Surgical outcome of endoventricular circular patch plasty repair for postinfarction myocardial scar relates to the extent of LV asynergy rather than to the presence or absence of dyskinesia. Patients with a large akinetic scar and severely depressed pump function benefit from a relatively simple surgical procedure previously reserved only for dyskinetic aneurysm. The reduction of wall tension and oxygen demand, owing to the marked decrease of volumes, and the increase in oxygen supply, owing to revascularization, may play a major role in improving pump function.
The aim of this work was to investigate the effects of resecting a post-infarction left ventricular anterior aneurysm on the kinetics of the non-ischaemic inferior wall, remote from the healed lesion. Thirteen patients, with an anterior post-infarction aneurysm and a normal right coronary artery who underwent aneurysmectomy with endoventricular circular patch plasty reconstruction, had a complete haemodynamic study before and shortly after surgery. The shape of the left ventricle was quantitatively analysed by calculating the regional curvature at 90 points of the angiographic outlines (30 degrees right anterior oblique projection). Segmental wall motion was studied by means of the centreline method and by constructing pressure-length loops from the endocardial movement of 18 chords intersecting the left ventricular inferior contour and by simultaneously tracing the high-fidelity left ventricular pressure. Analysis of pressure-length regional loops showed a complex pattern of abnormal contraction and relaxation in the non-ischaemic inferior regions at baseline; after surgery such abnormalities decreased significantly and tended to revert to normal in many cases. Left ventricular shape in the inferior region was abnormal in 10/13 patients in that there was negative curvature at the interface between the aneurysm and the inferior wall that was corrected to positive after surgery. Regional inferior wall motion and global ejection fraction significantly improved after surgery in these 10 patients. The three patients whose global ejection fraction did not improve showed no inferior negative curvature pre-operatively, nor did they show an increase in inferior wall motion. The results indicate that regional function and shape in inferior, non-ischaemic regions, remote from an anterior aneurysm, are abnormal but potentially correctible if the abnormal mechanical burden imposed on the wall is relieved.
Background-In ischemic cardiomyopathy, dyssynchrony of left ventricular (LV) mechanical contraction produces adverse hemodynamic consequences. This study tests the capacity of geometric rebuilding by surgical ventricular restoration (SVR) to restore a more synchronous contractile pattern after a mechanical, rather than electrical, intervention. Methods and Results-A prospective study of the global and regional components of dyssynchrony was conducted in 30 patients (58Ϯ8 years of age) undergoing SVR at the Cardiothoracic Center of Monaco. The protocol used simultaneous measurements of ventricular volumes and pressure to construct pressure/volume (P/V) and pressure/length (P/L) loops. Angiograms were done before and after SVR to study a 600-ms cycle during atrial pacing at 100 bpm. Mean QRS duration was similar, at 100Ϯ17 ms preoperatively and 114Ϯ28 ms postoperatively (NS). Preoperative LV contraction was highly asynchronous, because P/V loops showed abnormal isometric phases with a right shifting. Endocardial time motion was either early or delayed at the end-systolic phase so that P/L loops were markedly abnormal in size, shape, and orientation. Postoperatively, SVR resulted in leftward shifting of P/V loops and increased area; endocardial time motion and P/L loops almost normalized to allow a better contribution of single regions to global ejection. The hemodynamic consequences of SVR were improved ejection fraction (30Ϯ13% to 45Ϯ12%; Pϭ0.001); reduced end-diastolic and end-systolic volume index (202Ϯ76 to 122Ϯ48 and 144Ϯ69 to 69Ϯ40 mL/m
Aneurysmectomy with left ventricular (LV) patch plasty reconstruction for anterior post-infarction LV aneurysm is usually followed by favourable haemodynamic results. The aim of this work was to describe the changes in LV shape induced by the intervention and to correlate them to the pre-operative data and to the surgical results. Twenty-two patients submitted to aneurysmectomy with this technique underwent a haemodynamic study before and 10-15 days after the intervention. Segmental wall motion was studied by the centreline method. LV shape was analysed by calculating the regional curvature of angiographic outlines (RAO 30 degrees projection). Results showed an improvement in LV pump function in 17 patients, which appeared mainly due to increased systolic shortening of the inferior wall. The intervention-induced modifications of LV geometry were characterized by: (1) marked reduction in end-diastolic volume, (2) shift of the angiographic apex counterclockwise, towards the aortic corner, (3) disappearance of the rim with negative curvature corresponding to the infero-apical border of the aneurysm, where the inferior wall resumed a normal outward convexity. No significant difference was found between the pre-operative haemodynamic data of patients who improved after surgery and those who did not. The presence of a rim of negative curvature at the infero-apical border of the aneurysm was the only pre-operative sign with a predictive value for the surgical outcome.
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