Airway Reactance Predicts Static Lung Hyperinflation in Severe Asthma

Background: Static lung hyperinflation (SLH) measured using body plethysmography in patients with asthma is associated with poor outcomes. The severity of SLH may be associated with small airway dysfunction (SAD), which can be measured using impulse oscillometry (IOS). Objective: This study aims to determine the correlation between SLH and SAD in patients with severe asthma and assess the improvement in SLH and SAD with treatment. Methods: We analyzed data from patients who were enrolled in the Taiwan Severe Asthma Registry, which comprises a prospective observational cohort. Plethysmography and IOS were performed regularly. The relationship between spirometry and IOS parameters was determined. Changes in the clinical outcomes in response to treatment were analyzed. Results: Of 107 patients with severe asthma, 83 (77.6%) had SLH based on an increased residual volume to total lung capacity ratio (RV/TLC). Most patients were older women with worse pulmonary function and SAD than those without SLH. SAD, defined as increased airway resistance/reactance, was significantly correlated with SLH. Airway reactance at 5 Hz (X5) ≤−0.21 kPa/(L/s) detected SLH with an area under the receiver operating characteristic curve of 0.84 (P<.0001; sensitivity, 85.2%; and specificity, 83.3%). After 12 months, patients who received add-on biologics (vs those who did not) had significantly reduced exacerbations, fractional exhaled nitric oxide level, and blood eosinophil counts, as well as improved forced expiratory volume in the first second, X5, and a trend toward reduced RV/TLC ratio. Conclusion: In severe asthma, airway reactance (X5) could be a novel parameter for assessing SLH. (AU)

Antecedentes: En el asma bronquial, la hiperinsuflación pulmonar estática (SLH) medida mediante pletismografía corporal (Pleth) se asocia a un peor pronóstico. La gravedad de la SLH podría estar asociada con la disfunción de las vías respiratorias pequeñas (SAD), que puede medirse mediante la oscilometría de impulsos (IOS). Objetivo: Este estudio pretende determinar la correlación entre el SLH y la SAD en pacientes con asma grave, y la mejora de ambos parámetros en respuesta al tratamiento. Métodos: Se analizaron los datos de los pacientes que se inscribieron en el Registro de Asma Grave de Taiwán, una cohorte observacional prospectiva. Se realizaron periódicamente mediciones de Pleth e IOS. Se determinó la relación entre los parámetros espirométricos e IOS. Se analizaron los cambios en los parámetros clínicos y funcionales en respuesta al tratamiento. Resultados: De una muestra de 107 pacientes con asma grave, 83 (77,6%) presentaban SLH, definida mediante una relación volumen residual/capacidad pulmonar total (VR/CTP) aumentada. La mayoría de los pacientes eran mujeres de edad avanzada con peor función pulmonar y SAD, en comparación con los que no tenían SLH. El SAD por aumento de la resistencia/reactancia de las vías respiratorias se correlacionó significativamente con el SLH. La reactancia de las vías respiratorias a 5 Hz (X5) ≤-0,21 [kPa/(L/s)] detectó el SLH con un área bajo la curva ROC de 0,84 (p < 0,0001, sensibilidad = 85,2% y especificidad = 83,3%). Después de 12 meses, los pacientes que recibieron tratamiento biológico adicional presentaron una reducción significativa de las exacerbaciones, del nivel de óxido nítrico exhalado, del recuento de eosinófilos en sangre, una mejora del volumen espiratorio forzado en el primer segundo, de la X5, y una tendencia a la reducción del cociente RV/TLC en comparación con los que no recibieron tratamiento biológico... (AU)

[Body plethysmography (I): Standardisation and quality criteria]. / Pletismografía corporal (I): estandarización y criterios de calidad.

Whole body plethysmography is used to measure lung volumes, capacities and resistances. It is a well standardised technique, and although it is widely used in paediatric chest diseases units, it requires specific equipment, specialist staff, and some cooperation by the patient. Plethysmography uses Boyle's law in order to measure the intrathoracic gas volume or functional residual capacity, and once this is determined, the residual volume and total lung capacity is extrapolated. The measurement of total lung capacity is necessary for the diagnosis of restrictive diseases. Airway resistance is a measurement of obstruction, with the total resistance being able to be measured, which includes chest wall, lung tissue and airway resistance, as well as the specific airway resistance, which is a more stable parameter that is determined by multiplying the measured values of airway resistance and functional residual capacity. The complexity of this technique, the reference equations, the differences in the equipment and their variability, and the conditions in which it is performed, has led to the need for its standardisation. Throughout this article, the practical aspects of plethysmography are analysed, specifying recommendations for performing it, its systematic calibration and the calculations that must be made, as well as the interpretation of the results obtained. The aim of this article is to provide a better understanding of the principles of whole body plethysmography with the aim of optimising the interpretation of the results, leading to improved management of the patient, as well as a consensus among the speciality.