Novel cfDNA Methylation Biomarkers Reveal Delayed Cardiac Cell Death after Open-heart Surgery.
Uri PollakHai ZemmourElior ShakedJudith MagenheimOri FridlichAmit KorachAlain E SerrafDavid MishalyBenjamin GlaserRuth ShemerYuval DorPublished in: Journal of cardiovascular translational research (2022)
The use of cardiopulmonary bypass (CPB) is thought to cause delayed cardiac damage. DNA methylation-based liquid biopsies are novel biomarkers for monitoring acute cardiac cell death. We assessed cell-free DNA molecules as markers for cardiac damage after open-heart surgery. Novel cardiomyocyte-specific DNA methylation markers were applied to measure cardiac cfDNA in the plasma of 42 infants who underwent open-heart surgery. Cardiac cfDNA was elevated following surgery, reflecting direct surgery-related tissue damage, and declined thereafter in most patients. The concentration of cardiac cfDNA post-surgery correlated with the duration of CPB and aortic cross clamping. Strikingly, cardiac cfDNA at 6 h predicted duration of mechanical ventilation and maximal vasoactive-inotropic score better than did maximal troponin levels. Cardiac cfDNA reveals heart damage associated with CPB, and can be used to monitor cardiac cell death, to predict clinical outcome of surgery and to assess performance of cardioprotective interventions.
Keyphrases
- minimally invasive
- left ventricular
- cell death
- coronary artery bypass
- dna methylation
- heart failure
- mechanical ventilation
- surgical site infection
- oxidative stress
- gene expression
- genome wide
- blood pressure
- aortic valve
- newly diagnosed
- ejection fraction
- hepatitis b virus
- coronary artery
- endothelial cells
- body composition