To investigate the capacity of the pulmonary vascular bed to acutely vasodilate, we examined in 35 consecutive patients with primary pulmonary hypertension (PPH), the hemodynamic effects of incremental inhalation periods of an air-NO mixture at different concentrations (10, 20, and 40 ppm), and compared them with those of an acute infusion of prostacyclin (PGI2). An individual pulmonary vasodilator response was defined by a fall in total pulmonary resistance (TPR) > or = 30% relative to mean TPR baseline value. Thirteen patients were responders and 22 were nonresponders to both drugs, and they did not significantly differ in overall baseline characteristics except for mean right atrial pressure (p < 0.03). In responders, both drugs produced similar individual vasodilator response. Changes in mean pulmonary arterial pressure and TPR observed during NO and PGI2 were closely correlated (r2 = 0.9, p < 0.001, and r2 = 0.7, p < 0.01, respectively). The vasodilator response to NO was not concentration-related with a maximal effect obtained at 10 ppm. Combination of both drugs did not lead to any additive vasodilator response. Unlike PGI2, NO did not induce any systemic effect, no adverse reaction, but a moderate increase in methemoglobin. Inhaled NO at low dose (10 ppm) appears to be an effective, safe, and reliable substitute for PGI2 in screening for acute pulmonary vasodilator responsiveness during therapeutic assessment of patients with PPH.
The risk of early recurrence of pulmonary embolism in patients with venous thromboembolic disease treated by anticoagulants is not well established. To determine the risk linked to contemporary proximal deep venous thrombosis, a prospective study was organised to give clinical and scintigraphic surveillance to 50 patients with angiographically proved pulmonary embolism plus phlebographically proved proximal deep vein thrombosis during the first 15 days of anticoagulant treatment. Perfusion lung scans were performed initially and on days 3, 7, and 15. Only two patients had a recurrence of pulmonary embolism during this period; both episodes were revealed by new symptoms, and one recurrence was fatal. The systematic performance of angiography in four patients found to have new scintigraphic defects led to the the diagnosis of "spurious scintigraphic recurrence" in three of them. It is concluded that (a) adjusted anticoagulant treatment showed an effectiveness of 96% for preventing early recurrence of pulmonary embolism in this group of supposed high risk patients, and (b) in patients with recent pulmonary embolism new defects on systematic perfusion lung scans are not specific indicators of recurrent pulmonary embolism.The risk of early recurrence of pulmonary embolism during anticoagulant treatment is not well established: the frequency given in published studies varies from zero to 28% during the initial course of intravenous heparin-that is, usually, during first seven to 15 days of treatment.'1-This variation probably has several explanations, some of which, such as the method of heparin administration and the "adequacy" of anticoagulation, have been investigated in prospective comparative studies.2'49 10 Other important factors possibly contributing to these variable results are: (1) only two of these studies9 1 included systematic reassessment by perfusion lung scanning, and these two studies reported the highest recurrence rates (28% and 23%). (2) In all the reported studies the diagnosis of recurring pulmonary embolism was based on clinical or scintigraphic evi-
Common bile duct ligation (CBDL) induces biliary cirrhosis and pulmonary vasodilatation. We tested whether CBDL ameliorates monocrotaline (MCT)-induced pulmonary hypertension (PH) in rats.Five groups of rats were studied: controls; rats dosed with MCT (60 mg?kg -1 subcutaneously);CBDL; rats dosed with MCT followed by CBDL on day 7; and rats dosed with MCT followed by CBDL (day 7) and L-NAME therapy between days 24 and 28. 28-day survival was 26% in the MCT group and 72% in the MCT+CBDL group. Pulmonary vascular resistance measured on days 21 and 28 increased in the MCT and MCT+CBDL+L-NAME groups, but returned to normal in the MCT+CBDL group on day 28. Pulmonary artery (PA) medial hypertrophy persisted in MCT+CBDL rats. PA inflammation increased in MCT+CBDL rats, with accumulation of both intra-and perivascular macrophages. Exhaled nitric oxide (NO) levels decreased in the MCT group and increased in the MCT+CBDL group, which showed upregulation of inducible NO synthase and normal endothelial NO synthase. Blood endothelin (ET)-1 increased in CBDL, MCT, and MCT+CBDL rats. Levels of ET B receptors increased and ET A receptors decreased in the MCT+CBDL group, whereas the opposite changes occurred in the MCT group. Biliary cirrhosis induces pulmonary vasodilation that ameliorates MCT-induced PH and improves survival. Upregulation of inducible NO synthase and ET B receptor and downregulation of ET A receptor may be involved.
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