Sepsis Clinical Trial
Official title:
Detecting Neonatal Sepsis by Immune-Metabolic Network Analysis
Diagnosis of neonatal sepsis remains a challenge due to non-specific signs and diagnostic
inaccuracies. Studies have shown that this could lead to overdiagnosis and overuse of
antibiotic treatment, with potential long-term adverse effects.
A systems approach towards diagnosing neonatal sepsis has been shown to have high accuracy in
initial studies. This study aims to recruit a large validation cohort to confirm findings.
Several studies have shown that changes in host gene expression may occur pre-
symptomatically in response to infection in any part of the body, with the continuous
interaction between blood and tissue allowing blood cells to act as biosensors for the
changes (Manger and Relman, 2000, Liew et al., 2006). Genome wide analysis reveals coordinate
expression that develop networks causally linked through pathways.
Earlier studies from our group investigating optimal methods for the sampling and extraction
of neonatal whole transcription products (RNA) demonstrated the first feasibility studies for
using genome wide RNA analysis as a methodological approach for identifying host biomarkers
of infection and vaccination in early life (Smith et al., 2007, Flanagan et al., 2013). The
sampling methods were further refined in 2015 with the development of a single drop
methodology that has been extensively tested in a wide range of settings including the
collection of neonatal samples in the home, at the point of Guthrie testing by mid-wives.
Details of these methods have been recently submitted to the Nature Protocols journal.
Further, we conducted early on virtual clinical trials using a super computing framework that
simulated several 100,000 neonatal whole blood samples for predicting infection (Khondoker et
al., 2010). Those investigations showed the requirement for multiple markers and ideally in
discrete biological pathways underpinning causality (Khondoker et al., 2010, Watterson and
Ghazal, 2010). Those investigations provided a strong foundation for initiating a
case-control of neonatal sepsis (Dickinson et al., 2015). Accordingly, we were the first
group to publish studies investigating the systemic immune response in neonates to sepsis by
measuring the activity of all known human genes (Smith et al Nature comm. 2014). These
computationally intensive investigations led to uncovering, for the first time, the pathway
biology underlying neonatal sepsis with blood samples taken at the first clinical signs of
suspecting an infection. A combination of machine learning, statistical and deep pathway
biology analyses led to the identification of a 52-gene panel of biologically connected
network modules. The modules comprise three central pathways, innate-immune or inflammatory,
adaptive-immune and unexpectedly metabolic. The expression levels of particular combinations
of biomarkers, and specifically those of a pathway previously unconnected to immune
responses, gives an unusually high diagnostic quality. Despite patient heterogeneity, the
52-node dual biomarker network had greater than 99% accuracy for detecting bacterial
infection with 100% sensitivity showing superior performance to previously characterised
markers. Furthermore, these specific combinations of biomarkers allowed the detection of
neonatal sepsis in samples which had displayed blood-culture negative results, illustrating
the specific diagnostic benefits of the particular combinations of biomarkers. The
unexpectedly high accuracy and sensitivity values could not have resulted from the
investigation of any of the individual biomarkers alone, nor could they have been predicted.
A critical part of these findings is the requirement of metabolic pathways for increasing
both sensitivity and specificity. A subset of the metabolic markers encompass ligands
(specifically small and medium chain fatty acids) that are derived from microbial metabolism,
in particular from commensals and which are reflected in the faecal microbiome. To date these
studies provide a proof of concept but need independent confirmatory studies as well as
investigating specificity against non-bacterial (viral and fungal) infections and sterile
inflammation. The urgent unmet medical question is whether predictive host pathways of
infection can be used to first identify whether a patient is infected at or before clinical
presentation and, to further discriminate between the type of infection (in particular
bacterial or viral) and predictability of sepsis.
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