Background: Myocardial fibrosis (MF) is an adverse correlate of severe aortic valve stenosis (SAVS). microRNA expression modulates different pathophysiological pathways in cardiovascular disease. In particular miRNA21, has been associated to MF due to pressure overload. Noninvasive estimation of MF, using speckletracking echocardiography (2DSTE), could be useful in determining early myocardial damage. Purpose: To analyze the correlation between 2DSTE parameters, MF, plasmatic and tissue miRNA21 in SAVS. Methods: We evaluated 36 consecutive patients (75.2±8 y.o., 63% F) with SAVS and preserved ejection fraction (EF), undergoing to surgical aortic valve replacement (AVR; Euroscore II 2.28±1.13%; Logistic Euroscore: 6±4.1%). Clinical, ECG, biohumoral evaluation (including plasma miRNA21) and a complete echocardiography, including 2DSTE, was performed before AVR. 28 patients eventually underwent AVR and, in 23 of them, a basal interventricular septum biopsy was performed. MF and tissue miRNA21 expression (microdissection) were evaluated in each sample. Results: All patients with SAVS (AVAi 0.33±0.1 cm2/m2; V max 4.4±0.4 m/sec; Mean Grad. 50±9 mmHg) showed concentric hypertrophy (LVMi 147±20.7 g/m2, RWT 0.51±0.07), diastolic dysfunction and increased ValvuloArterial Impedance (ZVA: 5.9±2.3 mmHg/ml/m2). Despite a preserved EF (66±11%), an altered global and septal deformation (Global longitudinal strain, GLS −13±6.1; Global longitudinal strain rate, GLSr −0.8±0.2 1/sec; Global early diastolic Sr, GLSrE 1±0.35 1/sec; Septal longitudinal strain, SLS −8.6±2.8%; SLSr −0,6±0.1 1/sec; SLSrE 0.6±0.29 1/sec) were observed. We found a significant association between MF and 2DSTE parameters, stroke volume and enddiastolic pressure (all p<0.05). Tissue miRNA21 was mainly expressed in fibrous tissue than in myocardium (p<0.0001). Myocardial miRNA21 was associated with AVAi (r=0.46; p=0.043) and cardiac index (r=0.5; p=0.02) while fibrous tissue miRNA21 was associated to GLS (r=0.8; p=0.0003), GLSrE (r=−0.72; p=0.005), SLS (r=0.6; p=0.01), SLSr (r=0.54; p=0.03), SLSrE (r=0.5; p=0.04) and PAPs (r=0.66; p=0.004). Plasma miRNA21 was associated to MF (r=0.5; p=0.02) and septal longitudinal strain (r=0.38; p=0.037). Conclusions: In SAVS with preserved EF, MF is associated to impaired myocardial deformation. miRNA21 has a potential pathophysiological role in fibrogenesis. Noninvasive evaluation of plasmatic miRNA21 and 2DSTE could be useful in risk stratification, to optimize the timing of surgery in SAVS patients.
Circulating endothelial progenitor cells are actively involved in the reparative mechanisms of stable ischemic myocardium
Doralisa Morrone;F. Felice;C. Scatena;Andrea De Martino;R. Di Stefano;G. Bevilacqua;U. Bortolotti;A. G. Naccarato;A. Balbarini
2015-01-01
Abstract
Background: Myocardial fibrosis (MF) is an adverse correlate of severe aortic valve stenosis (SAVS). microRNA expression modulates different pathophysiological pathways in cardiovascular disease. In particular miRNA21, has been associated to MF due to pressure overload. Noninvasive estimation of MF, using speckletracking echocardiography (2DSTE), could be useful in determining early myocardial damage. Purpose: To analyze the correlation between 2DSTE parameters, MF, plasmatic and tissue miRNA21 in SAVS. Methods: We evaluated 36 consecutive patients (75.2±8 y.o., 63% F) with SAVS and preserved ejection fraction (EF), undergoing to surgical aortic valve replacement (AVR; Euroscore II 2.28±1.13%; Logistic Euroscore: 6±4.1%). Clinical, ECG, biohumoral evaluation (including plasma miRNA21) and a complete echocardiography, including 2DSTE, was performed before AVR. 28 patients eventually underwent AVR and, in 23 of them, a basal interventricular septum biopsy was performed. MF and tissue miRNA21 expression (microdissection) were evaluated in each sample. Results: All patients with SAVS (AVAi 0.33±0.1 cm2/m2; V max 4.4±0.4 m/sec; Mean Grad. 50±9 mmHg) showed concentric hypertrophy (LVMi 147±20.7 g/m2, RWT 0.51±0.07), diastolic dysfunction and increased ValvuloArterial Impedance (ZVA: 5.9±2.3 mmHg/ml/m2). Despite a preserved EF (66±11%), an altered global and septal deformation (Global longitudinal strain, GLS −13±6.1; Global longitudinal strain rate, GLSr −0.8±0.2 1/sec; Global early diastolic Sr, GLSrE 1±0.35 1/sec; Septal longitudinal strain, SLS −8.6±2.8%; SLSr −0,6±0.1 1/sec; SLSrE 0.6±0.29 1/sec) were observed. We found a significant association between MF and 2DSTE parameters, stroke volume and enddiastolic pressure (all p<0.05). Tissue miRNA21 was mainly expressed in fibrous tissue than in myocardium (p<0.0001). Myocardial miRNA21 was associated with AVAi (r=0.46; p=0.043) and cardiac index (r=0.5; p=0.02) while fibrous tissue miRNA21 was associated to GLS (r=0.8; p=0.0003), GLSrE (r=−0.72; p=0.005), SLS (r=0.6; p=0.01), SLSr (r=0.54; p=0.03), SLSrE (r=0.5; p=0.04) and PAPs (r=0.66; p=0.004). Plasma miRNA21 was associated to MF (r=0.5; p=0.02) and septal longitudinal strain (r=0.38; p=0.037). Conclusions: In SAVS with preserved EF, MF is associated to impaired myocardial deformation. miRNA21 has a potential pathophysiological role in fibrogenesis. Noninvasive evaluation of plasmatic miRNA21 and 2DSTE could be useful in risk stratification, to optimize the timing of surgery in SAVS patients.| File | Dimensione | Formato | |
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