Utility of Novel Plasma Metabolic Markers in the Diagnosis of Pediatric Tuberculosis: A Classification and Regression Tree Analysis Approach

Although tuberculosis (TB) has been the greatest killer due to a single infectious disease, pediatric TB is still hard to diagnose because of the lack of sensitive biomarkers. Metabolomics is increasingly being applied in infectious diseases. But little is known regarding metabolic biomarkers in chi...

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Published inJournal of proteome research Vol. 15; no. 9; pp. 3118 - 3125
Main Authors Sun, Lin, Li, Jie-qiong, Ren, Na, Qi, Hui, Dong, Fang, Xiao, Jing, Xu, Fang, Jiao, Wei-wei, Shen, Chen, Song, Wen-qi, Shen, A-dong
Format Journal Article
LanguageEnglish
Published United States American Chemical Society 02.09.2016
Subjects
Betaine - analysis
Biomarkers - blood
Case-Control Studies
Child
Discriminant Analysis
Humans
Magnetic Resonance Spectroscopy
Metabolome
Metabolomics - methods
Plasma - metabolism
Pyruvic Acid - analysis
Sensitivity and Specificity
Tuberculosis - diagnosis
Valine - analysis
diagnosis
NMR
plasma
metabolomics
children
tuberculosis
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Summary:Although tuberculosis (TB) has been the greatest killer due to a single infectious disease, pediatric TB is still hard to diagnose because of the lack of sensitive biomarkers. Metabolomics is increasingly being applied in infectious diseases. But little is known regarding metabolic biomarkers in children with TB. A combination of a NMR-based plasma metabolic method and classification and regression tree (CART) analysis was used to provide a broader range of applications in TB diagnosis in our study. Plasma samples obtained from 28 active TB children and 37 non-TB controls (including 21 RTIs and 16 healthy children) were analyzed by an orthogonal partial least-squares discriminant analysis (OPLS-DA) model, and 17 metabolites were identified that can separate children with TB from non-TB controls. CART analysis was then used to choose 3 of the markers, l-valine, pyruvic acid, and betaine, with the least error. The sensitivity, specificity, and area under the curve (AUC) of the 3 metabolites is 85.7% (24/28, 95% CI, 66.4%, 95.3%), 94.6% (35/37, 95% CI, 80.5%, 99.1%), and 0.984­(95% CI, 0.917, 1.000), respectively. The 3 metabolites demonstrated sensitivity of 82.4% (14/17, 95% CI, 55.8%, 95.3%) and specificity of 83.9% (26/31, 95% CI, 65.5%, 93.9%), respectively, in 48 blinded subjects in an independent cohort. Taken together, the novel plasma metabolites are potentially useful for diagnosis of pediatric TB and would provide insights into the disease mechanism.
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ISSN:1535-3893
1535-3907
DOI:10.1021/acs.jproteome.6b00228