Hostname: page-component-cd9895bd7-jkksz Total loading time: 0 Render date: 2024-12-22T15:46:33.794Z Has data issue: false hasContentIssue false

Biochemical and serological investigations on clinical isolates of klebsiella

Published online by Cambridge University Press:  19 October 2009

A. M. Simoons-Smit
Affiliation:
Research group for Commensal Infections, Departments of Medical and Oral microbiology, School of Medicine and Dentistry, Free University, 1007 MC Amsterdam, the Netherlands
A. M. J. J. Verweij-van Vught
Affiliation:
Research group for Commensal Infections, Departments of Medical and Oral microbiology, School of Medicine and Dentistry, Free University, 1007 MC Amsterdam, the Netherlands
I. Y. R. Kanis
Affiliation:
Research group for Commensal Infections, Departments of Medical and Oral microbiology, School of Medicine and Dentistry, Free University, 1007 MC Amsterdam, the Netherlands
D. M. Maclaren
Affiliation:
Research group for Commensal Infections, Departments of Medical and Oral microbiology, School of Medicine and Dentistry, Free University, 1007 MC Amsterdam, the Netherlands
Rights & Permissions [Opens in a new window]

Summary

Core share and HTML view are not available for this content. However, as you have access to this content, a full PDF is available via the ‘Save PDF’ action button.

A series of 925 clinical isolates of klebsiella was examined by serological and biochemical typing. To perform serological typing (capsular swelling) 77 capsular antisera were prepared, tested against the type strains and grouped in 13 pools. With this serotyping method 80% of the cultures were typable and 63 distinct types could be recognized.

All strains were typable biochemically by means of the numerical coding system of the API-20E system supplemented by digits derived from 15 additional conventional biochemical tests. With the API-20E system 24 different biotypes could be distinguished whereas the combination of API-20E and the 15 additional tests produced 93 biotypes. Maximum discrimination of strains was achieved by the combination of serological and biochemical typing (256 bioserotypes). The reproducibility, typability and discriminating power of the biotyping system was not inferior to serotyping. For epidemiological purposes biotyping can replace serotyping of Klebsiella species, especially in laboratories less well equipped.

Type
Research Article
Copyright
Copyright © Cambridge University Press 1985

References

REFERENCES

Barr, J. G. & Hogg, G. M. (1979). Biotypes of Klebsiella pneumoniae (sensu lato) and Enterobacler aerogenes characterised by differential substrate metabolism: application of the technique. Journal of Clinical Pathology 32, 935943.Google Scholar
Casewell, M. W. (1972). Experiences in the use of commercial antisera for the capsular typing of Klebsiella species. Journal of Clinical Pathology 25, 734737.CrossRefGoogle ScholarPubMed
Casewell, M. W. (1975). Titres and cross-reactions of commercial antisera for the capsular typing of Klebsiella species. Journal of Clinical Pathology 28, 3336.CrossRefGoogle ScholarPubMed
Casewell, M. W. & Philips, I. (1978). Epidemiological patterns of Klebsiella colonization and infection in an intensive care ward. Journal of Hygiene 80, 295300.CrossRefGoogle Scholar
Cooke, E. M., Brayson, J. C., Edmondson, A. S. & Hall, D. (1979). An investigation into the incidence and sources of Klebsiella infections in hospital patients. Journal of Hygiene 82, 473480.Google Scholar
Cowan, S. T. & Steel, K. J. (1974). Manual for the Identification of Medical Bacteria, 2nd ed.Cambridge University Press.Google Scholar
Cowan, S. T., Steel, K. J., Shaw, C. & Duguid, J. P. (1960). A classification of the Klebsiella group. Journal of General Microbiology 23, 601612.CrossRefGoogle ScholarPubMed
Edmondson, A. S. & Cooke, E. M. (1979). The production of antisera to the Klebsiella capsular antigens. Journal of Applied Bacteriology 46, 579584.Google Scholar
Edwards, P. R. & Ewing, W. H. (1972). Identification of Enterobacteriaceae, 3rd ed.Minneapolis: Burgess.Google Scholar
Eickhoff, F. C., Steinhauer, B. W. & Finland, M. (1966). The Klebsiella-Enterobader-Serratia division. Biochemical and scrologic characteristics and susceptibility to antibiotics. Annals of Internal Medicine 65, 11631179.CrossRefGoogle Scholar
Haverkorn, M. L. & Michel, M. F. (1979). Nosocomial Klebsiellas. I. Colonization of hospitalized patients. Journal of Hygiene 82, 177191.CrossRefGoogle ScholarPubMed
Kauffmann, F. (1954). Enterobacteriaceae, 2nd ed., pp. 7980. Copenhagen: Munksgaard.Google Scholar
Onokodi, J. K. & Wouters, G. (1981). Capsular typing of Klebsiella by coagglutination and latex agglutination. Journal of Clinical Microbiology 13, 609612.Google Scholar
Ørskov, I. (1955). The biochemical properties of Klebsiella (Klebsiella aerogenes) strains. Acta Pathologica el Microbiologica Scandinavia 37, 353368.Google Scholar
Ørskov, I. (1957). Biochemical types in the Klebsiella group. Acta Pathologica et Microbiologica Scandinavia 40, 155162.CrossRefGoogle ScholarPubMed
Palfreyman, J. M. (1978). Klebsiella scrotyping by counter current immunoelectrophoresis. Journal of Hygiene 81, 219225.Google Scholar
Rennik, R. P. & Duncan, I. B. R. (1974). Combined biochemical and serological typing of clinical isolates of Klebsiella. Applied Microbiology 28, 534539.Google Scholar
Rennie, R. P., Nord, C. E., Sjoderg, L. & Duncan, I. B. R.(1978). Comparison of bacteriophage typing, serotyping and biotyping as aids in epidemiological surveillance of Klebsiella infections. Journal of Clinical Microbiology 8, 638642.CrossRefGoogle ScholarPubMed
Riser, E., Noone, P. & Poulton, T. A. (1970). A new serotyping method for Klebsiella species: development of the technique. Journal of Clinical Pathology 29, 296304.CrossRefGoogle Scholar
Riser, E., Noone, P. & Bonnet, M. L. (1970). A new scrotyping method for Klebsiella species: evaluation of the technique. Journal of Clinical Pathology 29, 305308.CrossRefGoogle Scholar
Riser, E., Noone, P. & Thompson, R. E. M. (1978). The use of a fluorescence typing method in an epidemiological study of Klebsiella infection in a London hospital. Journal of Hygiene 80, 4350.Google Scholar
Seal, D. V., McSwiggan, D. A., Datta, N. & Feltham, R. K. A. (1981). Characterisation of an epidemic strain of Klebsiella and its variants by computer analysis. Journal of Medical Microbiology 14, 295305.CrossRefGoogle ScholarPubMed
Silva, de M. I. & Rubin, S. J. (1977). Multiple biotypes of Klebsiella pneumoniae in single clinical specimens. Journal of Clinical Microbiology 5, 6265.CrossRefGoogle ScholarPubMed
Simoons-Smit, A. M., Verweij-Van Vught, A. M. J. J., Kanis, I. Y. R. & Maclaren, D. M. (1983). Comparison of different methods for bacteriocin typing of Klebsiella strains. Journal of Hygiene 90, 401473.Google Scholar
Slopek, S., Przondo-Hessek, A., Milch, H. & Deak, S. (1967). A working scheme for bacteriophage typing of Klebsiella bacilli. Archivum Immunologiae Therapiae Experimentalis 15, 580599.Google ScholarPubMed
Smith, S. M., Digori, J. T. & Eng, R. H. K. (1982). Epidemiology of Klebsiella antibiotic resistance and serotypes. Journal of Clinical Microbiology 16, 868873.CrossRefGoogle ScholarPubMed