Table 1.
Overview of omics technologies: summary of strengths, limitations and clinical utility for each technology
| Omics | Strengths | Limitations | Clinical utility |
|---|---|---|---|
| Genomics | |||
| SNP | • Unbiased approach when using GWAS | • Difficult to find functional and structural gene variants | • Theragnostic approach |
| • Cost-effective large-scale genetic screening | • Only regulatory or coding regions are included | • Risk stratification | |
| • Well-established analysis tools | • Tissue-specific alterations | ||
| Epigenetics | • Unbiased approach when using epigenome-wide association studies | • Different composition of cell types during sepsis | • Epigenetic signatures for sepsis diagnosis and/or prognosis |
| • Can elucidate the interplay between genetic and environmental factors | • Frequency of epigenetic changes not known | • Prediction of therapeutic response | |
| • Reverse causation | |||
| Transcriptomics | |||
| Expression profiling | • Can generate global view transcriptome alterations | • Tissue-specific expression of genes | • mRNA expression signatures for sepsis diagnosis and/or prognosis |
| • Provide good coverage of genome | • Fails to measure low-expression genes with good sensitivity | • Prediction of therapeutic response | |
| • Can elucidate alterations in signal transduction pathways during sepsis | |||
| High-throughput gene sequencing (for example, RNA-seq) | • Comprehensive sequence information | • Tissue-specific expression of genes | • No clinical utility |
| • Unbiased approach | |||
| • Estimates abundance of genes in term of copies | |||
| miRNA | • Stable in blood | • Functions not completely understood | • Novel diagnostic and/or prognostic biomarkers in sepsis. |
| • Suggestive evidence that miRNAs play an important role in regulation of networks | • Necessary for correctly interpretation of gene expression | ||
| • The inclusion of miRNA when interpreting mRNA expression | |||
| Proteomics | • Provides global or unbiased alteration | • Needs large amount of preprocessing or fractions | • Novel diagnostic and/or prognostic biomarkers in sepsis |
| • Highly sensitive | • Current instruments unable to measure all proteins from complex biological fluids | • Prediction of therapeutic response | |
| • No need for antibody-based technologies for measuring proteins | • Inefficient quantification of low expression proteins | ||
| Metabolomics | • Relatively few targets | • Difficulty in identifying small molecules | • Novel diagnostic and/or prognostic biomarkers in sepsis |
| • Good translation to existing laboratory technology | • Diverse physical and chemical properties and thus no single extraction tool | • Prediction of therapeutic response | |
| • Disease progression |
GWAS, genome-wide association studies.