Oleic acid
lipidOleic acid dysregulation in ACS-HTN reflects aberrant lipid metabolism and metabolic comorbidity-specific signatures in acute myocardial injury.
Pathway placement
Cascade stepLipid retention & oxidation
Confidencelow
RationaleMonounsaturated fatty acid; upregulated in ACS-HTN; reflects lipid metabolism dysregulation.
Also acts inSystemic / off-pathway
Druggability
Not assessed (no mapped human gene target).
Type I vs Type II discrimination
ScoresLow-confidence (proxy)
R — rupture / Type-I59
C — confounder / Type-II86
A — assay feasibility40
E — evidence strength32
T1DI (composite)5
Specificity differential (R−C)-27.6
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
Serum or plasma (EDTA to limit oxidation)
Collection tube
K2/K3-EDTA (lavender-top) · Serum separator (gold/red-top, SST)
Method / principle
LC-MS/MS lipidomics (targeted or shotgun)
Reagent / substrate
Deuterated lipid-class internal standards; MS/MS transitions
Platform
LC-MS/MS
Turnaround · availability
Research · Research-only
Literature evidence(2)
- GC-MS validation and analysis of targeted plasma metabolites related to carbonyl stress in type 2 diabetes mellitus patients with and without acute coronary syndrome.Biomedical chromatography : BMC · 2024 · PMID 38966927 · doi
- The impact of hypertension for metabolites in patients with acute coronary syndrome.Annals of translational medicine · 2023 · PMID 36819519 · doi