Objective: To study the effects of electrical applications and subsequent postshock hypotension on myocardial performance and vascular tone during implantable cardioverter-defibrillator (ICD) placement.
Design: Prospective, blinded, observational investigation.
Setting: Single, university-affiliated institution.
Participants: Twenty patients undergoing elective ICD placement and testing under general anesthesia.
Interventions: None.
Measurements And Main Results: Serial measurements were made of hemodynamic variables, left ventricular end-systolic (ESA) and end-diastolic (EDA) areas, fractional-area-of-contraction (FAC), time of hypoperfusion (when mean arterial pressure < or =50 mmHg postshock), and applied conversion energy. Multiple linear regression was performed to determine correlations among collected variables, and repeated measures analysis of variance was used to compare mean values. Minimal changes were detected in mean values of arterial, pulmonary, and central venous pressures; cardiac output; heart rate; and mixed venous saturation during repeated testing. Percentage changes in cardiac index (CI) rose and systemic vascular resistance index (SVRI) fell, however, as the number of shocks increased, reaching significance at the seventh and eighth shocks (v baseline; both p = 0.015). The percentage change in CI was linearly related to hypoperfusion time and accumulated energy (%deltaCI = 1.553 + [0.068 x sigma hypoperfusion time [sec]], r = 0.92, p < 0.001; %deltaCI = 0.326 + [0.125 x sigma Energy [J]], r = 0.94, p < 0.001). The percentage change in SVRI was inversely related to hypoperfusion time and accumulated energy (%deltaSVRI = 2.195 - [0.122 x sigma energy [J]], r = 0.79, p = 0.004; %deltaSVRI = 0.542 - [0.0634 - sigma hypoperfusion time [sec]], r = 0.73, p = 0.01). Echocardiographic EDA, ESA, and FAC were not significantly changed but showed substantial variability.
Conclusion: Hemodynamic stability was generally well maintained during ICD placement and testing. Increases in CI were associated with concurrent reductions in systemic afterload, rather than enhanced FAC. Increasing postshock hypotension and applied energy were associated with decreases in CI and systemic afterload. Insignificant, but highly variable, changes were noted echocardiographically.
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