Italian heart journal : official journal of the Italian Federation of Cardiology
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Case Reports
Percutaneous treatment of the left main coronary artery ostial obstruction following aortic valve replacement.
Iatrogenic left main coronary artery ostial stenosis is a rare and late life-threatening complication of aortic valve replacement. The exact causes of this critical condition, despite being still nowadays elusive, are possibly related to the insertion of perfusion catheters into the left coronary system for cardioplegia delivery. ⋯ A second coronary angiography revealed a severe left main ostial stem stenosis, which was successfully treated by sirolimus-eluting stent deployment. This case demonstrates a new percutaneous approach of this poorly understood, yet potentially fatal complication following aortic valve replacement.
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Several retrospective studies comparing off-pump and on-pump coronary surgery and the largest randomized studies published to date showed a lower number of grafts performed in patients submitted to off-pump coronary artery bypass surgery (OPCAB). These findings bring about the question of the general applicability of the results. We eliminated the selection bias correlated with the number of grafts per patient by comparing the short-term outcomes of patients undergoing OPCAB and standard coronary artery bypass grafting (CABG) matched for number of grafts. ⋯ We were unable to demonstrate any significant differences in short-term mortality or morbidity outcome between OPCAB and standard CABG patients Our findings suggest that excellent results can be obtained with both surgical approaches.
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Cardiac resynchronization therapy (CRT) is useful for the treatment of severe congestive heart failure. Unfortunately up to 30% of patients could be non-responders. The aim of our study was to find parameters to predict responsiveness to CRT. ⋯ In the literature a tissue Doppler imaging index of intraventricular dyssynchrony evaluated before implantation is used to select responders to CRT. In our work we studied interventricular and intraventricular dyssynchrony, and both the QSm-QSt time and the standard deviation of the 12 LV segment QS time were correctly able to identify responders.