Abstract
AbstractPreterm infants suffer from a higher incidence of acute diseases such as necrotising enterocolitis and sepsis. This risk can be mitigated through probiotic prophylaxis during admission. This reduction in risk is likely the result of acute modulation of the gut microbiome induced by probiotic species, which has been observed to occur up until discharge. We aimed to determine if this modulation, and the associated probiotic species, persisted beyond discharge. We conducted both a cross-sectional analysis (n = 18), at ~ 18 months of age, and a longitudinal analysis (n = 6), from admission to 18 months of the gut microbiome of preterm infants using both shotgun metagenomics and 16S rRNA profiling respectively. The 16S amplicon sequencing revealed that the microbial composition of the probiotic-supplemented infants changed dramatically over time, stabilising at discharge. However, species from the probiotic Infloran®, as well as positive modulatory effects previously associated with supplementation, do not appear to persist beyond discharge and once prophylaxis has stopped. Conclusions: Although differences exist between supplemented and non-supplemented groups, the implications of these differences remain unclear. Additionally, despite a lack of long-term colonisation, the presence of probiotics during early neonatal life may still have modulatory effects on the microbiome assembly and immune system training.
What is Known:• Evidence suggests modulation of the microbiome occurs during probiotic prophylaxis, which may support key taxa that exert positive immunological benefits.• Some evidence suggests that this modulation can persist post-prophylaxis.
What is New:• We present support for long-term modulation in association with probiotic prophylaxis in a cohort of infants from North Queensland Australia.• We also observed limited persistence of the probiotic species post-discharge.
Funder
Study, Education and Research Trust Account (SERTA) research grant
James Cook University
Publisher
Springer Science and Business Media LLC
Subject
Pediatrics, Perinatology and Child Health
Reference61 articles.
1. World Health Organisation (2018) Preterm Birth. Available from: https://www.who.int/news-room/fact-sheets/detail/preterm-birth#:~:text=Preterm%20is%20defined%20as%20babies%20born%20alive%20before,planned%20before%2039%20completed%20weeks%20unless%20medically%20indicated. Accessed 2 May 2022
2. Forsgren M, Isolauri E, Salminen S, Rautava S (2017) Late preterm birth has direct and indirect effects on infant gut microbiota development during the first six months of life. Acta Paediatr 106(7):1103–1109
3. Jacquot A, Neveu D, Aujoulat F, Mercier G, Marchandin H, Jumas-Bilak E et al (2011) Dynamics and clinical evolution of bacterial gut microflora in extremely premature patients. J Pediatr 158(3):390–396
4. Chang JY, Shin SM, Chun J, Lee JH, Seo JK (2011) Pyrosequencing-based molecular monitoring of the intestinal bacterial colonization in preterm infants. J Pediatr Gastroenterol Nutr 53(5):512–519
5. Tamburini S, Shen N, Wu HC, Clemente JC (2016) The microbiome in early life: implications for health outcomes. Nat Med 22(7):713–722
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