We developed an adult rabbit model for enteric infection by Vibrio cholerae and enterotoxigenic Escherichia coli. The cecum of each animal was first ligated to prevent it from retaining fluid secreted by the small intestine. A temporary reversible obstruction (a slip knot tie) of the small bowel was introduced at the time of challenge and removed 2 h later. With this modification, we were able to elicit a massive and usually fatal cholera-like diarrhea in adult (3.5- to 6-lb [1.6- to 2.7-kb]) animals challenged with V. cholerae. Animals challenged with enterotoxigenic E. coli also developed diarrhea which was severe and watery but less explosive and less rapidly fatal than that produced by V. cholerae. The susceptibility of animals in this model to infection by V. cholerae was similar to the susceptibility of infant rabbits challenged intraintestinally. The death rate was almost 25% when 10(3) Vibrio cells were given and 90% or more when the dose was greater than or equal to 10(6) cells per animal. We designated this procedure the RITARD (for removable intestinal tie-adult rabbit diarrhea) model.
Parainfluenza type 3 virus (PIV-3), an important cause of acute lower respiratory illness in children, can be transmitted nosocomially. To differentiate between nosocomial transmission and community-acquired infection, a polymerase chain reaction-based sequencing assay was developed for the 5' noncoding region of the PIV-3 fusion protein gene and was applied to virus specimens from 10 children infected with PIV-3 during a hospital outbreak. Four strains of PIV-3 were identified among the 10 virus isolates. Six isolates, which appeared to belong to 1 strain, were obtained from a cluster of nosocomial cases in a pediatric intermediate care unit. In contrast, the remaining 4 isolates, which appeared to belong to 3 different strains, were obtained from children infected in the community or elsewhere in the hospital. These data indicate that multiple strains of PIV-3 can be found during a single epidemic and provide evidence that infections within the intermediate care unit were probably caused by transmission of 1 strain of virus within the unit rather than reintroduction of virus by new patients or staff.
Berberine, an alkaloid from the plant Berberis aristata, which has been known since ancient times as an antidiarrheal medication in India and China, inhibited by approximately 70%o the secretory responses of the heat-labile enterotoxins of Vibrio cholerae and Escherichia coli in the rabbit ligated intestinal loop model. The drug was effective when given either before or after enterotoxin binding and when given either intraluminally or parenterally; it did not inhibit the stimulation of adenylate cyclase by cholera enterotoxin and caused no histological damage to intestinal mucosa. Berberine also markedly inhibited the secretory response of E. coli heat-stable enterotoxin in the infant mouse model. Although the mechanism of action of the drug is not yet known, these data provide a rationale for its apparent clinical usefulness in treating acute diarrheal disease.
Parainfluenza virus type 3 (PIV-3), an important lower respiratory tract pathogen in young children and immunocompromised individuals, may be underdiagnosed because of the insensitivity of available culturing systems and delay in identification of virus in cell culture. We developed a reverse transcription-PCR-enzyme immunoassay (RT-PCR-EIA) for PIV-3, using primers specific for a highly conserved region of the hemagglutinin-neuraminidase gene. Testing of nasal washes spiked with PIV-3 or other respiratory viruses showed that this assay detected seven strains of PIV-3 but not other respiratory viruses. Of 103 respiratory tract samples obtained from children experimentally infected with a live PIV-3 vaccine or naturally infected with wild-type PIV-3, 51 were positive by culture and 48 were positive by RT-PCR-EIA. Eleven of the culture-positive samples were negative by RT-PCR-EIA; however, none of these grew virus upon reinoculation into cell culture, indicating that virus was lost or was present at a very low titer. Eight of the culture-negative samples were positive by RT-PCR-EIA: two were obtained from a subject who was culture negative but had a serologic response to PIV-3, four were obtained 7 to 9 days after the first positive culture, and two were obtained 1 day prior to the first positive culture. Thus, this RT-PCR-EIA for PIV-3 is sensitive and specific and can detect viral RNA in samples from which virus cannot be cultivated. This assay could be used for diagnosis late in the course of PIV-3 infection and for accurate detection of disease outbreaks.
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