RV function by cardiac magnetic resonance and its relationship with neutrophil/lymphocyte ratio in patients with acute inferior STEMI undergoing PPCI
Abstract Funding Acknowledgements Type of funding sources: None. Background Although acute inferior myocardial infarction (MI) is usually regarded as being lower risk compared with acute anterior MI, right ventricular (RV) myocardial involvement (RVMI) carries an increased risk of cardiovascular (CV) morbidity and mortality in patients with inferior MI.Cardiac Magnetic resonance (CMR) is ideal for assessing the RV because it allows a comprehensive assessment of cardiovascular morphology and physiology without most of the limitations that hinder alternative imaging modalities. Objectives To evaluate the sensitivity of other parameters;the neutrophil/ lymphocyte ratio (NLR) and RV function using 2D speckle tracking echo compared to (CMR) among patients with inferior STEMI undergoing primary percutaneous coronary intervention (PPCI). Methodology 40 Patients with inferior MI who had PPCI were included in the study; two groups were highlighted according to the CMR derived RVEF RV dysfunction (RVD and non-RVD). NLR and 2D speckle tracking echo were done in comparison to RVEF. Results out of the 40 patients, 18 (45%) patients had RVD. ST segment elevation in the right leads was significantly higher (P-value =0.03) in patients with RV dysfunction (55.6%) in comparison with patients (22.7%) who had no RV dysfunction.When comparing groups according to the complications, heart block was significantly higher in patients with RV dysfunction (P-value= 0.008) as it occurred in 5 (27.8%) patients.Echocardiography was done for all patients, and it was found that fractional area change (FAC) in the RV dysfunction group appeared to be significantly reduced compared to the group without RV dysfunction (P-value =0.03). RV longitudinal strain (LS) by speckle tracking echo was reduced with an average of -19.5 ±3.9 % in the RV dysfunction group P value 0.008.Both CMR- derived RV SV, and EF were lower among the RV dysfunction group, (26.8 ± 15.8) ml and (35.4 ± 6.9) % respectively, with large RV systolic volume, with the highly statistically significant difference in comparison to the other group (p value = 0.000). Mean N/L ratio was higher (7.3 ± 5.2 (10^3/uL)) in the group with RV dysfunction compared to (6.4 ± 4.1(10^3/uL)) in the group with non RV dysfunction group. N/L ratio for predicting RV dysfunction by CMR had a cutoff value of >7.7 with low sensitivity (38.89%) and high specificity (77.27 %), while LS for predicting RV dysfunction by CMR had both high sensitivity (83.33%) and high specificity (63.64%) with P-value =0.005. Conclusion Our results showed that RV dysfunction in inferior MI is better detected using cardiac magnetic resonance imaging. In inferior STEMI patients who underwent primary PCI, NLR has low sensitivity but high specificity for predicting RVD when measured by cardiac MRI.