Wall motion of noninfarcted myocardium. Relationship to regional and global systolic function and to early and late left ventricular dilation.

We studied the wall motion of the noninfarcted area and its role in left ventricular remodeling. The study group consisted of 43 patients with a first Q-wave acute myocardial infarction and single-vessel disease. Cardiac catheterization was performed at the first week, and was repeated six months later. Left ventricular volumes, wall motion at the infarcted and noninfarcted area, ejection fraction and infarction-related artery status were quantified. Hyperkinesia was only found at the first week in 22% of cases, and at the sixth month in 26% of cases. Wall motion at the noninfarcted area correlated with wall motion at the infarcted area (one week: r=0.53 p<0.0001; six months: r=0.52 p=0.01), ejection fraction (one week: r=0.69 p<0.0001; six months: r=0.56 p=0.006), end-diastolic volume (one week: r=-0.48 p=0.002; six months: r=-0.48 p=0.02) and end-systolic volume (one week: r=-0.70 p<0.0001; six months: r=-0.64 p=0.001). The improvement of the noninfarcted area (from the first week to the sixth month) was only related to basal (one week) wall motion in this area (r=-0.58 p=0.003). We conclude that after an intermediate-large infarction, most patients exhibit a normal or hypokinetic noninfarcted area. Patients with a more depressed infarcted area show poorer contractility at the noninfarcted area. area exhibit greater progressive improvement.

Predictors of early and late ventricular remodeling after acute myocardial infarction.

BACKGROUND: The determinants of the early and late stages of the ventricular remodeling process after infarction are not well defined. HYPOTHESIS: The study was undertaken to evaluate the factors that condition the time course of left ventricular dilation during the first 6 months after infarction. METHODS: The study group consisted of 74 patients with a first intermediate-large (> or = 4 Q waves) acute myocardial infarction. Contrast left ventricular and coronary angiograms were performed at 7 +/- 1 and 175 +/- 25 days after infarction. Left ventricular volumes, regional function and infarction artery status were quantified. Percutaneous transluminal coronary angioplasty (PTCA) was performed in the early angiogram in 31 patients. RESULTS: In the early angiogram, 13 patients showed ventricular remodeling (end-diastolic volume > 90 ml/m2). A larger extent of dysfunction was the only predictor (p < 0.002) of early remodeling. At 6 months, a smaller, early end-diastolic volume (p < 0.0001) and a poorer regional function recovery (p < 0.05) were independently related to late diastolic enlargement, and a poorer regional function recovery (p < 0.0001) and a smaller, early end-systolic volume (p < 0.009) were independently related to late systolic enlargement. One patient with compared with 20 patients without early remodeling (p < 0.04) presented with late remodeling (increment of the end-diastolic volume > 20% at 6 months). In patients with early remodeling, the end-diastolic volume did not change significantly (101 +/- 13 vs. 94 +/- 22 ml/m2, NS) at 6 months; despite this, they maintained larger diastolic volumes than patients with late remodeling (81 +/- 12 ml/m2, p < 0.04) at 6 months. Infarction artery status did not influence the evolution of ventricular volumes and regional function. CONCLUSIONS: (1) A large infarct size is the main determinant of postinfarction remodeling. (2) Such infarct size-dependent ventricular dilation occurs early and does not tend to increase in late stage; in contrast, some cases of intermediate-large size infarcts without early remodeling exhibit late remodeling associated with a poor late recovery of regional function. (3) Recovery of regional function (indicating myocardial viability) rather than infarction artery status plays a role in the late ventricular remodeling process.

Function of atrioventricular node conduction: hyperbolic model.

Twenty four patients were subjected to an electrophysiologic clinical procedure. The conventional extrastimulus test was applied to verify the relation between conduction time increase through the atrioventricular node of the extrastimulus beat (delta AH), and its preceding interval (A1A2). Following the least square root method the parameters of the hyperbolic model delta AH.A1A2 = m . delta AH + n were adjusted. The correlation coefficients obtained and tested in all cases were very high and significant. From this hyperbolic equation it was possible to determine the equations for the effective refractory period (ERPe = m) and functional refractory period (FRPe = ERPe + n). The theoretical values for refractoriness approached very closely those of the actually measured ERP and FRP, in all cases. This model proved to be, in respect to adjustments and especially in calculating refractory periods, at least as good as the exponential model proposed previously by other authors.