miR-23a-3p
rnamiR-23a-3p is dysregulated during acute MI, modulating cardiomyocyte oxidative stress and predicting post-MI heart failure.
Pathway placement
Cascade stepMyocardial injury (shared endpoint)
Confidencemedium
RationaleEarly ACS detection; regulates oxidative stress (SOD2); heart failure biomarker.
Also acts inVascular inflammation
Druggability
Not assessed (no mapped human gene target).
Type I vs Type II discrimination
ScoresLow-confidence (proxy)
R — rupture / Type-I26
C — confounder / Type-II49
A — assay feasibility50
E — evidence strength19
T1DI (composite)4
Specificity differential (R−C)-23.3
Confounder panel (Type-II drivers)
No confounder evidence retrieved.
Tier: light (literature co-occurrence proxy — lower confidence). See the discrimination table for all markers.
Assay & specimen
Class-level default (no specific cleared assay)— generic method inferred from analyte class; confirm against a specific product insert before use.
Specimen
Whole blood or cell-free plasma
Collection tube
PAXgene/Tempus RNA tube · K2/K3-EDTA (lavender-top)
Method / principle
RT-qPCR (TaqMan) or small-RNA sequencing
Reagent / substrate
Target-specific primers/probe; reverse transcriptase (miRNA: stem-loop RT primer)
Platform
qPCR instrument / NGS
Turnaround · availability
Research / send-out · Research (few LDTs)
Literature evidence(2)
- Discriminatory power of a circulating multi-noncoding RNA panel in acute coronary syndrome subtypes: Towards precision detection.The international journal of biochemistry & cell biology · 2024 · PMID 38280541 · doi
- MicroRNAs regulating superoxide dismutase 2 are new circulating biomarkers of heart failure.Scientific reports · 2017 · PMID 29116107 · doi