Abstract

Excessive ventilation (V̇E) during exercise, ascribed to heightened neural ventilatory drive and/or to increased “wasted” ventilation, is a feature of chronic thromboembolic pulmonary hypertension (CTEPH). In selected CTEPH patients, balloon pulmonary angioplasty (BPA) allows near-normalization of resting haemodynamic parameters but does not allow excess exercise hyperventilation to normalize. Neural ventilatory drive can be estimated by studying how arterial PCO2 (PaCO2), end-tidal PCO2 (PETCO2), V̇E and CO2 output (V̇CO2) change across the exercise-to-recovery transition during a cardiopulmonary exercise test. Increased “wasted” ventilation can be quantified by the physiological dead space fraction of tidal volume (VD/VT) calculated with the Enghoff simplification of the Bohr equation. These measurements were made before and after BPA in 22 CTEPH patients without significant cardiac and/or pulmonary comorbidities. Our observations suggest that before BPA, excessive hyperventilation was secondary to both heightened neural ventilatory drive and increased “wasted” ventilation; after BPA, measurements made across the exercise-to-recovery transition suggest that heightened neural ventilatory drive was no longer present.

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