Pharmacodynamics and pharmacokinetics of inhaled iloprost, aerosolized by three different devices, in severe pulmonary hypertension.

BACKGROUND Inhalation of iloprost, a stable prostacyclin analog, is an effective therapy for pulmonary hypertension with few side effects. This approach may, however, be handicapped by limitations of currently available nebulization devices. We assessed whether the physical characterization of a device is sufficient to predict drug deposition and pharmacologic effects. METHODS We investigated the effects of a standardized iloprost aerosol dose (5 micro g; inhaled within approximately 10 min) in 12 patients with severe pulmonary hypertension in a crossover design employing three well-characterized nebulizers. The nebulizers use different techniques to increase efficiency and alveolar targeting (Ilo-Neb/Aerotrap [Nebu-Tec; Elsenfeld, Germany], Ventstream [MedicAid; Bognor Regis, UK], and HaloLite [Profile Therapeutics; Bognor Regis, UK]). Measurements were performed using a Swan-Ganz catheter and determination of arterial iloprost plasma levels. RESULTS During inhalation of iloprost, the pulmonary vascular resistance decreased substantially (baseline, approximately 1,250 dyne.s.cm(-5); decrease, - 35.5 to - 38.0%) and pulmonary artery pressure decreased substantially (baseline, approximately 58 mm Hg; decline, - 18.4 to -21.8%), whereas the systemic arterial pressure was largely unaffected. Cardiac output and mixed venous and arterial oxygen saturation displayed a marked increase. The pharmacodynamic profiles with the three devices were superimposable. Moreover, rapid entry of iloprost into the systemic circulation was noted, peaking immediately after termination of the inhalation maneuver, with very similar maximum serum concentrations (158 pg/mL, 155 pg/mL, and 157 pg/mL), and half-lives of serum levels (6.5 min, 9.4 min, and 7.7 min) for the three nebulizers, respectively. Interestingly, the "half-life" of the pharmacodynamic effects in the pulmonary vasculature (eg, decrease in pulmonary vascular resistance, ranging between 21 and 25 min) clearly outlasted this serum level-based pharmacokinetic half-life. CONCLUSIONS A standardized dose of aerosolized iloprost delivered by different nebulizer types induces comparable pharmacodynamic and pharmacokinetic responses. Pulmonary vasodilation, persisting after disappearance of the drug from the systemic circulation, supports the hypothesis that local drug deposition largely contributes to the preferential pulmonary vasodilation in response to inhaled iloprost.

[1]  W. Krause,et al.  Pharmacokinetics and pharmacodynamics of the prostacyclin analogue iloprost in man , 2004, European Journal of Clinical Pharmacology.

[2]  W. Seeger,et al.  Pharmacokinetics and metabolism of infused versus inhaled iloprost in isolated rabbit lungs. , 2002, The Journal of pharmacology and experimental therapeutics.

[3]  Orris,et al.  INHALED ILOPROST FOR SEVERE PULMONARY HYPERTENSION , 2002 .

[4]  M. Hoeper,et al.  Long-term treatment of primary pulmonary hypertension with aerosolized iloprost, a prostacyclin analogue. , 2000, The New England journal of medicine.

[5]  R. Ewert,et al.  Effects of iloprost inhalation on exercise capacity and ventilatory efficiency in patients with primary pulmonary hypertension. , 2000, Circulation.

[6]  Rich Primary Pulmonary Hypertension. , 2000, Current treatment options in cardiovascular medicine.

[7]  W. Seeger,et al.  Inhaled Iloprost To Treat Severe Pulmonary Hypertension: An Uncontrolled Trial , 2000, Annals of Internal Medicine.

[8]  Stuart Rich,et al.  Continuous Intravenous Epoprostenol for Pulmonary Hypertension Due to the Scleroderma Spectrum of Disease , 2000, Annals of Internal Medicine.

[9]  W. Seeger,et al.  A comparison of the acute hemodynamic effects of inhaled nitric oxide and aerosolized iloprost in primary pulmonary hypertension. German PPH study group. , 2000, Journal of the American College of Cardiology.

[10]  W. Seeger,et al.  Inhaled prostacyclin and iloprost in severe pulmonary hypertension secondary to lung fibrosis. , 1999, American journal of respiratory and critical care medicine.

[11]  S. Rich,et al.  Compassionate Use of Continuous Prostacyclin in the Management of Secondary Pulmonary Hypertension: A Case Series , 1999, Annals of Internal Medicine.

[12]  R. Barst,et al.  Long-term prostacyclin for pulmonary hypertension with associated congenital heart defects. , 1999, Circulation.

[13]  J. López‐Herce,et al.  Life‐threatening effects of discontinuing inhaled nitric oxide in children , 1997, Acta paediatrica.

[14]  A. Denjean,et al.  Inhaled nitric oxide as a screening vasodilator agent in primary pulmonary hypertension , 1996 .

[15]  T. Higenbottam,et al.  Caution with use of inhaled nitric oxide , 1996, The Lancet.

[16]  W. Seeger,et al.  Aerosolized Prostacyclin and Iloprost in Severe Pulmonary Hypertension , 1996, Annals of Internal Medicine.

[17]  B. Groves,et al.  A comparison of continuous intravenous epoprostenol (prostacyclin) with conventional therapy for primary pulmonary hypertension. , 1996, The New England journal of medicine.

[18]  A. Keech,et al.  Rebound pulmonary hypertension on withdrawal from inhaled nitric oxide , 1995, The Lancet.

[19]  R. Barst,et al.  Survival in Primary Pulmonary Hypertension with Long-Term Continuous Intravenous Prostacyclin , 1994, Annals of Internal Medicine.

[20]  K. Lenz,et al.  Endothelin-1 in adult respiratory distress syndrome. , 1993, The American review of respiratory disease.

[21]  W. Seeger,et al.  Aerosolised prostacyclin in adult respiratory distress syndrome , 1993, The Lancet.

[22]  R. Rodríguez-Roisín,et al.  Effect of pulmonary hypertension on gas exchange. , 1993, The European respiratory journal.

[23]  E H Bergofsky,et al.  Survival in Patients with Primary Pulmonary Hypertension: Results from a National Prospective Registry , 1991 .

[24]  P. Angeli,et al.  Pharmacokinetics of iloprost in patients with hepatic dysfunction. , 1990, International journal of clinical pharmacology, therapy, and toxicology.

[25]  S. Rich Primary pulmonary hypertension , 1988 .