The results of anemia correction by recombinant human erythropoietin (rHuEPO) therapy with regard to cardiac function and left ventricular hypertrophy in dialysis patients are controversially discussed. The aim of the study was to assess the effects of therapy rHuEPO on cardiac morphology and function in dialysis patients. We studied 11 clinically stable hemodialysis patients with severe renal anemia (hematocrit <27%) and increased left ventricular mass index (LVMi) with no history of coronary or valvular heart disease, systemic disease, severe hyperparathyroidism, hypertension stage 2 or higher, transfusion-dependent anemia, and concurrent rHuEPO treatment. The patients were treated with rHuEPO administered subcutaneously once or twice weekly at a mean dose of 80 ± 31 IU/kg week until the hematocrit was >30% and underwent a complete Doppler echocardiographic study at baseline and at follow-up (after 12.2 ± 2.9 months). At follow-up, ejection fraction and fractional shortening significantly increased from 62.7 ± 13.8 to 67.8 ± 9.7% (p < 0.05) and from 35.5 ± 9.8 to 39.4 ± 7.1% (p < 0.05), respectively, whereas mean velocity of circumferential fiber shortening demonstrated a trend towards amelioration from 1.18 ± 0.23 to 1.27 ± 0.27 circ/s (n.s.). LVMi and morphological data remained unchanged throughout the study. Nevertheless, LVMi changes showed two different behaviors with respect to baseline values: in 6 patients with higher baseline values, LVMi decreased from 229 ± 36 to 191 ± 45 g/m2 (p < 0.05), while it worsened in 5 patients with less marked LVMi, increasing from 141 ± 32 to 186 ± 40 g/m2 (p < 0.05). Our data demonstrate that partial correction of renal anemia with rHuEPO therapy seems to improve cardiac performance and to induce a regression of left ventricular hypertrophy, particularly in patients with greater baseline hypertrophy, ultimately confirming the multifactorial pathogenesis of left ventricular hypertrophy.
The authors describe 3 cases of AMI occurring shortly after a negative bicycle ergometer stress test. These cases represent an unfortunate but extremely rare complication of a relatively safe diagnostic procedure. The authors also focus on the pathogenesis of the ischemic event, which may be attributed either to intraplaque hemorrhage or to platelet aggregation, both exercise-induced. The prevalence of AMI in this paper (0.06%) is similar to the data described in literature.
A thirty-five-year-old horse trainer presented to the emergency room of the authors' hospital with minimal nonpenetrating chest injury after having been kicked by a horse. No rib or sternum fractures were demonstrated. The admission ECG demonstrated a right bundle branch block and a left anterior hemiblock that were previously absent. The authors are aware of only two similar reports, but analogous conduction disturbances might have been classified as intraventricular conduction defects. The rarity of these defects may be explained by the anatomic pathways of the bundle of His and its bifurcations.
The evaluation of left ventricular ejection fraction (LVEF) may be troublesome in difficult clinical settings in patients with coronary artery disease (CAD). The aim of this study was to compare 2 simple geometrical and nongeometrical methods of LVEF evaluation that could overcome the typical technical limitations of ultrasound examination. The authors studied 26 patients with proven CAD (63+/-10 years) who underwent left ventricular (LV) catheterization and coronary angiography during the hospital stay. A complete 2D-Doppler echocardiography was performed and LVEF was evaluated with the formula by Wyatt (W-LVEF), which relates the left ventricle to a biplane ellipsoidal figure, and by the myocardial performance index (MPI) formula (MPI-LVEF), MPI being an index of systodiastolic function. Mean MPI-LVEF was 41+/-8% and was significantly lower with respect to contrast angiography (52+/-14%, p = 0.0003) and to W-LVEF (49+/-13%, p = 0.0009). There was no statistically significant correlation between MPI-LVEF and geometric (either angiographic or ultrasound) LVEF. Bland-Altman analysis showed lack of agreement between MPI-LVEF and any other method evaluated in the study. MPI-LVEF may not be reliable and accurate for the evaluation of systolic function in patients with CAD. Nonetheless, the evaluation of global LV function by means of MPI may represent a valuable and affordable alternative to expensive and time-consuming methods, especially in the presence of difficult technical settings.
NE is a reliable and low-cost method for the detection of viable noncontracting myocardium in selected patients with CAD but needs further validation for widespread application.
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