You are not logged in. | Log in

SIDRA

GXB

Clear Search
Updating...
Gene Symbol: --
Signal: --
Sample ID: --
Full Name--
Summary--
Links
Pubmed Articles --
User Notes --
Description

A Blood Transcriptional Diagnostic Assay for Septicemic Melioidosis - GSE69528

Purpose

Melioidosis, caused by Gram negative bacteria Burkholderia pseudomallei, is a major type of community-acquired septicemia in Southeast Asia and Northern Australia with high mortality and morbidity rate. More accurate and rapid diagnosis is needed for improving the management of septicemic melioidosis. We previously identified 37-gene candidate signature to distinguish septicemic melioidosis from sepsis due to other pathogens. The aims of this current study were to independently validate our previous biomarker and consolidate gene selection from each of our microarray data set for establishing a targeted assay for the differential diagnosis of melioidosis. Blood samples were collected from patients who presented with severe inflammatory response syndromes from 3 provincial hospitals in Northeast of Thailand during September 2009 and November 2011. Only culture-confirmed sepsis were included in the study (n=166). We generated a new microarray dataset comprising of 29 patients with septicemic melioidosis and 54 patients with sepsis due to other pathogens. Validation of the 37-gene signature using this new dataset demonstrated the prediction accuracy of approximately 80% for detecting type of sepsis. In order to develop a nanoliter-scale high throughput PCR technology, we further identified additional gene signature from this new microarray dataset and by revisiting our published data. Altogether 85 genes including 6 housekeeping genes were selected. Using multi-steps iteration approach we could reduce the number of biomarkers to 12 genes while the performance is comparable to that of the full panel. The high performance (accuracy >70%) of this 12-gene signature could be validated in a second independent set of samples. The 12-gene panel identified by our study provides high performance for the differential diagnosis of septicemic melioidosis. This finding will be useful for improving the management of septicemic melioidosis in term of diagnosis, treatment and follow up.

Experimental Design

Total RNA from whole blood obtained from patients with sepsis caused by B.pseudomallei (n=29) or other pathogens (n=54) and uninfected controls (28 healthy and 27 subjects with type 2 diabetes mellitus) were collected. In order to validate the published signature, microarray data were generated from these samples. This dataset was also used for an independent selection of signature for septicemic melioidosis. The same RNA samples were used for validation by a high throughput real-time PCR technique, Fluidigm.Please note that the non_normalized.txt contains background-subtracted raw data.

Experimental Variables

Septicemic Melioidosis (2021 ICD-10-CM code* = A24.1)

Methods

The data were preprocessed using R, which included the following steps: quantile normalization, flooring all intensities <10 to 10, and log2 transformation. PALO (Presence in At least One), which selects only transcripts with detection p-values < 0.01 in at least one sample, was performed to reduce background noise.

Additional Information

https://www.ncbi.nlm.nih.gov/geo/query/acc.cgi?acc=GSE69528

Platform Illumina HumanHT-12 v4
No information available.
Default files:

Signal Data File

Download Annotations for Group Set:
Download Annotations for Group:
Download Ranklist:
Additional Files:

(Uploaded through the Files tab in the Annotation Tool)

sampleset4000169_sampleannotations_mod.csv

Your email has been sent!
Advanced
Yes No
Yes No
X-axis Y-axis Both None
Yes No
Rank Lists
Group Set
Sort By
      Bar Plot Box Plot
    Overlays
      Updating...
      Your bug report has been sent!
      Sample Set Level   Dataset Level   Gene Level
      Your note has been added
      Loading...