TY - JOUR
T1 - Intestinal microbiome as a risk factor for urinary tract infections in children
AU - Paalanne, Niko
AU - Husso, Aleksi
AU - Salo, Jarmo
AU - Pieviläinen, Oskari
AU - Tejesvi, Mysore V.
AU - Koivusaari, Pirjo
AU - Pirttilä, Anna Maria
AU - Pokka, Tytti
AU - Mattila, Sampo
AU - Jyrkäs, Juha
AU - Turpeinen, Ari
AU - Uhari, Matti
AU - Renko, Marjo
AU - Tapiainen, Terhi
PY - 2018/7/11
Y1 - 2018/7/11
N2 - As urinary tract infection (UTI) pathogens originate from the gut, we hypothesized that the gut environment reflected by intestinal microbiome influences the risk of UTI. Our prospective case-control study compared the intestinal microbiomes of 37 children with a febrile UTI with those of 69 healthy children. We sequenced the regions of the bacterial 16S rRNA gene and used the LefSe algorithm to calculate the size of the linear discriminant analysis (LDA) effect. We measured fecal lactoferrin and iron concentrations and quantitative PCR for Escherichia coli. At the phylum level, there were no significant differences. At the genus level, Enterobacter was more abundant in UTI patients with an LDA score > 3 (log 10), while Peptostreptococcaceae were more abundant in healthy subjects with an LDA score > 3 (log 10). In total, 20 OTUs with significantly different abundances were observed. Previous use of antimicrobials did not associate with intestinal microbiome. The relative abundance of E. coli was 1.9% in UTI patients and 0.5% in controls (95% CI of the difference—0.8 to 3.6%). The mean concentration of E.coli in quantitative PCR was 0.14 ng/μl in the patients and 0.08 ng/μl in the controls (95% CI of the difference—0.04 to 0.16). Fecal iron and lactoferrin concentrations were similar between the groups. At the family and genus level, we noted several differences in the intestinal microbiome between children with UTI and healthy children, which may imply that the gut environment is linked with the risk of UTI in children.
AB - As urinary tract infection (UTI) pathogens originate from the gut, we hypothesized that the gut environment reflected by intestinal microbiome influences the risk of UTI. Our prospective case-control study compared the intestinal microbiomes of 37 children with a febrile UTI with those of 69 healthy children. We sequenced the regions of the bacterial 16S rRNA gene and used the LefSe algorithm to calculate the size of the linear discriminant analysis (LDA) effect. We measured fecal lactoferrin and iron concentrations and quantitative PCR for Escherichia coli. At the phylum level, there were no significant differences. At the genus level, Enterobacter was more abundant in UTI patients with an LDA score > 3 (log 10), while Peptostreptococcaceae were more abundant in healthy subjects with an LDA score > 3 (log 10). In total, 20 OTUs with significantly different abundances were observed. Previous use of antimicrobials did not associate with intestinal microbiome. The relative abundance of E. coli was 1.9% in UTI patients and 0.5% in controls (95% CI of the difference—0.8 to 3.6%). The mean concentration of E.coli in quantitative PCR was 0.14 ng/μl in the patients and 0.08 ng/μl in the controls (95% CI of the difference—0.04 to 0.16). Fecal iron and lactoferrin concentrations were similar between the groups. At the family and genus level, we noted several differences in the intestinal microbiome between children with UTI and healthy children, which may imply that the gut environment is linked with the risk of UTI in children.
U2 - 10.1007/s10096-018-3322-7
DO - 10.1007/s10096-018-3322-7
M3 - Article
SN - 0934-9723
VL - 37
SP - 1881
EP - 1891
JO - European Journal of Clinical Microbiology & Infectious Diseases
JF - European Journal of Clinical Microbiology & Infectious Diseases
IS - 10
ER -