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Total Transit Time and Probiotic Persistence in Healthy Adults: A Pilot Study

Motility, stool characteristics, and microbiota composition are expected to modulate probiotics' passage through the gut but their effects on persistence after intake cessation remain uncharacterized. This pilot, open-label study aims at characterizing probiotic fecal detection parameters (onse...

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Bibliographic Details
Published in:Journal of neurogastroenterology and motility 2023, 29(2), , pp.218-228
Main Authors: Tremblay, Annie, Auger, Jeremie, Alyousif, Zainab, Calero, Sara E Caballero, Mathieu, Olivier, Rivero-Mendoza, Daniela, Elmaoui, Amal, Dahl, Wendy J, Tompkins, Thomas A
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Language:English
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Summary:Motility, stool characteristics, and microbiota composition are expected to modulate probiotics' passage through the gut but their effects on persistence after intake cessation remain uncharacterized. This pilot, open-label study aims at characterizing probiotic fecal detection parameters (onset, persistence, and duration) and their relationship with whole gut transit time (WGTT). Correlations with fecal microbiota composition are also explored. Thirty healthy adults (30.4 ± 13.3 years) received a probiotic (30 × 10 CFU/capsule/day, 2 weeks; containing R0052, HA-108, HA-129, R0175, and HA-110). Probiotic intake was flanked by 4-week washout periods, with 18 stool collections throughout the study. WGTT was measured using 80% recovery of radio-opaque markers. Tested strains were detected in feces ~1-2 days after first intake and persistence after intake cessation was not significantly different for R0052, HA-108, and HA-129 (~3-6 days). We identified 3 WGTT subgroups within this population (named Fast, Intermediate, and Slow), which could be classified by machine learning with high accuracy based on differentially abundant taxa. On average, R0175 persisted significantly longer in the intermediate WGTT subgroup (~8.5 days), which was mainly due to 6 of the 13 Intermediate participants for whom R0175 persisted ≥ 15 days. Machine learning classified these 13 participants according to their WGTT cluster (≥ 15 days or < 5 days) with high accuracy, highlighting differentially abundant taxa potentially associated with R0175 persistence. These results support the notion that host-specific parameters such as WGTT and microbiota composition should be considered when designing studies involving probiotics, especially for the optimization of washout duration in crossover studies but also for the definition of enrollment criteria or supplementation regimen in specific populations.
ISSN:2093-0879
2093-0887
DOI:10.5056/jnm22031