The patient was a 44-year-old male, who had undergone hemodialysis for these 13 years. He underwent combined aortic and mitral valve replacement for aortic and mitral regurgitation due to infectious endocarditis. Operative findings included torn chorda of the mitral valve associated with perivalvular abscess and perforation of a non-coronary aortic cusp. Double valve replacement was performed with mechanical prosthetic valves. We used continuous hemodiafiltration (CHDF) for his perioperative renal management. Nafamostat mesilate was applied to the CHDF circuit as anti-coagulant therapy. Serum creatinin, urea nitrogen and potassium were maintained at the optimal level. CHDF was continued until the twelfth day after operation, and maintainace hemodialysis was re-started thereafter. CHDF is widely accepted for blood purification in the intensive care unit, and applied safely even in patients with unstable hemodynamic conditions. we considered that CHDF might have helped to avoid multiple organic failure in this case.

Cardiac angiosarcoma is a rare disease which occurs most often in young males and has a remarkably unfavorable prognosis. We experienced one male case aged 46 who had an initial symptom of cardiac tamponade due to rupture of the right ventricle. Hemostasis was made under extracorporeal circulation, and the patient was discharged temporarily. However, a large volume of hemoptysis occurred from right B₆ about 1 month after discharge, because of which resection of the right lower lobe was performed. Tumorous cells identical to those in the perforated cardiac region were detected in the resected tissue, and it was diagnosed histopathologically that the cardiac rupture was caused by angiosarcoma, resulting in pulmonary metastasis. Multiple pulmonary metastases were observed in bilateral lung following fields by CT, but administration of CDDP in iv×2 and in 150mg/day cyclophosphamide, the pulmonary metastases disappeared completely on CT on the 45th day. However, the metastases recurred soon thereafter without responding to chemotherapy, and the patient died 5 months after diagnosis of this disease because of exacerbated dyspnea.

Because supraventricular tachyarrhythmias after open heart surgery are often resistant to DC cardioversion and treatment with antiarrhythmic agents, we sometimes have difficulty in the postoperative management of these arrhythmias. We attempted to use intravenous infusion of diltiazem hydrochloride (3-5mcg/kg/min) for 6 patients with supraventricular tachyarrhythmias, 5 of whom had atrial fibrillation and 1 with sinus tachycardia after open heart surgery. The ventricular rate was remarkably reduced from the pretreatment value by this infusion therapy. Diltiazem infusion during atrial fibrillation in 5 patients regularized the ventricular rate (normalization of R-R intervals). These results indicate that diltiazem was effective in obtaining almost constant preload with each cardiac cycle for the postoperative deteriorated cardiac muscle. The hemodynamic parameters obtained with the Swan-Ganz catheter showed that both right and left ventricular functions improved after the infusion of diltiazem. There was no adverse effect due to the administration of diltiazem. We concluded that the intravenous infusion of diltiazem is an effective method to manage supraventricular tachyarrhythmias after open heart sugery without deterioration of the cardiac function or side effects.

We tried to evaluate the right ventricular function using a modified Swan-Ganz catheter with a rapid responsive thermistor. Twenty-four dogs comprised this series. Twelve were the model of left heart failure (Group A), and the other twelve were the model of right heart failure (Group B) produced by multiple ligation of coronary arteries. Dogs were studied for some of the circulatory indices before and after ligation with left atrial pressure at 10, 15 and 20mmHg in group A, and right atrial pressure at 10, 15 and 20mmHg in group B by volume loading. In group A, when the left atrial pressure was kept constant, right ventricular ejection fraction (RVEF) and right ventricular stroke work index (RVSWI) were decreased significantly after the ligation of coronary arteries. But there was no significant change in the peak right ventricular pressure-right ventricular endsystolic volume index ratio (peak RVP/RVESVI) associated with ligation. In group B, significant changes were observed in RVEF, RVSWI and peak RVP/RVESVI. Thus, it was found that right ventricular contractility in selective left heart failure was not reduced. E_max was considered to be a valuable index of ventricular contractility not affected by preload and afterload of ventricle, but this index is not easily measured clinically. The index peak RVP/RVESVI which is nearly equivalent to E_max, has an advantage in that it can be determined by the thermodilution method widely used in general. We conclude that this index is very useful to us for post-operative care in cardiac surgery.

Recently, arterial keton body ratio (AKBR) has attracted attention as a new indicator of liver function which is in equibilium with the ratio between oxidized and reduced forms of free nicotinamide-adenine dinucleotides (free NAD⁺/NADH ration) in the mitochondria. There are few reports on whether AKBR contributes to the hepatic energy charge in the open heart surgery with extra corporeal circulation (ECC) or not. This study was undertaken to clarify the contribution of AKBR to the hepatic energy charge during ECC and the relationship between AKBR and hepatic blood flow. AKBR was determined before, during and after ECC in the open heart surgery for 14 patients. Furthermore, the blood flow in hepatic artery, portal vein and liver microcirculation was measured before, during and after ECC in canine models. Finally, the pulsatile perfusion was performed in canine models and compared with the conventional non-pulsatile perfusion for the blood flow and AKBR. In clinical cases, AKBR was decreased in all cases during the ECC. AKBR which was measured at 2 or 3hr after weaning from the ECC was negatively correlated to the total perfusion time with -0.57 as the correlation coefficient. Six patients who were on the ECC over 180min did not show a good recovery of the AKBR after weaning from the ECC. Especially, three patients presented a clinical picture of acute hepatic failure with jaundice, elevation of the serum levels of transaminase and direct hyperbililubinemia, but only one showed hypoglycemia. These patients showed no improvement in clinical data and AKBR. The patient with improved AKBR recovered clinically. In our experiment, the blood flow in the hepatic artery, portal vein was measured by electromagnetic blood flow meter and the liver microcirculation was measured by laserdoppler flowmeter. The blood flow was decreased remakably in the non-pulsatile group at all sites of measurement: it recovered after ECC in hepatic artery and portal vein, but liver microcirculation did not improve well. AKBR was decreased during ECC and did not recover after ECC in the non-pulsatile perfusion. When the pulsatile perfusion was performed, liver circulation was maintained well, and AKBR recovered well after ECC. The above results suggest that AKBR reflects the liver microcirculation and pulsatile perfusion is beneficial to the liver microcirculation. Pulsatile circulation, however, involves several problems, hemolysis, the decrease of platelets, and so on, but these problems have been improved gradually. We think that the pulsatile perfusion will be used in clinical operations to maintain the good hepatic circulation.