Heart : official journal of the British Cardiac Society
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Exercise training fosters the health and performance of the cardiovascular system, and represents nowadays a powerful tool for cardiovascular therapy. Exercise exerts its beneficial effects through reducing cardiovascular risk factors, and directly affecting the cellular and molecular remodelling of the heart. Traditionally, moderate endurance exercise training has been viewed to determine a balanced and revertible physiological growth, through cardiomyocyte hypertrophy accompanied by appropriate neoangiogenesis (the Athlete's Heart). ⋯ Recently, it has been shown that physical exercise determines cardiac growth also through new cardiomyocyte formation. Accordingly, burgeoning evidence indicates that exercise training activates circulating, as well as resident tissue-specific cardiac, stem/progenitor cells. Dissecting the mechanisms for stem/progenitor cell activation with exercise will be instrumental to devise new effective therapies, encompassing myocardial regeneration for a large spectrum of cardiovascular diseases.
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The decision to repair mild-to-moderate functional tricuspid regurgitation (TR) during left-side heart surgery remains controversial. Objectives To avoid heterogeneity in patient population, patients with TR undergoing isolated mechanical mitral valve (MV) replacement for rheumatic mitral diseases were evaluated. ⋯ These findings support the strategy of correcting mild-to-moderate functional TR at the time of MV replacement to maintain TV function and improve clinical outcomes.
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High molecular weight von Willebrand factor (vWF) multimers (HMWM) are often deficient in patients with severe aortic stenosis (AS) owing to shear stress-enhanced proteolysis of vWF. It has also been reported that AS is associated with increased activation of blood coagulation. ⋯ Patients with advanced AS deficient in vWF HMWM are characterised by enhanced thrombin formation and platelet activation. This observation indicates the ambivalent impact of high shear stress in AS on haemostasis and might help explain two aspects of AS-Heyde syndrome and increased risk of thromboembolism.