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Evaluation of an in vitro fibre fermentation method using feline faecal inocula: inter-individual variation.

Guido BoschLisa HeesenKarine de Melo SantosJohn W ConeWilbert F PellikaanWouter H Hendriks
Published in: Journal of nutritional science (2017)
The present study aimed to evaluate the inter-individual variability in fermentation of standard fibrous substrates by faecal inocula from ten healthy adult female cats. Substrates were citrus pectin (CP), fructo-oligosaccharides (FOS), guar gum (GG), sugar beet pulp (SBP) and wheat middlings (WM). Each substrate was incubated with faecal inoculum from each cat. Gas production was measured continuously during the 48 h incubation and SCFA and organic matter disappearance (only SBP and WM) after incubation. Out of ten cats, nine produced faeces on the days of inoculum preparation. The substrates contrasted in terms of fermentation parameters measured. The inter-individual variability was in general lower for the more simple and pure substrates (CP, FOS, GG) than for the more complex substrates containing mixtures of fibres (SBP, WM). Furthermore, for total SCFA and gas produced, inter-individual variability was lower than for proportions of butyrate and of branched-chain fatty acids and for the parameters of gas production kinetics. It is concluded that the variability in in vitro fermentation parameters is associated with the complexity of fibrous substrates. The presented data are instrumental for the calculation of number of faecal donors required for precise in vitro characterisation of the fermentability of dietary fibres. In addition, the number of faecal donors should be adjusted to the specific fermentation parameter(s) of interest.
Keyphrases
  • saccharomyces cerevisiae
  • lactic acid
  • room temperature
  • organic matter
  • fatty acid
  • kidney transplantation
  • mass spectrometry
  • young adults
  • artificial intelligence
  • deep learning
  • liquid chromatography