the IV fluids, intraveneous nutrition or intravenous medications, and the risk of later bloodstream
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Contact: Dennis Maki
dgmaki@medicine.wisc.edu
608-263-1545
University of Wisconsin-Madison
10-Aug-2005