Bisoprolol and/or hyperoxic breathing do not reduce hyperventilation in pulmonary arterial hypertension patients

Hyperventilation is common in pulmonary arterial hypertension and may be related to autonomic imbalance. Patients underwent exercise testing and hyperoxic breathing before and after bisoprolol treatment. We found that neither beta blocker treatment nor hyperoxic breathing in patients reduced hyperventilation at rest and during exercise, although it reduced heart rate.


Research letter
Pulmonary arterial hypertension (PAH) is a rare but severe disease, characterized by obstructive remodelling of pulmonary arteries and leading to right ventricular failure. 1 PAH is incurable, and treatment options are limited.The main symptoms of PAH are (exertional) dyspnoea, impaired exercise performance and reduced quality of life. 2 PAH patients often present with an increased minute volume (VE) at rest (i.e.4][5] Hyperventilation in PAH is related to disease severity 3,5,6 and is associated with hypocapnia, a strong and independent prognostic value for survival. 7In addition, it may further exaggerate the feelings of dyspnoea.[10] It has been shown previously that four months of carvedilol treatment improves ventilatory efficiency in chronic heart failure patients. 11In addition, patients taking beta blockers showed to have lower minute ventilation (VE) both at rest and during exercise compared to patients not on beta blockers. 12However, we are not aware of studies on the effect of long-term beta blocker use on ventilation in PAH patients.Yet, acute hyperoxic breathing showed to increase ventilatory efficiency in PAH patients during, but not at the start of exercise. 13hus, we hypothesized that lowering sympathetic activity and/or acute hyperoxic breathing will reduce hyperventilation.We took advantage of the bisoprolol trial in PAH 14 to investigate whether long-term beta blocker treatment or acute hyperoxic breathing, known to reduce sympathetic activity, 10 lowers ventilation in PAH patients.
Informed consent was obtained from all patients and a Data Safety Monitoring Board (DSMB) was appointed.The trial was registered at clinicaltrials.govbefore recruitment was initiated (Clinicaltrials.govNCT01246037, EudraCT 2010-020424-21).The study design and in-and exclusion criteria, and the cardiopulmonary exercise testing (CPET) protocol have been described in detail elsewhere. 14n short, all idiopathic PAH patients above 18 years of age and in New York Heart Association (NYHA) class II and III were screened for eligibility.Patients received six months of bisoprolol and placebo treatment in a cross-over manner, in random order.At baseline, before cross-over and at the end of the study, patients underwent CPET, arterial blood gas (ABG) analysis and ventilatory measurements.ABG was taken from the radial artery after at least 10 min of supine rest.Ventilatory measurements were performed in absolute resting condition, in a supine position in a quiet room.After breathing room-air for at least 10 min, VE, tidal volume (VT), respiratory rate (RR) and end-tidal CO 2 (P ET CO 2 ) were measured breath-by-breath using a metabolic cart (Vmax Encore 21-1, Yorba Linda, USA) and analysed as 20 s averages.Oxygen saturation (SaO 2 ) was measured by pulse-oximetry (9600, Nonin, Plymouth, USA) and heart rate by electrocardiography (Eagle 4000, Marquette).After 10 min, the inspired oxygen fraction (FiO 2 ) was changed.Measurements were performed with an FiO 2 of 21% and 40%, in random order, both for 10 min.Blinding codes were broken on the last day of the third admission or at early termination of the study.However, all data were analysed in a blinded fashion.
Statistics were performed using GraphPad Prism 7. Two-way repeated measures ANOVA was used to test for the effects of bisoprolol at baseline and after treatment, and to test the effects of hyperoxic breathing both after placebo and bisoprolol treatment.p < 0.05 was considered statistically significant.Continuous variables are presented as mean AE standard deviation (SD).
Eighteen patients were enrolled into the study from February 2011 until January 2014, of whom 17 underwent CPET and ventilatory measurements at baseline.Fifteen out of 17 patients received placebo for the full six months during the placebo arm of the study.In the bisoprolol arm of this study, 16 patients received bisoprolol for six months. 14As such, a complete paired set of data is available from 15 patients.
As a reflection of our general PAH population, NYHA class II and III were equally represented, mean age was 46 AE 14 years and there was a strong female predominance (only one male patient was included).Average mean arterial pressure (mPAP) was 48 AE 11 mmHg and 6-minute walking Ten minutes of hyperoxic breathing with FiO 2 ¼ 40% significantly increased SaO 2 with 3.9% (p ¼ 0.0012) and decreased heart rate with 3.6 bpm (p ¼ 0.0044).However, no effect was found on ventilation as reflected by VE, RR, VT and P ET CO 2 .In addition, no interaction-effect between bisoprolol treatment and hyperoxic breathing at rest was found for any of the outcome variables, indicating no cumulative or opposing effects of bisoprolol and hyperoxic breathing.
Collectively, our results show that ventilation at rest is not affected by bisoprolol or hyperoxic breathing, either alone or in combination.Furthermore, bisoprolol did not improve ventilatory inefficiency during exercise.The reductions in heart rate following bisoprolol treatment and hyperoxic breathing strongly suggest decreased SNS activity.
Limitations of the present study are the small sample size and the wide range of bisoprolol doses in our patients.We did not directly measure sympathetic nerve activity or chemoreceptor activity, and therefore cannot prove nor exclude the role of the sympathetic nervous system in hyperventilation in PAH.The lack of effect in the current study may thus be related to the relatively low dose of bisoprolol, the type of beta blocker, 15 or the level and short duration of hyperoxia.However, oxygen has also central effects on respiratory centres in the brain stem, possibly via ROS signalling, which causes long-lasting increases in ventilation. 16hilst the use of this effect is unknown, it may have masked the initial reduction in ventilation due to peripheral chemoreceptor silencing.Alternatively, other factors may drive ventilation in PAH, including mechanical forces in the pulmonary circulation, low work rate lactic acidosis, hyperkalaemia and altered central regulation of breathing. 5,17,18iven the strong prognostic value of VE/VCO 2 and hypocapnia, unravelling the aetiology of hyperventilation in PAH may help to improve treatment and thereby enhance survival and quality of life.

Table 1 .
Effects of bisoprolol and hyperoxic breathing on ventilation at rest and during exercise.468 AE 84 m. Results of CPET, ABG and ventilatory measurements at baseline and after placebo and bisoprolol treatment are shown in Table 1.Baseline measurements showed a high minute ventilation and a low P ET CO 2 and PaCO 2 .There were no signs of metabolic alkalosis.The reached dosage of bisoprolol (4.5 AE 3.3 mg on average) was associated with a reduction in heart rate of 12 bpm (p ¼ 0.004) at rest in normoxia, suggesting decreased sympathetic nerve activity.However, minute ventilation, tidal volume or respiratory rate were unchanged.No changes in P ET CO 2 or PaCO 2 were observed, indicating an unchanged ventilation and perfusion.At baseline, VE/ VCO 2 slope was elevated (43.3 AE 10.8), indicating reduced ventilatory efficiency during exercise.Bisoprolol did not reduce heart rate at the start of CPET or at maximum exercise.Neither ventilatory efficiency, VE peak ,R R peak ,V T peak or P ET CO 2 were changed after bisoprolol treatment.
p-values for the main effects of bisoprolol and hyperoxia, as well as the interaction-effect, are given in italic numbers.*p < 0.05.AT: anaerobic threshold; HR: heart rate; VE: total minute ventilation; RR: respiratory rate; VT: tidal volume; P ET CO 2 : end-tidal partial pressure of CO 2 ; SaO 2 : oxygen saturation; FiO 2 : inspired fraction of oxygen.distance