Epoprostenol therapy for primary pulmonary hypertension.

Although a rare disease, PPH is deadly. Until recently, patients had little hope for remission of this disease. Originally viewed as a "bridge to transplantation," new research findings suggest that epoprostenol significantly improves PPH so that transplantation may not be necessary. Treatment with epoprostenol is difficult to manage, however, because it requires continuous central infusion. Nurses have a key role in ensuring that patients safely and effectively manage this therapy.

Compassionate use of continuous prostacyclin in the management of secondary pulmonary hypertension: a case series.

BACKGROUND: Treatment of patients with secondary pulmonary hypertension has been unsatisfactory. OBJECTIVE: To describe exercise capacity, functional class, and hemodynamic variables after long-term intravenous infusion of prostacyclin in patients with secondary pulmonary hypertension. DESIGN: Case series. SETTING: Academic referral center. PATIENTS: 33 patients with secondary, precapillary pulmonary hypertension (New York Heart Association class III or IV). INTERVENTION: Continuous intravenous prostacyclin administered by portable infusion pump on a compassionate-use basis. MEASUREMENTS: Functional class, treadmill time, and hemodynamic variables. RESULTS: Patients were followed for an average of 12.7 +/- 5.6 months. Exercise tolerance and New York Heart Association class improved in each patient. The duration of treadmill exercise increased from 186 seconds to 491 seconds, an increase of 305 seconds (95% CI, 194 to 417 seconds; P < 0.001). Mean pulmonary artery pressure decreased from 60 mm Hg to 46 mm Hg, a decrease of 14 mm Hg (CI, 9 to 19 mm Hg; P < 0.001). Cardiac output increased from 3.90 L/min to 6.30 L/min, an increase of 2.40 L/min (CI, 1.56 to 3.25 L/min; P < 0.001). The pulmonary vascular resistance decreased from 1143 dynes x s/cm5 to 575 dynes x s/cm5, a decrease of 567 dynes x s/cm5 (CI, 407 to 727 dynes x s/cm5; P < 0.001). Patients with collagen vascular disease, congenital heart disease, and portopulmonary hypertension were analyzed with other patients and separately. All groups had a statistically significant reduction in mean pulmonary artery pressure and a statistically significant increase in cardiac output. CONCLUSION: Intravenous prostacyclin may be effective in the treatment of patients with certain types of secondary pulmonary hypertension.

The short-term effects of digoxin in patients with right ventricular dysfunction from pulmonary hypertension.

OBJECTIVE: Studies on the effects of digoxin in patients with right ventricular failure and normal left ventricular function have not been performed. We evaluated the short-term effects of digoxin administration in patients with primary pulmonary hypertension on hemodynamics, neurohormones, and baroreceptor responsiveness. DESIGN: This was a prospective study with patients serving as their own controls. SETTING: University Hospital Intensive Care Unit with central monitoring. PATIENTS: Seventeen patients with primary pulmonary hypertension and symptomatic heart failure were enrolled. INTERVENTIONS: Following baseline hemodynamics, neurohormonal samples were drawn and the heart rate response to change in blood pressure following a challenge of phenylephrine and nitroprusside were recorded. One mg of intravenous digoxin was given and the measurements repeated after 2 hours. RESULTS: Following digoxin there was a significant increase in cardiac output (3.49+/-1.2 to 3.81+/-1.2 L/min., p=0.028), a significant fall in norepinephrine (680+/-89 to 580+/-85 pg/ml, p=.013), and a significant increase in atrial natriuretic peptide (311+/-44 to 421+/-9 pg/ml, p=0.01). All of the patients had changes in heart rate and blood pressure following phenylephrine and nitroprusside challenge, but there was no significant difference in the change in heart rate response to change in blood pressure when rechallenged after digoxin treatment. CONCLUSION: Digoxin produces a modest increase in cardiac output in patients with pulmonary hypertension and right ventricular failure, as well as a significant reduction in circulating norepinephrine. No detectable effects of digoxin on baroreceptor responsiveness were apparent. The use of digoxin in pulmonary hypertension is warranted.

Reduction in pulmonary vascular resistance with long-term epoprostenol (prostacyclin) therapy in primary pulmonary hypertension.

BACKGROUND: Primary (idiopathic) pulmonary hypertension is a progressive, fatal disease. Conventional therapy with anticoagulant and vasodilator drugs may improve symptoms and survival among selected patients, but there is no evidence that the disease can be reversed. METHODS: We evaluated the effects of long-term therapy (i.e., for more than one year) with intravenous epoprostenol (prostacyclin) in patients with advanced primary pulmonary hypertension. The base-line evaluation included an assessment of pulmonary vascular dilation in response to intravenous adenosine. The epoprostenol dose was increased monthly to the maximum tolerated. Long-term therapy was evaluated by measuring improvement in symptoms, exercise capacity, and hemodynamic measures. RESULTS: We evaluated 27 patients with primary pulmonary hypertension over a mean (+/-SD) period of 16.7+/-5.2 months. Intravenous adenosine had a variable effect on pulmonary vascular resistance (mean reduction, 27 percent; range, 0 to 56; P<0.001). Epoprostenol therapy was initiated and the rate of infusion was increased by an average of 2.4 ng per kilogram of body weight per minute each month. Twenty-six of the 27 patients had improvement in symptoms and hemodynamic measures, and overall, pulmonary vascular resistance declined by 53 percent to 7.9+/-3.8 resistance units (P<0.001) at the time of restudy. The long-term effects of epoprostenol exceeded the short-term pulmonary vasodilator response to adenosine in all but one patient. Seven of the eight patients who had minimal pulmonary vasodilation in response to adenosine (mean reduction in resistance units, <20 percent) still had a significant reduction in pulmonary vascular resistance when treated with epoprostenol (mean, 39+/-14 percent; P=0.002). CONCLUSIONS: In primary pulmonary hypertension, long-term therapy with epoprostenol lowers pulmonary vascular resistance beyond the level achieved in the short term with intravenous adenosine. Epoprostenol appears to have sustained efficacy in this disorder.