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CRC Critical Reviews in Clinical Laboratory Sciences Volume 14, 1981 - Issue 2
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Research Article

Gas Chromatography in the Identification of Microorganisms and Diagnosis of Infectious Diseases

David C. Edman Medical Microbiology Branch Naval Medical Research Institute, Bethesda, Maryland
,
Robert B. Craven San Juan Laboratories Center for Disease Control Public Health Service, U.S. Department of Health and Human Services San Juan, Puerto Rico
,
John B. Brooks Analytical Bacteriology Branch Center for Disease Control Public Health Service, U.S. Department of Health and Human Services Atlanta, Georgia
&
Itzhak Brook Infectious Disease and Clinical Microbiology Laboratory Childrens Hospital National Medical Center, Washington, DC
Pages 133-161 | Published online: 27 Sep 2008

References

  • Oyama V. I. Use of gas chromatography for detection of life on Mars. Nature (London) 1963; 200: 1058
  • Abel K., de Schmertzing H., Peterson J. I. Classification of microorganisms by analysis of chemical composition. I. Feasibility of utilizing gas chromatography. J. Bacteriol. 1963; 85: 1039
  • Yamakawa T., Ueta N. Gas chromatographic studies of microbial components. I. Carbohydrate and fatty acid constitution of Neisseria. Jpn. J. Exp. Med. 1964; 34: 361
  • Henis Y., Gould J. R., Alexander M. Detection and identification of bacteria by gas chromatography. Appl. Microbiol 1966; 14: 513
  • Mirruka B. M. Gas Chromatographic Applications in Microbiology and Medicine. John Wiley & Sons, New York 1975
  • Mitruka B. M. Rapid identification of microorganisms in clinical specimens by gas chromatography, chap. 4. New Approaches to the Identification of Microorganisms, C.-G. Heden, T. Illeni. John Wiley & Sons, New York 1975; 123
  • Mitruka B. M., Kundargi R. S., Jonas A. M. Gas chromatography for rapid differentiation of bacterial infections. Med. Res. Eng. 1972; 11: 7
  • Jellum E. Profiling of human body fluids in healthy and diseased states using gas chromatography and mass spectrometry, with special reference to organic acids. J. Chromatogr. 1977; 143: 427
  • Mirruka B. M. Methods of Detection and Identification of Bacteria. CRC Press, Boca Raton, Fla. 1976
  • Larsson L., Mardh P-A. Application of gas chromatography to diagnosis of microorganisms and infectious diseases. Acta Pathol Microbiol. Scand., Sect. B. 1977, Suppl. 259: 5
  • Huis in't Veld J. H. J., Muezelaar H. L. C., Tom A. Analysis of streptococcal cell wall fractions by Curie-point pyrolysis gas-liquid chromatography. J. Chromatogr. 1973; 26: 92
  • Meuzelaar H. L. C., in't Veld R. A. A technique for Curie-point pyrolysis gas chromatography of complex biological samples. J. Chromatogr. Sci. 1972; 10: 213
  • Meuzelaar H. L. C., Ficke H. G., Harink H. C. Fully automated Curie-point pyrolysis gas-liquid chromatography. J. Chromatogr. Sci. 1975; 13: 12
  • Pierami R. M., Stevenson K. E. Detection of metabolites by psychrotrophic bacteria growing in milk. J. Dairy Sci. 1976; 59: 1010
  • Quinn P. A. Development of high resolution pyrolysis-gas chromatography for the identification of microorganisms. J. Chromatogr. Sci. 1974; 12: 796
  • Quinn P. A. (1976) Identification of microorganisms by pyrolysis: the state of the art. 2nd Int. Symp. on Rapid Methods and Autom. in Microbiol, CambridgeEngland, September, 19—251976, H. H. Johnstown, S. W.B. Newsom. Learned Information, New York, 178
  • Simmonds P. G. Whole microorganisms studied by pyrolysis-gas chromatography-mass spectrometry: significance for extraterrestrial life detection experiments. Appl. Microbiol 1970; 20: 567
  • Freeman R. R. Quantitative analysis using a “purged splitless” injection technique. Hewlett Packard. ANGC. 1976; 7–76, Application Note
  • Brooks J. B. Detection of bacterial metabolites in spent culture media and body fluids by electron capture gas-liquid chromatography, chap. 1. Advances in Chromatography, J. C. Giddings, E. Grushka, J. Cazes, P. R. Brown. Marcel Dekker, New York 1977; Vol. 15
  • Anaerobe Laboratory Manual4th ed., L. V. Holdeman, E. P. Cato, W. E. C. Moore. VPI Anaerobic Laboratory, Virginia Polytechnic Institute and State University, Southern Printing Co., Blacks burg 1977
  • Lovelock J. E., Lipsky S. R. Electron affinity spectroscopy?a new method for the identification of functional groups in chemical compounds separated by gas chromatography. J. Am. Chem. Soc 1960; 82: 431
  • Mitruka B. M., Alexander M. Ultrasensitive detection of certain microbial metabolites by gas chromatography. Anal. Biochem. 1967; 20: 548
  • Mitruka B. M., Alexander M. Rapid and sensitive detection of bacteria by gas chromatography. Appl. Microbiol 1968; 16: 636
  • Mitruka B. M., Alexander M., Carmichael L. E. Gas chromatography for detection of viral infections. Science 1968; 160: 309
  • Mitruka B. M., Norcross N. L., Alexander M. Gas chromatographic detection of in vio activity of equine infectious anaemia virus. Appl. Microbiol 1968; 16: 1093
  • Mitruka B. M., Carmichael L. E., Alexander M. Gas chromatographic detection of in vitro and in vivo activities of certain canine viruses. J. Infect. Dis. 1969; 119: 625
  • Mitruka B. M., Jonas A. M., Alexander M. Rapid detection of bacteremia in mice by gas chromatography. Infect. Immun. 1970; 2: 474
  • Mitruka B. M. Biochemical Aspects of Diplococcus pneumoniae infections in laboratory rats. Yale J. Biol. Med 1971; 44: 253
  • Mitruka B. M., Jonas A. M., Alexander M., Kundargi R. S. Rapid differentiation of certain bacteria in mixed populations by gas-liquid chromatography. Yale J. Biol Med. 1973; 46: 104
  • Maggs R. J., Joynes P. J., Davis A. J., Lovelock J. E. The electron capture detector—a new mode of operation. Anal. Chem. 1971; 43: 1966
  • Burgett C. A. Electron capture detection. Res. Dev. 1974; 25: 28
  • Brooks J. B., Alley C. C., Liddle J. A. Simultaneous esterification of carboxyl and hydroxyl groups with alcohols and heptafluorobutyric anhydride for analysis by gas chromatography. Anal. Chem. 1974; 46: 1930
  • Brooks J. B., Kellogg D. S., Jr., Alley C. C., Short H. B., Handsfield H. H., Huff B. Gas chromatography as a potential means of diagnosing arthritis. I. Differentiation between staphylococcal, streptococcal, gonococcal, and traumatic arthritis. J. Infect. Dis. 1974; 129: 660
  • Brooks J. B. Identification of disease and disease-causing agents by analysis of spent culture media and body fluids with electron capture gas-liquid chromatography. Microbiology — 1975, D. Schlessinger. American Society for Microbiology, Washington, DC 1975; 45
  • Brooks J. B., Liddle J. A., Alley C. C. Electron capture gas chromatography and mass spectral studies of iodomethyltetramethylmethyldisiloxane esters and iodomethyldimethylsilyl ethers of some short-chain acids, hydroxy acids and alcohols. Anal. Chem. 1975; 47: 1960
  • Morse C. D., Brooks J. B., Kellogg D. S., Jr. Electron capture gas chromatographic detection of acetylmethylcarbinol produced by Neisseria gonorrhoeae. J. Clin. Microbiol. 1976; 3: 34
  • Brooks J. B., Selin M. J., Alley C. C. Electron capture gas chromatography study of the acid and alcohol products of Clostridium septicum and Clostridium chauvoei. J. Clin. Microbiol. 1976; 3: 180
  • Schlossberg D., Brooks J. B., Shulman J. A. Possibility of diagnosing meningitis by gas chromatography: cryptococcal meningitis. J. Clin. Microbiol. 1976; 3: 239
  • Alley C. C., Brooks J. B., Choudhary G. Electron capture gas-liquid chromatography of short chain acids as their 2,2,2-trichloroethyl esters. Anal. Chem. 1976; 48: 387
  • Brooks J. B., Craven R. B., Melton A. R., Alley C. C. (1976) The application of frequency pulsed electron capture gas chromatography to diagnosis of infection. 2nd Int. Symp. on Rapid Methods and Autom. in Microbiol, CambridgeEngland, September, 19—251976, H. H. Johnston, S. W. B. Newsom. New York, 147, Learned Information
  • Brooks J. B., Choudhary G., Craven R. B., Alley C. C., Liddle J. A., Edman D. C., Converse J. D. Electron capture gas chromatography detection and mass spectrum identification of 3-(2′-keto-hexyl)indoline in spinal fluids of patients with tuberculous meningitis. J. Clin. Microbiol 1977; 5: 625
  • Craven R. B., Brooks J. B., Edman D. C., Converse J. D., Greenlee J., Schlossberg D., Furlow T., Gwaltney J. M., Jr., Miner W. F. Rapid diagnosis of lymphocytic meningitis by frequency-pulsed electron capture gas-liquid chromatography: differentiation of tuberculous, cryptococcal, and viral meningitis. J. Clin. Microbiol 1977; 6: 27
  • Morse C. D., Brooks J. B., Kellogg D. S., Jr. Dentification of Neisseria by electron capture gas-liquid chromatography of metabolites in a chemically defined growth medium. J. Clin. Microbiol 1977; 6: 474
  • Brooks J. B., Kellogg D. S., Jr., Choudhary G., Alley C. C., Liddle J. A. Identification of some basic extractable compounds produced by Neisseria gonorrhoeae and Neisseria meningitidis in a defined medium. J. Clin. Microbiol 1978; 7: 415
  • Brooks J. B., Craven R. B., Schlossberg D., Alley C. C., Pitts F. M. Possible use of frequency-pulse-modulated electron capture gas-liquid chromatography to identify septic and aseptic causes of pleural effusions. J. Clin. Microbiol. 1978; 8: 203
  • Brooks J. B., Melton A. R. Electron capture gas-liquid chromatographic study of metabolites produces by some arthritic transudate-associated organisms in vitro and in vivo in rabbit models. J. Clin. Microbiol 1978; 8: 402
  • Alley C. C., Brooks J. B., Kellogg D. S., Jr. Electron capture gas-liquid chromatographic-mass spectral identification of acids produced by Neisseria meningitidis in a defined medium. J. Clin. Microbiol. 1979; 9: 97
  • Brooks J. B., Kellogg D. S., Jr., Shepherd M. E., Alley C. C. Rapid differentiation of the major causative agents of bacterial meningitis by use of frequency-pulsed electron capture gas-liquid chromatography: analysis of acids. J. Clin. Microbiol 1980; 11: 45
  • Brooks J. B., Kellogg D. S., Jr., Shepherd M. E., Alley C. C. Rapid differentiation of the major causative agents of bacterial meningitis by use of frequency-pulsed electron capture gas-liquid chromatography: analysis of amines. J. Clin. Microbiol 1980; 11: 52
  • Drucker D. B. Gas-liquid chromatographic chemotaxonomy, chap. 3. Methods in Microbiology, J. R. Norris. Academic Press, New York 1976; Vol. 9
  • Ericsson L. Pyrolysis gas chromatography. A potential technique for characterization of complex organic material. Acta Pathol. Microbiol. Scand., Sect. B. 1977, Suppl. 259: 37
  • Reiner E. Identification of bacterial strains by pyrolysis-gas-liquid chromatography. Nature (London) 1965; 206: 1272
  • Reiner E. Studies on differentiation of microorganisms by pyrolysis gas-liquid chromatography. J. Gas Chromatogr. 1967; 5: 65
  • Reiner E., Ewing W. H. Chemotaxonomic studies of some Gram negative bacteria by means of pyrolysis-gas-liquid chromatography. Nature (London) 1968; 217: 191
  • Reiner E., Kubica G. P. Predictive value of pyrolysis-gas-liquid chromatography in the differentiation of mycobacteria. Am. Rev. Respir. Dis. 1969; 99: 42
  • Reiner E., Hicks J. J., Ball M. B., Martin W. J. Rapid characterization of salmonella organisms by means of pyrolysis-gas-liquid chromatography. Anal. Chem. 1972; 44: 1058
  • Cone R. D., Lechovich R. V. Differentiation of Clostridium botulinum types A., B., and E by pyrolysis-gas-liquid chromatography. Appl. Microbiol. 1970; 19: 138
  • Vincent P. G., Kulik M. M. Pyrolysis-gas-liquid chromatography of fungi: differentiation of species and strains of several members of the Aspergillis flavus group. Appl Microbiol 1970; 20: 957
  • Carmichael J. W., Sekhon A. S., Sigler L. Classification of some dermatophytes by pyrolysis-gas-liquid chromatography. Can. J. Microbiol. 1973; 19: 403
  • Meuzelaar H. L. C., Kistemaker P. G., Tom A. Rapid and automated identification of microorganisms by Curie point pyrolysis techniques. I. Differentiation of bacterial strains by fully automated Curie point pyrolysis gas-liquid chromatography. New Approaches to the Identification of Microorganisms, C.-G. Heden, T. Illeni. John Wiley & Sons, New York 1975; 165
  • Kistemaker P. G., Meuzelaar H. L. C., Posthumus M. A. Rapid and automated identification of microorganisms by Curie point pyrolysis techniques. II. Fast identification of microbiological samples by Curie point pyrolysis mass spectroscopy. New Approaches to the Identification of Microorganisms, C.-G. Heden, T. Illeni. John Wiley & Sons, New York 1975; 179
  • Oxborrow G. S., Fields N. D., Puleo J. R. Pyrolysis gas-liquid chromatography of the genus bacillus: effect of growth media on pyrochromatogram reproducibility. Appl. Microbiol 1977; 33: 865
  • Analytical Pyrolysis, C. E. R. Jones, C. A. Cramers. Elsevier, Amsterdam 1977
  • Ishizuka I., Ueta N., Yamakawa T. Gas chromatographic studies of microbiol components. II. Carbohydrate and fatty acid constitution of the family. Micrococcaceae, Jpn. J. Exp. Med. 1966; 36: 73
  • Walker R. W., Barakat H., Hung J. G. C. The positional distribution of fatty acids in the phospholipids and triglycerides of Mycobacterium smegmatis and M. bovis. Lipids 1970; 5: 684
  • Girard A. E. A comparative study of the fatty acids of some micrococci. Can. J. Microbiol 1971; 17: 1503
  • Jantzen E., Bryn K., Bovre K. Gas chromatography of bacterial whole cell methanolysates. IV. A procedure for fractionation and identification of fatty acids and monosaccharides of cellular structures. Acta Pathol Microbiol. Scand. Sect. B. 1974; 82: 753
  • Jantzen E., Bryn K., Bergan T., Bovre K. Gas chromatography of bacterial whole cell methanolysates. V. Fatty acid composition of Neisseriae and, Moraxellae. Acta Pathol Microbiol. Scand., Sect. B. 1974; 82: 767
  • Jantzen E., Bergan T., Bovre K. Gas chromatography of bacterial whole cell methanolysates. VI. Fatty acid composition of strains within. Micrococcaceae, Acta Pathol. Microbiol Scand., Sect. B. 1974; 82: 785
  • Jantzen E., Bryn K., Bergan T., Bovre K. Gas chromatography of bacterial whole cell methanolysates. VII. Fatty acid composition of Acinetobacter in relation to the taxonomy of Neis-seriaceae. Acta Pathol Microbiol. Scand., Sect. B. 1975; 83: 569
  • Kaneda T. Biosynthesis of branched-chain fatty acids. IV. Factors affecting relative abundance of fatty acids produced by Bacillus subtilis. Can. J. Microbiol 1966; 12: 501
  • Kaneda T. Fatty acids in the genus Bacillus. I. Iso- and anteiso-fatty acids as characteristic constituents of lipids in 10 species. J. Bacteriol 1967; 93: 894
  • Moss C. W., Lewis V. J. Characterization of Clostridia by gas chromatography. I. Differentiation of species by cellular fatty acids. Appl. Microbiol. 1967; 15: 390
  • Moss C. W., Dowell V. R., Jr., Lewis V. J., Schekter M. A. Cultural characteristics and fatty acid composition of Corynebacterium acnes. J. Bacteriol 1967; 94: 1300
  • Moss C. W., Dowell V. R., Farshtchi D., Raines L. J., Cherry W. B. Cultural characteristics and fatty acid composition of propionibacteria. J. Bacteriol 1969; 97: 561
  • Moss C. W., Samuels S. B., Weaver R. E. Cellular fatty acid composition of selected Pseudo-monas species. Appl. Microbiol 1972; 24: 596
  • Raines L. J., Moss C. W., Farshtchi D., Pittman B. Fatty acids of Listeria monocytogenes. J. Bacteriol 1968; 96: 2175
  • Thoen C. O., Karlson A. G., Ellefson R. D. Fatty acids of Mycobacterium kansasii. Appl. Microbiol 1971; 21: 628
  • Thoen C. O., Karlson A. G., Ellefson R. D. Comparison by gas-liquid chromatography of the fatty acids of Mycobacterium avium and some other nonphotochromogenic mycobacteria. Appl Microbiol. 22
  • Kondo E., Ueta N. Composition of fatty acids and carbohydrates in Leptospira. J. BacterioL. 1972; 110: 459
  • Brooks J. B., Dowell V. R., Farshy D. C., Armfield A. Y. Further studies on the differentiation of Clostridium sordelli from Clostridium bifermentans by gas chromatography. Can. J. Microbiol 1970; 16: 1071
  • Jantzen E., Bryn K., Bovre K. Cellular monosaccharides of Neisseriaceae. Acta Pathol. Microbiol. Scand, Sect. B. 1976; 84: 179
  • Farshtchi D., Moss C. W. Characterization of bacteria by gas chromatography: comparison of trimethylsilyl derivatives of whole-cell hydrolysates. Appl. Microbiol. 1969; 17: 262
  • Jantzen E., Froholm L. O., Hytta R., Bovre K. Gas chromatography of bacterial whole cell methanolysates. I. The usefulness of trimethylsilyl- and trifluoroacetyl derivatives for strain and species characterization. Acta Pathol. Microbiol. Scand., Sect. B 1972; 80: 660
  • Froholm L. O., Jantzen E., Hytta R., Bovre K. Gas chromatography of bacterial whole cell methanolysates. II. A taxonomic evaluation of the method for species of Moraxella. Acta Pathol. Microbiol., Scand., Sect. B. 1972; 80: 672
  • Bovre K., Hytta R., Jantzen E., Froholm L. O. Gas chromatography of bacterial whole cell methanolysates. III. Group relations of Neisseriae and Moraxellae. Acta Pathol. Microbiol. Scand., Sect. B. 1972; 80: 683
  • Farshy D. C., Moss C. W. Characterization of Clostridia by gas chromatography: differentiation of species by trimethylsilyl derivatives of whole-cell hydrolysates. Appl. Microbiol 1970; 20: 78
  • Farshy D. C., Thomas M. L., Moss C. W. Characterization of treponemes by gas chromatography. Br. J. Vener, Dis. 1970; 46: 441
  • Larsson L., Mardh P-A. Gas chromatographic characterization of mycobacteria: analysis of fatty acids and trifluoroacetylated whole-cell methanolysates. J. Clin. Microbiol. 1976; 3: 81
  • MacGee J. Characterization of mammalian tissues and microorganisms by gas-liquid chromatography. J. Gas Chromatogr. 1968; 6: 48
  • Moss C. W. New methodology for identification of monfermenters: gas-liquid chromatographic chemotaxonomy. chap. 9. Glucose Nonfermenting Gram-Negative Bateria in Clinical Microbiology, G. L. Gilardi. CRC Press, Boca Raton, Fla. 1978
  • Carlsson J. Simplified gas chromatographic procedure for identification of bacterial metabolic products. Appl. Microbiol. 1973; 25: 287
  • Brooks J. B., Kellogg D. S., Thacker L., Turner E. M. Analysis by gas chromatography of fatty acids found in whole cultural extracts of Neisseria species. Can. J. Microbiol. 1971; 17: 531
  • Bricknell K. S., Finegold S. M. A simple, rapid method to process and assay fatty acids and alcohols by gas chromatography. Anal. Biochem. 1973; 51: 23
  • Yosbioka M., Kitamura M., Tamura Z. Rapid gas chromatographic analysis of microbiol volatile metabolites. Jpn. J. Microbiol. 1969; 13: 87
  • Brooks J. B., Moore W. E. C. Gas chromatographic analysis of amines and other compounds produced by several species of Clostridium. Can. J. Microbiol. 1969; 15: 1433
  • O'Brien R. T. Differentiation of bacteria by gas chromatographic analysis of products of glucose metabolism. Food Technol. (Chicago) 1967; 21: 1130
  • Brooks J. B., Kellogg D. S., Thacker L., Turner E. M. Analysis by gas chromatography of hydroxy acids produced by several species of Neisseria. Can. J. Microbiol. 1972; 18: 157
  • Brooks J. B., Weaver R. E., Tatum H. W., Billingsley S. A. Differentiation between Pseudo-monas testosteroni and P. acidovorans by gas chromatography. Can. J. Microbiol 1972; 18: 1477
  • Moss C. W., Samuels S. B. Short-chain acids of Pseudomonas species encountered in clinical specimens. Appl. Microbiol 1974; 27: 570
  • Brooks J. B., Alley C. C., Weaver J. W., Green V. E., Harkness A. M. Practical methods for derivatization and analysing bacterial metabolites with a modified automatic injector and gas chromatograph. Anal. Chem. 1973; 45: 2083
  • Brooks J. B., Cherry W. B., Thacker L., Alley C. C. Analysis by gas chromatography of amines and nitrosoamines produced in vivo and in vitro by Proteus mirabilis. J. Infect. Dis. 1972; 126: 143
  • Thacker L., Brooks J. B. In vitro production of ALnitrosodimethylamine and other amines by Proteus species. Infect Immun. 1974; 9: 648
  • Larsson L., Mardh P-A., Odham G. Detection of alcohols and volatile fatty acids by head-space gas chromatography in identification of anaerobic bacteria. J. Clin. Microbiol 1978; 7: 23
  • Norrman J. Direct analysis of volatile organic compounds produced by fungi. Acta Pathol. Microbiol Scand, Sect. B. 1977, Suppl. 259: 25
  • Drasar B. S., Goddard P., Heaton S., Peach S., West B. Clostridia isolated from feces. J. Med. Microbiol. 1976; 9: 63
  • Moore W. E. C., Cato E. P., Holdeman L. V. Fermentation patterns of some Clostridium species. Int. J. Sysi. BacterioL. 1966; 16: 383
  • Norrman J. Production of volatile organic compounds by the yeast fungus. Dipodascus aggregatus, Arch. Mikrobiol. 1969; 68: 133
  • Guarino P. A., Kramer A. Gas chromatographic analysis of head-space vapors to identify microorganisms in foods. J. Food Set 1969; 34: 31
  • Bawdon R. E., Bassette R. Differentiation of Escherichia coli and Aerobacter aerogenes by gas liquid chromatography. J. Dairy Sci. 1966; 49: 624
  • Bassette R., Claydon T. J. Characterization of some bacteria by gas chromatographic analysis of head-space vapors from milk. J. Dairy ScL 1965; 48: 775
  • Moss C. W., Dees S. B. Cellular fatty acids and metabolic products of Pseudomonas species obtained from clinical specimens. J. Clin. Microbiol. 1976; 4: 492
  • Dees S. B., Moss C. W. Cellular fatty acids of Alcaligenes and Pseudomonas species isolated from clinical specimens. J. Clin. Microbiol. 1975; 1: 414
  • Moss C. W., Dees S. B. Cellular fatty acids of Flavobacterium meningosepticum and Flavo-baclerium species group lib. J. Clin. Microbiol. 1978; 8: 772
  • Dees S. B., Moss C. W. Identification of Achromobacter species by cellular fatty acids and by production of keto acids. J. Clin. Microbiol. 1978; 8: 61
  • Dees S. B., Moss C. W., Hollis D. Cellular fatty acids composition of Pseudonmonaspaucimobilis and groups IIk-2, Ve-1, and Ve-2. J. Clin. Microbiol. 1979; 10: 206
  • Moss C. W., Weaver R. E., Dees S. B., Cherry W. B. Cellular fatty acid composition of isolates from Legionnaires disease. J. Clin. Microbiol 1977; 6: 140
  • Moss C. W., Dees S. B. Further studies of the cellular fatty acid composition of Legionnaires disease bacteria. J. Clin. Microbiol 1979; 9: 648
  • Moss C. W., Weaver R. E., Dees S. B., Cherry W. B. Cellular fatty acid composition of the Legionnaires' disease bacterium. “Legionnaires' “, the Disease, the Bacterium, and Methodology1st ed. Center for Disease Control, Public Health Service, U.S. Department of Health, Education, and Welfare, Atlanta 1979; 47, HEW Publ. No. (CDC) 79–8375
  • Moss C. W., Dees S. B. Cellular fatty acid composition of WIGA, a rickettsia-like agent similar to the Legionnaires disease bacterium. J. Clin. Microbiol. 1979; 10: 390
  • Hebert G. A., Moss C. W., McDougal L. K., Bozeman F. M., McKinney R. M., Brenner D. J. The rickettsia-like organisms TATLOCK (1943) and HEBA (1959): bacteria phenotypically similar to but genetically distinct from Legionella pneumophila and the WIGA bacterium. Ann. Intern. Med. 1980; 92: 45
  • Brooks J. B., Moss C. W., Dowell V. R. Differentiation between Clostridium sordellii and Clostridium bifermentans by gas chromatography. J. Bacterial 1969; 100: 528
  • Cherry W. B., Moss C. W. The role of gas chromatography in the clinical microbiology laboratory. J. Infect. Dis. 1969; 119: 658
  • Brooks J. B., Alley C. C. 1980, unpublished data
  • World Health Organization. World list of arbovirus laboratories World Health Organization. Geneva 1979; 5
  • Brook I., Bricknell K. S., Overturf G. D., Finegold S. M. Measurement of lactic acid in cerebrospinal fluid of patients with infections of the central nervous system. J. Infect. Dis. 1978; 137: 384
  • Komorowski R. A., Farmer S. G., Hanson G. A., Hause L. L. Cerebrospinal fluid lactic acid in diagnosis of meningitis. J. Clin. Microbiol. 1978; 8: 89
  • Gastrin B., Briem H., Rombo L. Rapid diagnosis of meningitis with use of selected clinical data and gas-liquid chromatographic determination of lactate concentration in cerebrospinal fluid. J. Infect. Dis. 1979; 139: 529
  • Levanon A., Klibansky Y., Kohn A. Picorna- and togavirus infection of cells detected by gas chromatography. J. Med. Virol. 1977; 1: 227
  • Brooks J. B., Edman D. C., Alley C. C., Craven R. B., Girgis N. I. Further studies on frequency-pulsed electron capture gas liquid chromatography and the tryptophane color test for the rapid diagnosis of tuberculous and other forms of lymph ocytic meningitis. J. Clin. Microbiol., submitted for publication
  • Brooks J. B., McDade J. 1980, unpublished data
  • Brice J. L., Tomabene T. G., LaForce F. M. Diagnosis of bacterial meningitis by gas-liquid chromatography. I. Chemotyping studies of Streptococcus pneumoniae, Haemophilus influenzae, Neisseria meningitidis, Staphylococcus aureus and Escherichia coli. J. Infect. Dis. 1979; 140: 443
  • LaForce F. M., Brice J. L., Tomabene T. G. Diagnosis of bacterial meningitis by gas-liquid chromatography. II. Analysis of spinal fluid. J. Infect. Dis. 1979; 140: 453
  • Gorbach S. L., Mayhew J. W., Bartlett J. G., Thadepalli H., Onderdonk A. B. Rapid diagnosis of anaerobic infections by direct gas-liquid chromatography of clinical specimens. J. Clin. Invest. 1976; 57: 478
  • Phillips K. D., Tearle P. Y., Willis A. T. (1976) Rapid diagnosis of anaerobic infections by gas-liquid chromatography of clinical material. 2nd Int. Symp. on Rapid Methods and Auiom. in Microbiol, CambridgeEngland, September, 19—251976, H. H. Johnston, S. W. B. Newsom. Learned Information, New York, 27
  • Phillips K. D., Tearle P. V., Willis A. T. Rapid diagnosis of anaerobic infections by gas-liquid chromatography of clinical material. J. Clin. Pathol. 1976; 29: 428
  • Rom R., Flynn D., Noone P. Anaerobic infection in a neonate. Early detection by gas chromatography and response to metronidazole. Arch. Dis. Child. 1977; 52: 740
  • Nord C-E. Diagnosis of anaerobic infections by gas-liquid chromatography. Acta Pathol. Microbiol, Scand., Sect. B. 1977, Suppl. 259: 55
  • Ladas S., Arapakis G., Malamou-Ladas H., Palikaris G., Arseni A. Rapid diagnosis of anaerobic infections by gas-liquid chromatography. J. Clin. Pathol. 1979; 32: 1163
  • Reed P. J., Sanderson P. J. Detection of anaerobic wound infection by analysis of pus swabs for volatile fatty acids by gas-liquid chromatography. J. Clin. Pathol. 1979; 32: 1203
  • Miller G. G., Witwer M. W., Braude A. I., Davis C. E. Rapid identification of Candida albicans septicemia in man by gas-liquid chromatography. J. Clin. Microbiol. 1974; 54: 1235
  • Kiehn T. E., Bernard E. M., Gold J. W. M., Armstrong D. Candidiasis: detection by gas-liquid chromatography of D-arabinitol, a fungal metabolite, in human serum. Science 1979; 206: 577

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