Biomarker-Guided Risk Stratification in Pulmonary Embolism: Troponin, BNP and Beyond
This review outlines how cardiac troponins (including high-sensitivity generations), natriuretic peptides, and heart-type fatty acid-binding protein should be integrated into risk stratification algorithms for pulmonary embolism alongside clinical scores like PESI/sPESI. The authors emphasise that biomarker-based refinement identifies both high-risk patients who may need rescue reperfusion and low-risk patients who qualify for early discharge, while noting emerging novel biomarkers that require further validation.
The original study
Biomarkers for Clinical Decision-Making in the Management of Pulmonary Embolism.
- Authors
- Giannitsis E, Katus HA
- Journal
- Clinical chemistry
- Type
- Journal Article, Review
- PMID
- 27760781
Original abstract
BACKGROUND: Pulmonary embolism (PE) is associated with high all-cause and PE-related mortality and requires individualized management. After confirmation of PE, a refined risk stratification is particularly warranted among normotensive patients. Previous prognostic models favored combinations of echocardiography or computed tomography suggestive of right ventricular (RV) dysfunction together with biomarkers of RV dysfunction (natriuretic peptides) or myocardial injury (cardiac troponins) to identify candidates for thrombolysis or embolectomy. In contrast, current predictive models using clinical scores such as the Pulmonary Embolism Severity Index (PESI) or its simplified version (sPESI) rather seek to identify patients, not only those at higher risk requiring observation for early detection of hemodynamic decompensation, and the need for initiation of rescue reperfusion therapy, but also those at low risk qualifying for early discharge and outpatient treatment. Almost all prediction models advocate the additional measurement of biomarkers along with imaging of RV dysfunction as part of a comprehensive algorithm. CONTENT: The following mini-review will provide an updated overview on the individual components of different algorithms with a particular focus on guideline-recommended and new, less-established biomarkers for risk stratification, and how biomarkers should be implemented and interpreted. SUMMARY: Ideally, biomarkers should be part of a comprehensive risk stratification algorithm used together with clinical risk scores as a basis, and/or imaging. For this purpose, cardiac troponins, including high-sensitivity troponin generations, natriuretic peptides, and h-FABP (heart-type fatty acid-binding protein) are currently recommended in guidelines. There is emerging evidence for several novel biomarkers that require further validation before being applied in clinical practice.