Breathlessness is a common symptom in pulmonary hypertension (PH) and an important cause of morbidity. Though this has been attributed to the well described pulmonary vascular abnormalities and subsequent cardiac remodelling, changes in the airways of these patients have also been reported and may contribute to symptoms. Our understanding of these airway abnormalities is poor with conflicting findings in many studies. The present review evaluates these studies for the major PH groups. In addition we describe the role of cardiopulmonary exercise testing in the assessment of pulmonary arterial hypertension (PAH) by evaluating cardiopulmonary interaction during exercise. As yet, the reasons for the abnormalities in lung function are unclear, but potential causes and the possible role of inflammation are discussed. Future research is required to provide a better understanding of this to help improve the management of these patients.
BackgroundBreathlessness is the most common symptom in people with pulmonary arterial hypertension and congenital heart disease (CHD‐APAH), previously thought to be caused by worsening PAH, but perhaps also by inflammation and abnormalities of lung function. We studied lung function and airway inflammation in patients with CHD‐APAH and compared the results with controls.Methods and ResultsSixty people were recruited into the study: 20 CHD‐APAH, 20 CHD controls, and 20 healthy controls. Spirometry, gas transfer, whole body plethysmography and lung clearance index, 6‐minute walk distance, and medical research council dyspnea scoring were performed. Inflammatory markers and endothelin‐1 levels were determined in blood and induced sputum. The CHD‐APAH group had abnormal lung function with lung restriction, airway obstruction, and ventilation heterogeneity. Inverse correlations were shown for CHD‐APAH between medical research council dyspnea score and percent predicted peak expiratory flow (r=−0.5383, P=0.0174), percent predicted forced expiratory flow rate at 50% of forced vital capacity (r=−0.5316, P=0.0192), as well as for percent predicted forced expiratory volume in 1 s (r=−0.6662, P=0.0018) and percent predicted forced vital capacity (r=−0.5536, P=0.0186). The CHD‐APAH patients were more breathless with lower 6‐minute walk distance (360 m versus 558 m versus 622 m, P=0.00001). Endothelin‐1, interleukin (IL)‐β, IL‐6, IL‐8, tumor necrosis factor α, and vascular endothelial growth factor were significantly higher in CHD‐APAH than controls. Serum endothelin‐1 for CHD‐APAH correlated with airflow obstruction with significant negative correlations with percent predicted forced expiratory flow rate at 75% of forced vital capacity (r=−0.5858, P=0.0135).ConclusionsRaised biomarkers for inflammation were found in CHD‐APAH. Significant abnormalities in airway physiology may contribute to the dyspnea but are not driven by inflammation as assessed by circulating and sputum cytokines. A relationship between increased serum endothelin‐1 and airway dysfunction may relate to its bronchoconstrictive properties.
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