Hemodynamic effects of aerosolized iloprost in pulmonary hypertension at rest and during exercise

STUDY OBJECTIVES: Aerosolized iloprost, a stable prostacyclin analog, improves functional capacity even in patients with pulmonary hypertension who did not show a vigorous hemodynamic response after iloprost inhalation at rest. We therefore speculated that aerosolized iloprost elicits more beneficial effects on pulmonary hemodynamics during exercise than at rest. DESIGN AND SETTING: A prospective, open, uncontrolled study at a university hospital. PATIENTS: Sixteen patients with primary or secondary pulmonary hypertension. INTERVENTIONS: Right-heart catheterization at rest and during exercise before and after the inhalation iloprost, 14 to 28 microg. RESULTS: Before iloprost treatment, exercise increased mean (+/- SD) pulmonary artery pressure (PAPm) from 45 +/- 8 to 70 +/- 13 mm Hg, cardiac output from 3.7 +/- 1.0 to 5.8 +/- 2.4 L/min, and pulmonary vascular resistance (PVR) from 904 +/- 322 to 1,013 +/- 432 dyne.s.cm(-5) (each p < 0.05). After recovery, iloprost reduced PAPm from 44 +/- 8 to 41 +/- 6 mm Hg, increased cardiac output from 3.7 +/- 1.0 to 4.9 +/- 1.4 L/min, and lowered PVR from 902 +/- 350 to 636 +/- 248 dyne x s x cm(-5) (each p < 0.05). During exercise after iloprost, PAPm increased to 57 +/- 8 mm Hg, cardiac output to 7.0 +/- 3.0 L/min, and PVR to 673 +/- 279 dyne x s x cm(-5) (each p < 0.05 vs first exercise test). Systemic BP was not altered significantly by iloprost treatment during exercise. CONCLUSIONS: Aerosolized iloprost treatment exerts more favorable effects on pulmonary hemodynamics during exercise than at rest. These findings explain the functional improvement observed in patients with pulmonary hypertension who show only a moderate pulmonary vasodilatory response during iloprost inhalation at rest. Whether these beneficial effects have prognostic significance needs to be elucidated by further study.     

A comparison of the acute hemodynamic effects of inhaled nitric oxide and aerosolized iloprost in primary pulmonary hypertension. German PPH study group

OBJECTIVE: We sought to compare the acute hemodynamic effects of inhaled nitric oxide (NO) and aerosolized iloprost in primary pulmonary hypertension (PPH). BACKGROUND: Inhalation of the stable prostacyclin analogue iloprost has recently been described as a novel therapeutic strategy for PPH and may offer an alternative to continuous intravenous infusion of prostacyclin or inhalation of NO. METHODS: During right heart catheterization, 35 patients with PPH sequentially inhaled 40 ppm of NO and 14 to 17 microg of iloprost, and the effects on hemodynamics and blood gases were monitored. RESULTS: Both NO and iloprost caused significant increases in cardiac output, mixed-venous oxygen saturation and stroke volume as well as significant decreases in pulmonary artery pressure and pulmonary vascular resistance, whereas only inhaled iloprost significantly increased the arterial PO2 (p = 0.01). Compared with inhaled NO, aerosolized iloprost was more effective in reducing pulmonary artery pressure (-8.3 +/- 7.5 mm Hg vs. -4.3 +/- 8.8 mm Hg; p = 0.0001) and the pulmonary vascular resistance (-447 +/- 340 dynes x s x cm(-5) vs. -183 +/- 305 dyne x s x cm(-5); p < 0.0001). Furthermore, aerosolized iloprost caused a significantly greater increase of the cardiac output compared with NO (+0.7 +/- 0.6 liter/min vs. +0.3 +/- 0.4 liter/min; p = 0.0002) and had a more pronounced effect on the mixed-venous oxygen saturation (p = 0.003). CONCLUSIONS: During acute drug testing, aerosolized iloprost was more potent than inhaled NO as a pulmonary vasodilator in PPH at the doses used in this study.     

Comparison of the effects of nitric oxide, nitroprusside, and nifedipine on hemodynamics and right ventricular contractility in patients with chronic pulmonary hypertension

STUDY OBJECTIVES: The effects of inhaled nitric oxide (NO) on hemodynamics and right ventricular (RV) contractility were compared with those of nitroprusside and nifedipine in 14 patients with severe chronic pulmonary hypertension. STUDY DESIGN: Micromanometer and balloon-tipped right heart catheterization were performed. Inhaled NO, IV nitroprusside, and sublingual nifedipine were administered sequentially while patients breathed > 90% oxygen. SETTING: Cardiac catheterization laboratory in a tertiary care teaching hospital. PATIENTS: Fourteen patients with severe pulmonary hypertension unrelated to left ventricular dysfunction. MEASUREMENTS AND RESULTS: During NO inhalation, mean systemic arterial pressure (MAP) was unchanged, but pulmonary artery (PA) pressure ([mean +/- SEM] 49 +/- 2 mm Hg vs 44 +/- 2 mm Hg; p < 0.01), pulmonary vascular resistance (PVR; 829 +/- 68 vs 669 +/- 64 dyne x s x cm(-5); p < 0.01) and RV end-diastolic pressure (RVEDP; 12 +/- 1 vs 10 +/- 1 mm Hg; p < 0.01) decreased. Stroke volume index (SVI; 31 +/- 2 vs 35 +/- 3 mL/m(2); p < 0.05) increased, and the first derivative of RV pressure at 15 mm Hg developed pressure (RV +dP/dt at DP15) was unchanged. During nitroprusside administration, MAP decreased (105 +/- 5 vs 76 +/- 5 mm Hg; p < 0.01), PA was unchanged (48 +/- 2 vs 45 +/- 3 mm Hg; p = not significant), and PVR decreased (791 +/- 53 vs 665 +/- 53 dyne x s x cm(-5); p < 0.01). RV +dP/dt at DP15 increased (425 +/- 22 vs 465 +/- 29 mm Hg/s; p < 0.05), but SVI was unchanged. Nifedipine decreased MAP (103 +/- 5 vs 94 +/- 5 mm Hg; p < 0.01), PA and PVR were unchanged, RVEDP increased (12 +/- 1 vs 14 +/- 2 mm Hg; p < 0.01), and RV +dP/dt at DP15 decreased (432 +/- 90 vs 389 +/- 21 mm Hg/s; p < 0.05). CONCLUSIONS: Inhaled NO is a selective pulmonary vasodilator in patients with chronic pulmonary hypertension that improves cardiac performance without altering RV contractility. Nitroprusside caused a similar degree of pulmonary vasodilation. In contrast to inhaled NO, nitroprusside caused systemic hypotension associated with an increase in RV contractility. Acute administration of nifedipine did not cause pulmonary vasodilation, but RVEDP increased and RV contractility decreased.     

Assessment of the vasodilator response in primary pulmonary hypertension. Comparing prostacyclin and iloprost administered by either infusion or inhalation.

AIMS: To directly compare the differential effects of oxygen, prostacyclin and iloprost (aerosolized and intravenous) in primary pulmonary hypertension. METHODS AND RESULTS: Twenty-one patients with severe primary pulmonary hypertension underwent right heart catheterization following oxygen inhalation, inhalation of aerosolized iloprost, intravenous prostacyclin or intravenous iloprost. The stability of the iloprost solution was tested for up to 4 weeks. Oxygen slightly decreased pulmonary vascular resistance. Intravenous prostacyclin (7.2+/-3.4 ng kg(-1) min(-1)) reduced pulmonary (1772+/-844 vs 1325+/-615 dyn s cm(-5), P<0.001) and systemic vascular resistance, and arterial and right atrial pressure, while cardiac output increased. Iloprost inhalation diminished pulmonary (1813+/-827 vs 1323+/-614 dyn s cm(-5), P<0.001) and systemic vascular resistance, and pulmonary artery (58+/-12 vs 50+/-12 mmHg,P<0.001) and right atrial pressure, while cardiac output increased. With intravenous iloprost (1.2+/-0.5 ng kg(-1) min(-1), n=8) a decrease in pulmonary (2202+/-529 vs 1515+/-356 dyn s cm(-5), P<0.05) and systemic vascular resistance and right a trial pressure occurred while cardiac output increased. Iloprost solution remained stable for 33 days while losing <10% (4 degrees C) of its active drug concentration.Conclusions Intravenous iloprost and prostacyclin have very similar haemodynamic profiles. In contrast, only inhaled iloprost exerted selective pulmonary vasodilation, reducing pulmonary vascular resistance and pulmonary artery pressure without systemic vasodilation. The longer half-life and extended stability despite lower costs render iloprost an attractive alternative to chronic prostacyclin treatment in primary pulmonary hypertension.     

Pulmonary hemodynamic responses to brain natriuretic peptide and sildenafil in patients with pulmonary arterial hypertension

STUDY OBJECTIVES: Brain natriuretic peptide (BNP) blunts hypoxic pulmonary hypertension in animal models, but its acute hemodynamic effects in patients with pulmonary arterial hypertension (PAH) are not known. The aim of this study was to determine if human B-type natriuretic peptide is a safe and efficacious pulmonary vasodilator in patients with PAH and if the pulmonary hemodynamic effects are potentiated by phosphodiesterase inhibition. DESIGN: Open-label study. SETTING: Medical ICUs of three tertiary care hospitals in New England. PATIENTS: Thirteen consecutive adult patients undergoing right-heart catheterization and a pulmonary vasodilator trial for the initial evaluation of PAH. INTERVENTIONS: Patients were administered inhaled nitric oxide (iNO), i.v. epoprostenol, and a 3-h infusion of BNP alone and 1 h after an oral dose of the phosphodiesterase-5 inhibitor sildenafil. RESULTS: iNO and sildenafil alone decreased mean pulmonary artery pressure (mPAP) without a significant fall in pulmonary vascular resistance (PVR). Epoprostenol decreased both mPAP and PVR. BNP alone had no significant effect on pulmonary hemodynamics, but the combination of sildenafil plus BNP decreased mPAP and PVR for up to 6 h after stopping BNP. The decrease in mPAP with sildenafil plus BNP (+/- SE) was greater than after 1 h of sildenafil alone (44.6 +/- 3.8 to 40.6 +/- 3.9 mm Hg, p = 0.027). An acute vasodilator response, defined as a decrease in mPAP > 10 mm Hg and end mPAP < 40 mm Hg, was seen in 0 of 8 patients with iNO, 1 of 13 patients with epoprostenol, 0 of 13 patients with BNP, and 4 of 12 patients with sildenafil plus BNP. BNP decreased mean systemic arterial pressure (5.6 +/- 2.8 mm Hg) but had no effect on cardiac output or systemic vascular resistance. CONCLUSIONS: A 3-h BNP infusion does not significantly improve pulmonary hemodynamics in most patients with PAH but is well tolerated and augments the acute pulmonary vasodilator effect of sildenafil.     

Vasoresponsiveness of sarcoidosis-associated pulmonary hypertension

OBJECTIVE: To assess short-term and long-term responses to treatment with pulmonary vasodilators in patients with sarcoidosis-related pulmonary hypertension. METHODS: A prospective, observational study was performed on eight patients with moderate-to-severe sarcoidosis-related pulmonary hypertension. Patients underwent a short-term vasodilator trial, using inhaled nitric oxide (iNO), IV epoprostenol, and/or oral calcium-channel blockers. A favorable short-term response was considered a > or = 20% decrease in pulmonary vascular resistance (PVR). Five patients received long-term treatment with iNO (with one patient receiving epoprostenol in addition) and underwent follow-up hemodynamic and/or 6-min walk testing. Two patients received long-term treatment with calcium-channel blockers. RESULTS: Baseline (+/- SE) mean pulmonary artery pressure (mPAP) was 55 +/- 4 mm Hg and PVR was 896 +/- 200 dyne.s.cm(-5). A favorable short-term response was seen in seven of eight patients receiving iNO, four of six patients receiving epoprostenol, and two of five patients receiving calcium-channel blockers. With iNO, PVR decreased 31 +/- 5% (p = 0.006) and mPAP decreased 18 +/- 4% (p = 0.003); with epoprostenol, PVR decreased 25 +/- 6% (p = 0.016) and mPAP decreased 6 +/- 2% (p = not significant). Decreased systemic vascular resistance was the only significant response to treatment with calcium-channel blockers. Follow-up 6-min walk test results improved in all five patients receiving long-term treatment with iNO. Follow-up hemodynamic responses in three patients showed preserved vasoresponsiveness. These three patients subsequently died, as did the two patients receiving calcium-channel blockers. The two remaining patients continue to receive iNO. CONCLUSION: In the short term, pulmonary hypertension in patients with sarcoidosis is responsive to treatment with pulmonary vasodilators; these patients may benefit from long-term iNO therapy.     

Feasibility of routine pulmonary arterial impedance measurements in pulmonary hypertension

OBJECTIVES: Right ventricular (RV) afterload is best described by a pulmonary arterial impedance (PVZ) spectrum, which integrates pulmonary vascular resistance (PVR), elastance, and wave reflection. We evaluated the feasibility of PVZ determinations in patients with pulmonary arterial hypertension (PAH) during routine right heart catheterization and Doppler echocardiography. DESIGN: Prospective study. SETTING: Academic hospital. PATIENTS: Twenty-two patients with PAH. INTERVENTIONS: Right heart catheterization with a fluid-filled Swan-Ganz catheter, Doppler echocardiography, and administration of inhaled nitric oxide (NO) [10 to 20 ppm; 17 patients], maximum tolerated dose of IV epoprostenol (average, 8.5 ng/kg/min; 5 patients), and IV dobutamine (8 micro g/kg/min; 8 patients). MEASUREMENTS AND RESULTS: PVZ was calculated from the spectral analysis of synchronized pulmonary artery pressure (Ppa) and flow waves. The mean (+/- SE) Ppa was 63 +/- 3 mm Hg, and the mean PVR was 16 +/- 2 Wood units. The PVZ spectrum was markedly shifted to higher than normal pressures and frequencies, with a mean 0-Hz impedance (Z(0)) of 1,506 +/- 138 dyne. s. cm(-5), and a mean characteristic impedance (Zc) of 124 +/- 11 dyne. s. cm(-5), which are in keeping with data from previous studies. Inhaled NO levels decreased Ppa, PVR, Z(0), and Zc without a change in cardiac output. Epoprostenol administration did not affect Ppa, increased cardiac output, and decreased Z(0) and Zc. Dobutamine administration increased cardiac output and Ppa, and decreased PVR and Z(0), without changing Zc. CONCLUSIONS: The determination of PVZ to quantify RV afterload is feasible during routine right heart catheterization and Doppler echocardiography. The measurement is sensitive to pharmacologic interventions.     

Characterization of brain natriuretic peptide in long-term follow-up of pulmonary arterial hypertension

STUDY OBJECTIVES: Pulmonary arterial hypertension (PAH) leads to substantial morbidity and mortality. Noninvasive parameters in the follow-up assessment of PAH could be helpful in clinical decision making. The brain natriuretic peptide (BNP) has been shown to correlate with the functional status and prognosis of these patients and could be a valuable parameter in this respect. The aim of our study was to investigate whether BNP levels could reflect clinical and hemodynamic changes, including the response to therapy during long-term follow-up in patients with PAH. STUDY DESIGN: We measured pulmonary hemodynamics, functional parameters including the 6-min walk distance (6MWD), and plasma BNP levels at baseline and after a mean (+/- SEM) follow-up period of 12.6 +/- 1.5 months in patients with PAH. RESULTS: In group A (n = 18), with decreasing BNP levels mean pulmonary artery pressure (PAP) and pulmonary vascular resistance (PVR) decreased (PAP, 60.89 +/- 3.44 to 53.47 +/- 3.24 mm Hg; PVR, 1,207.47 +/- 111.75 to 942.35 +/- 103.15 dyne.s.cm(-5); p < 0.01) and 6MWD increased (408.24 +/- 29.57 to 470 +/- 25.54 m; p < 0.01). In group B (n = 12), with increasing BNP levels mean PAP and PVR increased (PAP, 52 +/- 3.31 to 60.17 +/- 5.03 mm Hg; PVR, 946.13 +/- 115.35 to 1,236.6 +/- 180.23 dyne . s . cm(-5); p < 0.01) and mean 6MWD decreased from 463.64 +/- 27.77 to 367.27 +/- 38.87 m (p < 0.05). Comparing groups revealed statistically significant differences regarding changes in PAP (group A, -11.58 +/- 3.57%; group B, +13.29 +/- 5.44%; p = 0.001) and PVR (group A, -19.21 +/- 5.87%, group B, +30.35 +/- 7.72%; p < 0.001). Correlations existed between the changes in BNP levels and pulmonary hemodynamics. CONCLUSION: We concluded that BNP levels parallel changes in pulmonary hemodynamics and functional parameters, including the 6MWD, in PAH patients. Consequently, we suggest BNP as a parameter for the follow-up assessment of PAH patients.     

Lung cGMP release subsequent to NO inhalation in pulmonary hypertension: responders versus nonresponders.

Inhalation of nitric oxide (NO) is widely employed for the assessment of pulmonary vasoresponsiveness in pulmonary hypertension (PH). However, the reasons for the huge differences in vascular reactivity to NO between patients are unknown, and the role of NO-induced cyclic guanosine monophosphate (cGMP) is unclear. Twenty patients with severe precapillary PH were investigated. Thirty-six Swan-Ganz catheter investigations were performed and the study subjects were tested for responses to NO inhalation. This included an assessment of pulmonary and systemic arterial plasma cGMP and atrial natriuretic peptide (ANP) levels. A significant NO response (pulmonary vascular resistance (PVR) decrease >20%) was noted in nine of 20 patients (45%) during the first catheterization. A highly significant correlation between baseline plasma cGMP and ANP levels with PVR was observed (r=0.62 and r=0.66, respectively; p<0.0001). In response to NO, systemic and mixed venous cGMP levels increased from 13.9 +/- 1.28 nM and 12.75 +/- 0.99 nM to 79.23 +/- 4.99 nM and 55.25 +/- 4.41 nM (p<0.001), respectively, accompanied by the appearance of a marked transpulmonary cGMP gradient. Although in the responder group ANP levels were significantly reduced after NO inhalation, no significant correlation was observed to the extent of PVR reduction. The magnitude of the NO-elicited cGMP response did not discriminate between haemodynamic responders and nonresponders. This study concludes that plasma cyclic guanosine monophosphate levels are significantly correlated with the severity of disease in pulmonary arterial hypertension. Nitric oxide inhalation provokes a prompt increase in cyclic guanosine monophosphate secretion, but the magnitude of this release is not linked with a decrease in pulmonary vascular resistance.     

Right ventricular dysfunction in chronic heart failure patients

AIM: To evaluate any differences in haemodynamic and echocardiographic parameters in patients with both left (LV) and right ventricular (RV) systolic dysfunction and in patients with isolated LV systolic dysfunction. STUDY GROUP: One hundred patients with RV systolic dysfunction defined as peak velocity of tricuspid annular motion in systole (Sa)<11.5 cm/s, and 55 patients without RV systolic dysfunction Sa>11.5 cm/s. All patients had LV systolic dysfunction, LV ejection fraction (EF) below 40%, NYHA II-IV. METHODS: LV diameters, volumes and EF were measured by echocardiography. Patients underwent tissue Doppler imaging (TDI) of tricuspid annular motion with measurement of peak systolic velocity (Sa), peak early (Ea) and peak late (Aa) diastolic velocities. Right heart catheterization was also performed. RESULTS: Patients with RV systolic dysfunction did not differ from those without RV systolic dysfunction in terms of LV function. Patients with RV systolic dysfunction had larger RV dimension 30.6+/-5.8 vs. 33.9+/-6.7 mm, p<0.002. The patients with RV systolic dysfunction had higher values on right heart catheterization: MPAP 29.6+/-12.1 vs. 24.9+/-11.4 mm Hg, p<0.02, PCWP 20.8+/-10.0 vs. 17.3+/-9.3 mm Hg, p<0.03, PVR 189.9+/-123.3 vs. 137.7+/-94.9 dyn s cm(-5), p<0.008, CVP 7.7+/-5.6 vs. 5.1+/-3.9 mm Hg, p<0.002. The patients with RV systolic dysfunction had more pronounced diastolic dysfunction measured by TDI: Ea 9.9+/-2.3 vs. 11.4+/-2.5 cm/s, p<0.0001 and Aa 13.1+/-4.0 vs. 16.5+/-4.7 cm/s, p<0.000007. CONCLUSION: Patients with heart failure and both left and right ventricular systolic dysfunction showed more serious findings on central haemodynamics as well as more pronounced right ventricular diastolic dysfunction than those with isolated left ventricular systolic dysfunction.     

Lung elastic recoil does not correlate with pulmonary hemodynamics in severe emphysema

BACKGROUND: It has been postulated that right ventricular (RV) function may improve after lung volume reduction surgery (LVRS) for severe emphysema due to improvement in lung elastic recoil. Improved lung elastic recoil after LVRS is hypothesized to "tether" open extraalveolar vessels, thereby leading to a decrease in pulmonary vascular resistance (PVR) and improved RV function. Whether a relationship exists between static elastic lung recoil and pulmonary hemodynamics in severe emphysema, however, is unknown. METHODS: We prospectively studied 67 patients with severe emphysema (32 women; mean age, 65.3+/-6.6 years [SD]; mean FEV1, 0.79+/-0.25 L) who had hyperinflation (total lung capacity [TLC], 122.5+/-12.3% of predicted) and gas trapping (residual volume, 209.1+/-41.1% of predicted), and were referred to the National Emphysema Treatment Trial. Lung elastic recoil was measured both at TLC (coefficient of retraction [CR]) and at functional reserve capacity (CR at functional residual capacity [CRfrc]) in each patient. RESULTS: CR and CRfrc values were 1.3+/-0.6 cm H2O/L and 0.61+/-0.5 cm H2O/L, respectively. Hemodynamic measurements revealed a pulmonary artery (PA) systolic pressure of 35.9+/-8.9 mm Hg, mean PA pressure of 24.8+/-5.6 mm Hg, and PVR of 174+/-102 dyne*s*cm(-5). No significant correlations were found between CR and PVR (R=-0.046, p=0.71), PA systolic pressure (R=0.005, p=0.97), or mean PA pressure (R=-0.028, p=0.82). Additionally, no significant correlations were found between CRfrc and PVR (R=-0.002, p=0.99), PA systolic pressure (R=-0.062, p=0.62), or mean PA pressure (R=-0.041, p=0.74). CONCLUSIONS: We conclude there is no correlation between lung elastic recoil and pulmonary hemodynamics in severe emphysema, suggesting that elastic lung recoil is not an important determinant of secondary pulmonary hypertension in this group. Registered with www. clinicaltrials.gov, #NCT00000606.     

Hemodynamic effects of inhaled nitric oxide in women with mitral stenosis and pulmonary hypertension

Mitral stenosis (MS) is associated with elevated left atrial pressure, increased pulmonary vascular resistance (PVR), and pulmonary hypertension (PH). The hemodynamic effects of inhaled nitric oxide (NO) in adults with MS are unknown. We sought to determine the acute hemodynamic effects of inhaled NO in adults with MS and PH. Eighteen consecutive women (mean age 58 +/- 15 years) with MS and PH underwent heart catheterization. Hemodynamic measurements were recorded at baseline, after NO inhalation at 80 ppm, and after percutaneous balloon valvuloplasty (n = 10). NO reduced pulmonary artery systolic pressure (62 +/- 14 mm Hg [baseline] vs 54 +/- 15 mm Hg [NO]; p <0.001) and PVR (3.7 +/- 2.5 Wood U [baseline] vs 2.2 +/- 1.4 Wood U [NO]; p <0.001). NO had no effect on mean aortic pressure, left ventricular end-diastolic pressure, left atrial pressure, cardiac output, or systemic vascular resistance. Mitral valve area increased after valvuloplasty (0.9 +/- 0.2 cm2 [baseline] vs 1.6 +/- 0.3 cm2 [postvalvuloplasty]; p <0.001). A decrease in left atrial pressure (25 +/- 4 mm Hg [baseline] vs 17 +/- 4 mm Hg [after valvuloplasty]; p <0.001) and pulmonary artery systolic pressure (58 +/- 12 mm Hg [baseline] vs 45 +/- 8 mm Hg [after valvuloplasty]; p <0.001) was observed after valvuloplasty. No change in cardiac output or PVR was observed. Thus inhaled NO, but not balloon valvuloplasty, acutely reduced PVR in women with MS and PH. This suggests that a reversible, endothelium-dependent regulatory abnormality of vascular tone is an important mechanism of elevated PVR in MS.     

Correction of hypercoagulability and amelioration of pulmonary arterial hypertension by chronic blood transfusion in an asplenic hemoglobin E/beta-thalassemia patient

Chronic transfusion of packed red blood cells, in addition to other ongoing treatment with warfarin, acetyl salicylic acid, desferrioxamine, and other supportive measures, was given to a splenectomized hemoglobin E/beta-thalassemia woman with pulmonary arterial hypertension (PHT). Serial measurements of plasma thrombin-antithrombin III complex (TAT) levels and right-sided cardiac catheterization were used to monitor changes after treatment. Reduction of plasma TAT levels from 7.5 to 3.8 microg/L (normal, 3 +/- 2.4 microg/L), pulmonary vascular resistance (PVR) from 553.8 to 238.6 dyne.sec.cm(-5) (normal, 67 +/- 30 dyne.sec.cm(-5)), and mean pulmonary arterial pressure from 51 to 32 mm Hg (normal, 9 to 19 mm Hg) occurred in tandem. Normalization of blood hypercoagulability as reflected in plasma TAT level by chronic blood transfusion was the likely basis for improvement of increased PVR, being secondary to thrombotic pulmonary arteriopathy and subsequently PHT.     

肺移植对5例慢性阻塞性肺疾病患者肺功能的影响

目的研究单肺移植手术治疗慢性阻塞性肺疾病(COPD)对呼吸生理及肺功能的影响。方法5例患者均为Ⅳ级COPD男性患者,年龄51～63岁。术前2周测定患者用力肺活量(FVC)、第一秒用力呼气容积(FEV1)、FEV1/FVC、最大通气量(MVV)、残气容积(RV)、肺总量(TLC)、残总比(RV/TLC)、深吸气量(IC)、胸腔气体容积(TGV)、呼气峰流量(PEF)、总气道阻力(Rawtotal)、肺一氧化碳弥散量(DLCO)、每升肺泡容积肺一氧化碳弥散量(DLCO/V·A)、6分钟行走距离(6MWD)、动脉血氧分压(PaO2)、肺泡气动脉血氧分压差[P(Aa)O2]、动脉血氧饱和度(SaO2)、动脉血二氧化碳分压(PaCO2)及平均肺动脉压(mPAP)等参数。术后2个月再行上述测定。结果5例患者术前2周、术后2个月检测的参数为MVV(23.6±5.8)、(71.6±21.8)L,FEV1(0.68±0.21)、(1.85±0.46)L,FEV1/FVC(37.4±8.3)、(75.6±13.9)%,PaO2(60.0±9.1)、(86.2±2.9)mmHg(1mmHg=0.133kPa),SaO2(90.0±4.6)%、(96.8±0.5)%及mPAP(31.2±5.5)、(16.6±1.8)mmHg,均有显著改善(P均<0.05);3例患者IC[(1.16±0.26)、(1.83±0.35)L]、TGV[(6.52±0.27)、(4.52±0.29)L]、RV[(5.12±0.39)、(3.20±0.32)L]、RV/TLC[(71.0±5.6)、(51.3±2.5)%]及Rawtotal[(6.62±0.99)、(2.48±0.87)cmH2O·L-1·s-1]改善显著(P均<0.05);4例患者PEF[(1.65±0.40)、(3.92±1.63)L/s]、DLCO[(8.5±3.0)、(21.0±6.2)ml·min-1·mmHg-1]及6MWD[(46.8±14.7)、(246.8±51.9)m]也显著增加(P均<0.05);FVC[(1.85±0.40)、(2.45±0.49)L]、TLC[(7.19±0.15)、(6.26±0.73)L]、DLCO/V·A[(2.90±1.50)、(5.41±0.87)L·min-1·mmHg-1]、P(Aa)O2[(37.6±16.3)、(17.8±6.3)mmHg]及PaCO2[(44.6±7.7)、(37.4±3.4)mmHg]有所改善,但差异无统计学意义(P均>0.05)。结论COPD患者肺移植术后肺通气、气道阻力、残气、弥散、运动耐力及气体交换功能均明显改善。     

合并肺动脉高压心脏移植患者术后早期血流动力学分析及处理

目的观察和探讨心脏移植患者术前肺动脉压力和肺循环阻力与术后右心功能不全的关系,及降低因术后早期肺动脉高压造成右心功能损害的临床措施。方法54例接受同种原位心脏移植手术的患者,根据术前肺动脉收缩压（sPAP）≥45nmmHg（1mmHg=0．133kPa）或〈45mmHg,分为Ⅰ组34例和Ⅱ组20例。统计术前血流动力学指标心排指数（CI）、肺循环阻力（PVR）、中心静脉压（CVP）。Swan-Ganz导管连续监测术后60h内的平均肺动脉压（mPAP）、PVR、CI等指标的动态变化。床旁超声分别监测和评价术后3、7、14、21天和1个月时的三尖瓣反流程度。术后肺动脉高压及右心功能维护治疗措施包括利尿、NO吸入、静脉注射前列环素（llomedin 20）、血液滤过等。结果本组患者无术后早期死亡（术后30天内）。Ⅰ、Ⅱ组患者术前的sPAP分别为（60±12）mmHg和（25±9）mmHg（P〈0．01）;PVR分别为（358±150）dyn·s^-1·cm^-5和（140±68）dyn·s^-1·cm^-5（P〈0．01）。术后早期出现右心功能不全的患者Ⅰ组24／34（70．6％）例,Ⅱ组7／20（35．0％）例,两组比较,差异有统计学意义（P=0．01）。Ⅰ组患者术后早期肺动脉压力和PVR仍明显高于Ⅱ组患者,并且在较长的时间后才逐渐下降至正常或仍维持偏高水平。Ⅰ组患者术后早期三尖瓣反流的严重程度高于Ⅱ组患者（P〈0．05）,但随着术后时间的延长,两组患者三尖瓣反流程度差异无统计学意义。结论心脏移植患者术前肺动脉高压的严重程度是影响术后早期右心功能的关键因素。通过有效的降低和防治术后早期肺动脉高压,降低右心负荷,可以明确降低和缩短因肺动脉高压造成术后早期右心功能损害的严重程度和持续时间,有利于术后早期心功能的恢复并维持良好的远期心功能状态。     

Effects of lipo-prostaglandin E1 on pulmonary hemodynamics and clinical outcomes in patients with pulmonary arterial hypertension

OBJECTIVE: To determine whether lipid microspheres containing prostaglandin E1 (lipo-PGE1) improve pulmonary hemodynamics and clinical outcomes in patients with pulmonary arterial hypertension (PAH). METHODS: Forty-nine patients with PAH (8 patients with primary pulmonary hypertension, 21 patients with collagen vascular disease, 20 patients with congenital systemic-to-pulmonary shunts) were randomly classified into a conventional therapy group (n = 22) or a group receiving lipo-PGE1 plus conventional drugs (lipo-PGE1 group; n = 27). Echocardiographic pulmonary parameters, New York Heart Association (NYHA) functional class, and Bruce treadmill test results for exercise capacity were recorded before and after treatment. RESULTS: After 2 weeks of treatment with lipo-PGE1 (10 microg bid for 14 days), there were significant improvements in the values (+/- SD) for systolic pulmonary arterial pressure (SPAP) [76.9 +/- 27.9 mm Hg vs 66.5 +/- 22.8 mm Hg, p < 0.001]; total pulmonary resistance (27.2 +/- 13.3 dyne.s.cm(-5) vs 20.2 +/- 10.7 dyne.s.cm(-5), p < 0.001); left ventricular ejection fraction (58.7 +/- 9.6% vs 64.4 +/- 6.8%, p < 0.001); and cardiac output (3.1 +/- 0.8 L/min vs 3.7 +/- 1.1 L/min, p < 0.01). The NYHA functional class decreased from 3.0 +/- 0.6 to 2.5 +/- 0.6 (p < 0.001), and the exercise capacity increased from 2.8 +/- 1.0 to 4.3 +/- 1.3 metabolic equivalents (MET) [p < 0.001]. Compared with the conventional therapy group, the lipo-PGE(1) group achieved significant reduction of SPAP (10.4 +/- 10.3 mm Hg vs 2.2 +/- 5.6 mm Hg, p = 0.002) and a significant elevation of exercise capacity (1.5 +/- 0.9 MET vs 0.6 +/- 1.1 MET, p = 0.018). CONCLUSION: Lipo-PGE1 can decrease pulmonary artery pressure and increase exercise capacity in patients with PAH.     

Impaired response of atrial natriuretic factor to blood volume expansion in acute right ventricular infarction.

To assess the role of atrial natriuretic factor (ANF) in right ventricular (RV) infarction, 30 patients with inferior wall acute myocardial infarction (15 with RV involvement) and normal left heart filling pressures were studied 39 +/- 12 hours after the onset of symptoms. Serial measurements of cardiac output, right atrial, pulmonary artery and pulmonary wedge pressures, as well as plasma ANF, plasma renin activity, plasma aldosterone and vasopressin were obtained before and 30 minutes after acute volume expansion to raise wedge pressure greater than or equal to 20 mm Hg. Baseline mean right atrial pressure and plasma ANF levels were greater in patients with than without RV infarction (8 +/- 3 vs 5 +/- 2 mm Hg; p less than 0.0001, and 4.6 +/- 2.9 vs 2.7 +/- 1.5 fmol/ml; p less than 0.05, respectively). There were no differences in other baseline hemodynamic or humoral parameters between both groups. After volume expansion, pulmonary wedge pressure was similar in both groups, but right atrial pressure increased to higher levels in patients with RV infarction (19 +/- 2 vs 14 +/- 2 mm Hg; p less than 0.0001). Despite this greater stimulus for ANF secretion, the increase in plasma ANF was less pronounced in patients with RV infarction (63 +/- 81 vs 455 +/- 417%; p less than 0.002), especially among those with paroxysmal supraventricular tachyarrhythmias. Thus, despite higher baseline plasma levels of ANF, response to volume loading is markedly attenuated in patients with RV infarction complicating an inferior wall acute myocardial infarction.     

Methylene blue improves the hepatopulmonary syndrome

BACKGROUND: The hypoxemia of the hepatopulmonary syndrome, seen in patients with severe chronic liver dysfunction, results from widespread pulmonary vasodilation. No established drug therapy is available for this condition. OBJECTIVE: To study the effect of methylene blue, a potent inhibitor of guanylate cyclase, in patients with severe hepatopulmonary syndrome. DESIGN: Open, uncontrolled trial. SETTING: Medical intensive care unit at the university hospital in Vienna, Austria. PATIENTS: 7 patients with advanced cirrhosis and severe hepatopulmonary syndrome with PaO(2) of 60 mm Hg or less. INTERVENTION: Insertion of a pulmonary artery catheter and an arterial indwelling catheter; intravenous administration of methylene blue, 3 mg/kg of body weight, over a 15-minute period. MEASUREMENTS: Serial measurements of gas exchange and hemodynamic variables. RESULTS: After methylene blue administration, PaO(2) increased in all patients (from a baseline mean +/- SD of 58 +/- 2.5 mm Hg to 74 +/- 11.5 mm Hg 5 hours after infusion; P = 0.006) and the alveolar-arterial difference for partial pressure of oxygen (PAO(2) - PaO(2) ) decreased in all patients, with a maximum effect achieved after 5 hours (from 49 +/- 3.3 mm Hg to 30 +/- 10.4 mm Hg; P = 0.003); even after 10 hours, PAO(2) - PaO(2) was still significantly reduced compared with baseline (P = 0.041). Oxygenation improved because of reduction in shunt fraction (from 41% +/- 3.1% to 25% +/- 4.5%; P < 0.001). Mean pulmonary artery pressure increased (from 20 +/- 5.2 mm Hg to 23 +/- 3.6 mm Hg; P = 0. 028), as did pulmonary vascular resistance (from 58 +/- 23 dyne/sec. cm(-5) to 115 +/- 56 dyne/sec. cm(-5); P = 0.012). Arterial blood pressure did not change significantly. Cardiac output decreased (from 10.6 +/- 2.2 L/min to 8.6 +/- 2.7 L/min; P = 0.008) and systemic vascular resistance increased (from 527 +/- 144 dyne/sec. cm(-5) to 729 +/- 222 dyne/sec. cm(-5); P = 0.037). Heart rate, central venous pressure, and pulmonary capillary wedge pressure remained unchanged. CONCLUSION: Intravenous methylene blue improved hypoxemia and hyperdynamic circulation in patients with liver cirrhosis and severe hepatopulmonary syndrome.     

Correlation of left ventricular diastolic filling characteristics with right ventricular overload and pulmonary artery pressure in chronic thromboembolic pulmonary hypertension

OBJECTIVES: This study was designed to determine a quantitative relationship between right ventricular (RV) pressure overload and left ventricular (LV) diastolic filling characteristics in patients with chronic thromboembolic pulmonary hypertension (CTEPH). BACKGROUND: Right ventricular pressure overload in patients with CTEPH causes abnormal LV diastolic filling. However, a quantitative relationship between RV pressure overload and LV diastolic function has not been established. METHODS: We analyzed pre- and postoperative diastolic mitral inflow velocities and right heart hemodynamic data in 39 consecutive patients with CTEPH over the age of 30 (55 +/- 11 years) with mean pulmonary artery pressure >30 mm Hg who underwent pulmonary thromboendarterectomy (PTE). RESULTS: After PTE, mean pulmonary artery pressure (mPAP) decreased from 50 +/- 11 to 28 +/- 9 mm Hg (p < 0.001) while cardiac output (CO) increased from 4.4 +/- 1.1 to 5.7 +/- 0.9 l/m (p < 0.001). Mitral E/A ratio (E/A) increased from 0.74 +/- 0.22 to 1.48 +/- 0.69 (p < 0.001). E/A was < 1.25 in all patients pre-PTE. After PTE, all patients with E/A >1.50 had mPAP <35 mm Hg and CO >5.0 l/min. E/A correlated inversely with mPAP (r = 0.55, p < 0.001) and directly with CO (r = 0.53, p < 0.001). CONCLUSIONS: E/A is consistently abnormal in patients with CTEPH and increases post-PTE. Moreover, E/A varies inversely with mPAP and directly with CO. Following PTE, E/A >1.5 correlates with the absence of severe pulmonary hypertension (mPAP >35 mm Hg) and the presence of normal cardiac output (> 5.0 l/m).     

Adenosine plasma concentration in pulmonary hypertension.

OBJECTIVE: In this study, we sought to appreciate the role of adenosine in the regulation of pulmonary vascular tone, especially in the case of clinical pulmonary hypertension, by investigating the relationship between endogenous plasma adenosine levels and pulmonary artery vasoconstriction. METHODS: Adenosine plasma concentrations, were measured simultaneously in the distal right pulmonary artery and in the femoral artery, both at steady state (room air) and during pure oxygen inhalation. Three clinical situations were considered: (1) normal hemodynamics [7 control subjects, mean pulmonary artery pressure (MPAP) = 18.5 +/- 1 mm Hg], (2) moderate pulmonary hypertension secondary to chronic obstructive pulmonary disease (COPD), (8 patients, MPAP = 31 +/- 3 mm Hg), (3) severe primary pulmonary hypertension (PPH), (8 patients, MPAP = 70 +/- 5 mm Hg). RESULTS: In every instance, adenosine evaluated by HPLC was higher in the pulmonary than in the systemic circulation. For room air, adenosine plasma concentrations were significantly lower in COPD (0.49 +/- 0.16 mumol l-1) and PPH patients (0.45 +/- 0.14 mumol l-1) than in controls (1.26 +/- 0.12 mumol l-1). During O2 administration, adenosine plasma concentrations all decreased but more so in COPD and PPH patients. The significant correlations between adenosine plasma concentrations and both pulmonary vascular resistance and PvO2, in controls, were not found in COPD or PPH patients. CONCLUSION: The adenosine plasma concentrations in the pulmonary circulation of PPH and COPD patients are low, and may contribute to pulmonary artery hypertension.