Abstract
Background: A large number of bacterial species have been identified in fetal membranes after preterm labour associated with intrauterine infection by microbiological culture. In this study we have investigated a molecular and bioinformatic approach to organism identification which surmounts the need for specific and diverse microbiological culture conditions required by conventional methods.
Methods: Samples of fetal membranes were taken from 37 preterm infants, and 6 normal term controls delivered by Caesarean section, in which bacteria had been detected by in situ hybridisation of 16S ribosomal RNA using a generic probe. Degenerate primers were designed to amplify bacterial 16S ribosomal DNA by polymerase chain reaction and used to amplify bacterial DNA from human fetal membranes. Amplicons were cloned, sequenced and bacteria identified bioinformatically by comparison of sequences with known bacterial DNA genomes. In situ hybridisation using an organism specific probe was then used to confirm the presence of the commonest identified organism in tissue samples.
Results: Bacterial DNA amplified from 15/43 samples, all from preterm deliveries, and the bioinformatic approach identified organisms in all cases. Multiple bacteria were identified including Mycoplasma hominis, Pasturella multocida, Pseudomonas PH1, Eschericia coli, Prevotella bivia, but not Lactobacillus or other vaginal commensals, arguing against contamination by vaginal organisms. The commonest organism Fusobacterium nucleatum was found in 9/15 (60%) of samples. 10 of the 12 samples obtained after prolonged membrane rupture were positive for bacterial DNA, and 7 of these (70%) contained DNA from Fusobacterium nucleatum. PCR positive tissues were re-probed with Fusobacterium-specific antisense oligonucleotide, and Fusobacteria were visualised in PCR positive fetal membranes.
Conclusions: Bacteria from fetal membranes may be reliably identified by molecular and bioinformatic methods. Further work is warranted to investigate the apparent linkage between Fusobacterium nucleatum, fetal membrane rupture and preterm delivery.
Article PDF
Author information
Authors and Affiliations
Rights and permissions
About this article
Cite this article
Tan, S., Cahill, R., Dougan, G. et al. 371 Molecular and Bioinformatic Detection of Bacterial Infection in Preterm Delivery. Pediatr Res 58, 418 (2005). https://doi.org/10.1203/00006450-200508000-00400
Issue Date:
DOI: https://doi.org/10.1203/00006450-200508000-00400