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ABSTRACT: We studied whether the infectivity of Cryptosporidium parvum oocysts for suckling mice could be inactivated by copper tubing or by other types of tubing used to construct water distribution systems, including stainless steel, rigid polyvinyl chloride (PVC), PVC-lined steel, polyethylene (PE), cross-linked PE, and polybutene (PB), using glass tubing as the control. Oocysts were incubated in each tubings for 24 hours. The extent of inactivation of infectious oocysts by copper tubing was -1.303 log, which significantly inactivated of infectivity. In contrast, other types of tubing had no significant effect on some oocyst infectivity, although PB did show a maximum inactivation of -0.313 log. 25% of oocysts showed degeneration morphologically after passing through copper tubing, while 0.3% to 1.8% showed degeneration after passing through other tubing. Significant inactivation of infectious oocysts was not caused by water in which copper tubing had been let stand for 24 hours, although it had a cupric ion (Cu2+) concentration of 2.4 mg/L. The direct contact of oocysts with copper surface resulted in a decrease in the recovery percentage of oocysts and generation of hydrogen peroxide (0.5 mg/L) after 24 h of incubation. The percentage of degenerating oocysts was 29%. Such cryptosporidicidal effects of the copper surface on oocysts were completely inhibited by overlaying the surface with a Millipore filter before adding oocysts and incubating oocysts in the presence of catalase, an antioxidant enzyme. These findings suggest that copper tubing inactivates infectious C. parvum oocysts cytotoxically which may be due to oxygen radicals generated by the interaction between Cu2+ and hydrogen peroxide on the tubing surface.
Kansenshogaku zasshi. The Journal of the Japanese Association for Infectious Diseases 08/2006; 80(4):377-82.
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Kansenshogaku zasshi. The Journal of the Japanese Association for Infectious Diseases 03/2004; 78(2):138-40.
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ABSTRACT: To evaluate the efficacy of an antimicrobial ceramic for killing Legionella strains in vitro, bacteria were exposed to the ceramic soaked in PBS at 25 degrees C or 42 degrees C. The number of L. pneumophila began to decrease significantly after 4 h of exposure at 25 degrees C and reached < 10 log cfu/ml after 12 h. A similar significant decrease was also observed after exposure at 42 degrees C. Furthermore, it was found that the antimicrobial ceramic showed bactericidal activity against six strains of Legionella isolated from various water sources, including L. pneumophila (serotype 1-4), L. micdadei, and L. dumoffii, after 24 h of exposure. The antimicrobial activity against L. pneumophila of the supernatant obtained by soaking the ceramic in PBS for 24 h was also assessed. Bactericidal activity of this supernatant was also noted. Analysis of the supernatant by ICP-MS resulted in the detection of eight metals (Mg, Al, Ca, Mn, Zn, Sr, Ag, and Ba) at a maximum concentration of 2.5 mg/l. When reconstituted PBS was made with all eight metals at the same concentrations as in the supernatant, the reconstituted PBS containing Ag alone and all metals showed significantly bactericidal activity against L. pneumophila, but PBS with only one metal component except Ag or a combination of Ag with Zn and/or Ca did not. These findings suggest that the antimicrobial ceramic possesses strong bactericidal activity against Legionella species and that eight metals released from the ceramic have a synergistic bactericidal effect against Legionella. When the antimicrobial ceramic was placed in hot spring water or cooling tower water instead of PBS, the number of L. pneumophila in the water decreased to < 10 log cfu/ml after 24 h of exposure and the bactericidal activity persisted for 5 weeks. These results indicate that the antimicrobial ceramic can be used to eradicate Legionella species contaminating various water sources.
Kansenshogaku zasshi. The Journal of the Japanese Association for Infectious Diseases 02/2004; 78(1):22-31.
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ABSTRACT: Using a neonatal mouse model of Cryptosporidium parvum infection, we investigated whether apoptosis of epithelial cells was induced in the small intestine. At the time when the number of C. parvum oocysts in the ileum was maximal, columnar goblet cells and absorptive cells showed a decrease in the ileal epithelium that was accompanied by a significant reduction in the height of the villi. A few apoptotic epithelial cells were also observed in the vicinity of the basal crypts where C. parvum was proliferating. Morphological changes of the villous structure and apoptotic epithelial cells associated with proliferation of the parasite were scarcely detected in the duodenum, cecum, and colon of the infected mice. These findings suggest that the loss of absorptive cells and goblet cells, and the apoptosis of intestinal epithelial cells, are common events in the ileum after C. parvum infection, and that epithelial apoptosis may have a significant role in the pathogenesis of cryptosporidiosis.
Journal of Infection and Chemotherapy 10/2003; 9(3):278-81. · 1.80 Impact Factor
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ABSTRACT: Cryptosporidium parvum oocysts were exposed to the mixed-oxidant solution, which was electrochemically generated by Miox Water Disinfection Unit, and sodium hypochlorite in phosphate buffered saline (PBS, pH 7.2) or biologically treated wastewater at 25 degrees by using concentrations of residual chlorine of up to 5 mg/l and contact times of up to 8 h. The effect of two disinfectants on infectivity of the oocysts in a neonatal murine model was comparatively evaluated by determining the total number of oocysts recovered from the intestine. Exposure to the mixed-oxidant solution at 2 and 5 mg/l (residual chlorine) yielded a significant inactivation of infectivity in the dose- and exposure time-dependent manner, while exposure to 5 mg/l (residual chlorine) of sodium hypochlorite for contact times of up to 4 h produced no measurable inactivation of infectivity. Morphological examination also revealed a picture of degenerating oocysts after exposure to 5 mg/l (residual chlorine) of the mixed-oxidant solution, but not with sodium hypochlorite. When the oocysts were exposed to either biologically treated wastewater--or PBS-diluted the mixed-oxidant solution at 5 mg/l (residual chlorine) for 4 h, the disinfectants produced a significant inactivation of infectious oocysts. The decrease number of the oocysts was 0.8 log 10 in the former and 2.1 log 10 in the latter. These results demonstrate that the mixed-oxidant solution may be a useful disinfectant against Cryptosporidium oocysts, but appropriate applications need to be validated.
Kansenshogaku zasshi. The Journal of the Japanese Association for Infectious Diseases 03/2003; 77(2):75-82.
