Salmonella typhi

Some of the pathogens in Table 2, infect only humans (e.g., Vibrio cholerae. Salmonella typhi. Shigella dysenteriae, poliovirus, hepatitis A virus), whereas others, known as zoonotic, infect both humans and animals Salmonella no thypi. Shigella no dysenteriae, Campylobacter, enteropathogenic Escherichia coli such as for example the biotype 0157 H7, Cryptosporidium, etc.). The control of those that only infect humans is easier than the control of the zoonotic ones. Thus, some of them (S, typhi, S. dysenteriae, poliovirus, etc.) have practically been eradicated in many developed countries, whereas the eradication, and even the control below certain levels, of the zoonotic ones is a very difficult task. 

Bismuth sulphite agar. This medium was developed in the 1920s for the identification of Salmonella typhi in water, faeces, urine, foods and pharmaceutical products. It consists of a buffered nutrient agar containing bismuth sulphite, ferrous sulphate and brilliant green. 

Salmonella typhi, in the presence of glucose, reduces bismuth sulphite to bismuth sulphide, a black compound the organism can produce hydrogen sulphide from sulphur-containing amino acids in the medium and this will react with ferrous ions to give a black deposit of ferrous sulphide (Table 1.2). 

Salmonella typhi is the causal organism of typhoid fever, Sal. paratyphi causes paratyphoid fever, whilst Sal. typhimurium, Sal. enteritidis and very many other closely related organisms are a cause of bacterial food poisoning. 

Different strains of a number of bacterial species can be distinguished by their sensitivity to a collection of phages. Bacteria which can be typed in this way include Stop/ , aureus and Salmonella typhi. The particular strain ol say, Staph, aureus responsible for an outbreak of infection is characterized by the pattern of its sensitivity to a standard set of phages and then possible sources of infection are examined for the presence of that same phage type of Staph, aureus. 

Killing. The proeess by which the live bacteria in the culture are killed and thus rendered harmless. Heat and disinfectants are employed. Heat and/or formalin are required to kill the cells of Bordetella pertussis used to make whooping-cough vaccines, and phenol is used to kill the Vibrio cholerae in cholera vaccine and the Salmonella typhi in typhoid vaeeine. 

The presence of unusual carbohydrate fermentation patterns (particularly for lactose), and the ability to use citrate among Enterobacteriaceae has hindered, and sometimes jeopardized, the identification of pathogenic strains including Salmonella typhi. 

Qi SY et al. Proteome of Salmonella typhi-murium SL1344 identification of novel abundant cell envelope proteins and assignment to a two-dimensional reference map. J Bacterid 1996 178 5032-5038. 

There are also examples of non-competitive assays in the literature for analyzing different clinically important species. For example, an immunosensor for the pathogenic bacterium Salmonella typhi and for bacterial toxins from pathogenic Vibrio chol-erae [21-23],... 

C. Singh, G.S. Agarwal, G.P. Rai, L. Singh, and V.K. Rao, Specific detection of Salmonella typhi using renewable amperometric immunosensor. Electroanalysis 17, 2062-2067 (2005). 

Antibiotics have a recognized role in the treatment of culture-proven bacterial causes of symptomatic enteric infection such as Shigella spp., Campylobacter jejuni and Salmonella typhi. The use of antibiotics in the treatment... 

Material Safety Data Sheet-Infectious Substances Salmonella typhi. March 2001. 

Pathogens known to stimulate CSF production include Salmonella typhi-murium, Mycobacterium lepraemurium, Brucella abortus and Schistosoma mansonii. Additionally, non-viable bacteria or bacterial products, such as Nocardia rubra cell-wall fragments, muramyl peptides and bacterial endotoxins, can also induce CSF production. 

Sukupolvi, S., Lorenz, R. G., Gordon, J. I., Bian, Z., Pfeifer, J. D., Normark, S. J., and Rhen, M. (1997). Expression of thin aggregative fimbriae promotes interaction of Salmonella typhi-murium SR-11 with mouse small intestinal epithelial cells. Infect. Immun. 65,5320-5325. 

Examples of killed or inactivated vaccines are cholera vaccine containing dead strains of Vibrio cholerae, hepatitis A vaccine with inactivated hepatitis A virus, pertussis vaccine with killed strains of Bordetella pertussis, typhoid vaccine with killed Salmonella typhi, and influenza vaccine with various strains of inactivated influenza viruses (see Exhibit 4.2 for a discussion of influenza viruses and vaccines and Exhibit 4.3 on avian influenza H5N1). 

Treponema pallidum Treponema denticola A Geobacter sulfurreducens Escherichia coli Salmonella typhi Yersinia enterocolitica Yersinia pestis Erwinia chrysanthemi A... 

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