Effects of Verapamil Cardioplegia on the Hypertrophied Left Ventricle Undergoing Cardiopulmonary Bypass / 대한마취과학회지

BACKGROUND: Verapamil, a calcium channel blocker, is known to protect the myocardium against ischemia and reperfusion injury. The hypertrophied myocardium is at greater risk for ischemic damage compared to the normal heart during cardiopulmonary bypass (CPB). We evaluated the myocardial protective effect of verapamil cardioplegia on the hypertrophied left ventricle during CPB. METHODS: Seventeen patients with end-diastolic anterior wall thickness (DAWT) greater than 11 mm in an M-mode echocardiogram were consented to participate in this study. Patients were randomized to receive either standard hyperkalemic blood cardioplegic solution (n = 8) or the same solution with verapamil (n = 9). End systolic anterior wall thickeness (SAWT) and DAWT were measured by an M-mode echocardiogram and the left ventricular ejection fraction (LVEF) was calculated with a 2-dimension echocardiogram before and after CPB. Simultaneously, hemodynamic variables were measured. RESULTS: There was no significant difference of DAWT and LVEF between both groups before and after CPB. DAWT was increased after CPB but this increase was attenuated by verapamil in patients with LVH. LVEF was decreased in both groups after CPB and the decrease in the verapamil group was not statistically significant but in the control group. Cardiac index and stroke volume index didn't show any significant differences between the two groups after CPB, either. CONCLUSIONS: DAWT increased which means myocardial edema was significant in patients with LVH; however, a verapamil cardioplegic solution decreased the amount of increase in DAWT. However, theverapamil cardioplegic solution didn't improve the hypertophied ventricular systolic function after CPB.

The Mechanism of Blood Flow Generation during Closed Chest Cardiac Massage: Transesophageal Echocardiographic Monitoring / 대한마취과학회지

The mechanism of forward blood flow during closed chest cardiac massage remains controversial. Two theories have been suggested: the cardiac pump theory and the thoracic pump theory. Case report is presented to illustrate the use of transesophageal echocardiography during cardiopulmonary resuscitation. The findings included right and left ventricular compression, closure of the mitral valve during compression, opening of the mitral valve during the release phase, and atrioventricular regurgitation during compression, indicating a positive ventricular-to-atrial pressure gradient. These findings suggest that direct cardiac compression was the predominant mechanism of forward blood flow during cardiopulmonary resuscitation in this patient. Transesophageal echocardiography offers a new approach for study of the flows and cardiac morphologic features during chest compressions in humans. An understanding of the actual mechanisms involved is necessary if improved cardiopulmonary resuscitative techniques are to be rationally developed for enhancing the outcome of resuscitation.