Acute Beneficial Effects of Sodium Nitroprusside in a Rabbit Model of Massive Pulmonary Embolism Associated with Circulatory Shock

We established a rabbit model of acute massive pulmonary embolism (PE) with associated circulatory shock using autologous blood clots. Rabbits were randomly assigned to a sham operation group (S group), model group (M group; equal volume of saline intravenously after shock), and sodium nitroprusside group (SNP group; sodium nitroprusside intravenously after shock). SNP treatment significantly decreased mean pulmonary arterial pressure and increased mean arterial pressure and arterial partial pressure of oxygen and resulted in a partial reversal of the acute circulatory failure. The shock-reversal rate was 0% in the M group and 80% in the SNP group. Moreover, pulmonary artery angiography and echocardiography examinations evidenced alleviated PE-induced changes after SNP therapy. 5-Hydroxytryptamine was significantly reduced in both PE and non-PE tissues, thromboxane A2 level was significantly reduced in PE and tended to be lower in non-PE tissues, neutrophil accumulation was significantly reduced in both PE and non-PE tissues after SNP therapy. Our study demonstrated that pulmonary vasospasm in the nonembolic region might be a major pathologic factor leading to reduced left ventricular filling and circulatory shock after massive PE. Reduction of pulmonary vasospasm in the nonembolic area after SNP might serve as a major therapeutic mechanism involved in the observed beneficial effects of SNP in this model.