Studies of stools from pseudomembranous colitis, rotaviral, and other diarrheal syndromes by frequency-pulsed electron capture gas-liquid chromatography

Brooks, John B.; Nunez-Montiel, O; Basta, M. T.; Hierholzer, John C.

doi:10.1128/jcm.20.3.549-560.1984

Cited by 19 publications

(17 citation statements)

References 16 publications

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“…The production of BCFA and SCFA is often used to gain knowledge on the metabolic activity of the gut microbiota as BCFA are produced solely through protein breakdown by the gut microbiota while SCFA are also produced from fermentation of carbohydrates (Wong et al, 2006). While SCFA often are studied due to their beneficial effects, effects of BCFA are seldom studied and largely unknown, but a role has been indicated in Na + uptake, bowel disorders, and rotavirus infections (Brooks et al, 1984;Zaharia et al, 2001;van Nuenen et al, 2004;Huda-Faujan et al, 2010;Le Gall et al, 2011). Modulation of gut microbiota and its activity is therefore a potential strategy for improving gut health and well-being and currently probiotics, prebiotics, and synbiotics receive attention for their effects on gut microbiota (Roberfroid et al, 2010;Quigley, 2011).…”

Section: Introductionmentioning

confidence: 99%

SynbioticLactobacillus acidophilusNCFM and cellobiose does not affect human gut bacterial diversity but increases abundance of lactobacilli, bifidobacteria and branched-chain fatty acids: a randomized, double-blinded cross-over trial

Zanten

Krych

Röytiö

et al. 2014

FEMS Microbiol Ecol

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Probiotics, prebiotics, and combinations thereof, that is synbiotics, have been reported to modulate gut microbiota of humans. In this study, effects of a novel synbiotic on the composition and metabolic activity of human gut microbiota were investigated. Healthy volunteers (n = 18) were enrolled in a double-blinded, randomized, and placebo-controlled cross-over study and received synbiotic [Lactobacillus acidophilus NCFM (10(9) CFU) and cellobiose (5 g)] or placebo daily for 3 weeks. Fecal samples were collected and lactobacilli numbers were quantified by qPCR. Furthermore, 454 tag-encoded amplicon pyrosequencing was used to monitor the effect of synbiotic on the composition of the microbiota. The synbiotic increased levels of Lactobacillus spp. and relative abundances of the genera Bifidobacterium, Collinsella, and Eubacterium while the genus Dialister was decreased (P < 0.05). No other effects were found on microbiota composition. Remarkably, however, the synbiotic increased concentrations of branched-chain fatty acids, measured by gas chromatography, while short-chain fatty acids were not affected.

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Section: Introductionmentioning

confidence: 99%

SynbioticLactobacillus acidophilusNCFM and cellobiose does not affect human gut bacterial diversity but increases abundance of lactobacilli, bifidobacteria and branched-chain fatty acids: a randomized, double-blinded cross-over trial

Zanten

Krych

Röytiö

et al. 2014

FEMS Microbiol Ecol

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“…A Perkin-Elmer programmable processor (PEP-2) equipped with a modular software system (MS-16 revision B) accumulated data from the gas chromatograph, analyzed the data according to a stored method, and prepared a report. An internal standard analysis was performed on the data, using nonanoic acid, di-n-butylamine, 2-hydroxyisovaleric acid, and nonylalcohol (which were added) as internal standards (3,8). Tentative identification was made by comparing the retention times of knowns and unknowns on packed and capillary columns.…”

Section: Methodsmentioning

confidence: 99%

“…In recent years Clostridiupn difficile has been the object of intense study (2,8,(10)(11)(12)(13)(16)(17)(18)). The main reason for this increased interest rests in the possibility that C. difficile is a causative agent of pseudoniembranous colitis.…”

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confidence: 99%

“…Frequency-pulsed electron capture (FPEC) GLC, when used with specific functional-group halogenated derivatives to increase sensitivity and high-resolution columns, has been shown to offer both the sensitivity and the specificity needed to detect metabolites in body fluids and spent culture media (1,5,6,8). Methods have been established for analysis of carboxylic acids, hydroxy acids, alcohols, and amines.…”

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confidence: 99%

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Frequency-pulsed electron capture gas-liquid chromatographic analysis of metabolites produced by Clostridium difficile in broth enriched with amino acids

Brooks¹,

Nunez-Montiel²,

Wycoff³

et al. 1984

J Clin Microbiol

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Four extractions were done on the spent medium, three at pH 2 and one at pH 10, using CHCL3 or ether. Derivatizations were done with trichloroethanol, heptafluorobutyric anhydride, and heptafluorobutyric anhydrideethanol. All samples were analyzed with frequency-pulsed electron capture gas-liquid chromatography. A dedicated computer was used to assist in data analysis. C. difficile produced both short-chain and aromatic acids in Trypticase-yeast-salt broth; hydroxy acids were also detected. p-Cresol, indoleacetic acid, 4methylthio-2-hydroxybutyric acid, and some unidentified alcohols were observed. The basic chloroform extraction contained cadaverine and putrescine. Leucine, norleucine, and isoleucine influenced the production of C5 and C6 acids and alcohols. L-Tyrosine underwent successive degradation to produce p-cresol and arolpatic

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“…A major drawback to this approach in the analysis of body fluids is loss of the FPEC-GLC profile of short-chain carboxylic acids. Detection of the entire spectrum of carboxylic acid from C2 to C22 provides an additional diagnostic criterion that is potentially more useful than detection of C18 CH3 alone (3,4,6,10). Use of a 25-m OV-101 column is recommended over the 10-m OV-101 column for best resolution of both short-and long-chain acids.…”

Section: Tce Derivativesmentioning

confidence: 99%

Selective procedures for detecting femtomole quantities of tuberculostearic acid in serum and cerebrospinal fluid by frequency-pulsed electron capture gas-liquid chromatography

Brooks¹,

Daneshvar²,

Fast³

et al. 1987

J Clin Microbiol

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Conditions are described for the detection of tuberculostearic acid (10-methyloctadecanoate; C18 * CH3) in cerebrospinal fluid and serum of patients with tuberculous meningitis. C18. CH3 was found in both the cerebrospinal fluid and serum of patients with tuberculous meningitis at concentrations of 25 to 50 fmol (10-15 mol). The necessary specificity and sensitivity for detection of C18 * CH3 were obtained by extraction under acid conditions with organic solvent, specific functional group esterification with trichloroethanol, cleanup with disposable reverse-phase sorption chromatography columns, analysis on high-resolution polar and nonpolar capillary columns, and detection by a frequency-pulsed electron capture detector. Use of an IBM 9000 computer equipped with CAP software significantly aided comparison between known C18. CH3 standards and C18. CH3 in clinical specimens. Scale expansion and attenuation changes were the major contributions obtained by use of the computer. The data indicate that detection of C18. CH3 by frequency-pulsed electron capture gas-liquid chromatography may be a valuable aid for early detection of tuberculous meningitis.

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Studies of stools from pseudomembranous colitis, rotaviral, and other diarrheal syndromes by frequency-pulsed electron capture gas-liquid chromatography

Cited by 19 publications

References 16 publications

SynbioticLactobacillus acidophilusNCFM and cellobiose does not affect human gut bacterial diversity but increases abundance of lactobacilli, bifidobacteria and branched-chain fatty acids: a randomized, double-blinded cross-over trial

SynbioticLactobacillus acidophilusNCFM and cellobiose does not affect human gut bacterial diversity but increases abundance of lactobacilli, bifidobacteria and branched-chain fatty acids: a randomized, double-blinded cross-over trial

Frequency-pulsed electron capture gas-liquid chromatographic analysis of metabolites produced by Clostridium difficile in broth enriched with amino acids

Selective procedures for detecting femtomole quantities of tuberculostearic acid in serum and cerebrospinal fluid by frequency-pulsed electron capture gas-liquid chromatography

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