ABSTRACT
A 25-year-old man was admitted with high fever and heart murmur. Echocardiogram showed left ventricular chamber dilatation and vegetations attached to the aortic valve. Blood cultures obtained on admission revealed <i>Streptococcus viridans</i>. Despite adequate antibiotic therapy, congestive heart failure progressively worsened and large splenic abscesses were detected by computed tomography. Urgent aortic valve replacement and splenectomy were performed. The aortic valve was bicuspid and markedly destroyed. Pathology of the spleen showed findings consistent with large infarct and abscesses due to septic emboli. The postoperative course was uneventful.
ABSTRACT
An investigation on the efficacy of preoperative autologous blood donation in open-heart surgery was made using frozen red blood cells and MAP red blood cells in cooperation with the Red Cross Blood Center. In 109 cases which received the donation, the rate of cases which received no homologous blood transfusion was 93.6% (35.3% in the cases without donation). Even in the cases of redo operation or aortic surgery, in which extensive blood loss is expected, 75% of those given a donation of 1600-2000ml frozen blood required no homologous blood transfusion. The hemoglobin concentration in the cases which received blood donation for more than 4 weeks did not decrease, indicating that safe donation is feasible. The aforementioned frozen and MAP blood preparations can be preserved for a long period so that blood donation can be started even before deciding on the date of operation. Also, its usefulness is not affected by the postponement of the operation. Furthermore, there was no problem in safety with respect to transfer, treatment, and storage of the autologous blood in cooperation with the Red Cross Blood Center, suggesting that this is useful as a preoperative donation method, especially in small- and middle-scale hospitals, which have no separate blood centers. However, there were 2 cases in which aggravated symptoms were noted after blood collection. Therefore, it is important to carefully select cases for autologous blood donation in open-heart surgery and it is desirable to set up appropriate donation schedules.
ABSTRACT
Isolated left-side inferior vena cava is rare, there being only four cases associated with abdominal aortic aneurysm reported so far in the Japanese literature. A 72-year-old man was admitted to our hospital for the evaluation of an abdominal pulsatile mass. CT scan revealed abdominal aortic aneurysm with isolated left-sided inferior vena cava. Aneurysmectomy and bifurcated graft replacement was performed with retracting inferior vena cava. The postoperative course was uneventful.
ABSTRACT
Leg edema following the harvest of great saphenous vein (SV) is sometimes recognized after coronary artery bypass surgery (CABG). Maximum venous outflow (MVO) is one of the parameters of leg venous function which is measured by straingauge plethysmography. To clarify the mechanism of the development of leg edema after CABG, we measured the perioperative MVO. Six patients had leg edema afer CABG (group I), 4 patients had no edema after CABG (group II). Six patients without edema after cardiac surgery, apart from CABG, were selected as controls (group III). The MVO of both legs was measured before and after the operation. In group I, venous echo or venography of the leg, or both, were performed after the operation. The MVO of legs from which SV had been harvested in group I decreased from 35.0±13.6 (ml/min/ 100ml tissue) to 23.9±7.6 (<i>p</i>=0.04) after the operation, but did not differ from the MVO of the contralateral leg. The preoperative MVO of legs from which SV had been harvested in group I was slightly higher than the legs of other groups. There was no significant change of MVO in group II or III after surgery. No deep vein thrombosis was shown in group I by venous echo and venography. Left ventricular ejection fraction, blood cell count and serum chemistry indicated no changes in any of the three groups after the operation except for the hemoglobin level in group I. These results suggested that the leg which had edema had a relatively high MVO before the operation. This MVO significantly decreased to the level of leg from which SV had not been harvested after the operation, and the edema appeared. In conclusion, postoperative edema in the leg from which SV was harvested was the result of a decrease in venous function due to removal of the SV. SV which causes leg edema might play the greater part of the venous return than others and the total function of the venous return was higher than normal at the point of preoperation.