Kaoruko Shimizu1, Naoya Tanabe2, Akira Oguma3, Hirokazu Kimura3, Masaru Suzuki3, Isao Yokota4, Hironi Makita5, Susumu Sato2, Toyohiro Hirai2, Masaharu Nishimura5, Satoshi Konno3. 1. Department of Respiratory Medicine, Faculty of Medicine, Hokkaido University, Sapporo, Japan. Electronic address: okaoru@med.hokudai.ac.jp. 2. Department of Respiratory Medicine, Graduate School of Medicine, Kyoto University, Kyoto, Japan. 3. Department of Respiratory Medicine, Faculty of Medicine, Hokkaido University, Sapporo, Japan. 4. Department of Biostatistics, Graduate School of Medicine, Hokkaido University, Sapporo, Japan. 5. Department of Respiratory Medicine, Faculty of Medicine, Hokkaido University, Sapporo, Japan; Hokkaido Institute of Respiratory Diseases, Sapporo, Japan.
Abstract
BACKGROUND: Fixed airflow obstruction (FAO) in asthma, particularly in nonsmokers, is generally believed to be caused by airway remodeling. However, parenchymal destruction may also contribute to FAO and longitudinal decline in forced expiratory volume in 1 second (FEV1). OBJECTIVES: To evaluate parenchymal destruction, we used emphysema indices, exponent D, and low-attenuation area percentage (LAA%) on computed tomography (CT), and test whether the parenchymal destruction and airway disease are independently associated with FAO and FEV1 decline in both smoking and nonsmoking asthma. METHODS: Exponent D, LAA%, wall area percentage at segmental airways, and airway fractal dimension (AFD) in those with asthma were measured on inspiratory CT and compared to those in patients with chronic obstructive pulmonary disease (COPD). RESULTS: Exponent D was lower and LAA% was higher in COPD (n = 42) and asthma with FAO (n = 101) than in asthma without FAO (n = 88). The decreased exponent D and increased LAA% were associated with FAO regardless of smoking status or asthma severity. In multivariable analysis, decreased exponent D and increased LAA% were associated with an increased odds ratio of FAO and decreased FEV1, irrespective of wall area percentage and airway fractal dimension. Moreover, decreased exponent D affected the longitudinal decline in FEV1 in those with severe asthma, independent of smoking status. CONCLUSIONS: Patients with asthma with FAO showed parenchymal destruction regardless of smoking status and asthma severity. Parenchymal destruction was associated with an accelerated FEV1 decline, suggesting the involvements of both airway and parenchyma in the pathophysiology of a subgroup of asthma.
BACKGROUND: Fixed airflow obstruction (FAO) in asthma, particularly in nonsmokers, is generally believed to be caused by airway remodeling. However, parenchymal destruction may also contribute to FAO and longitudinal decline in forced expiratory volume in 1 second (FEV1). OBJECTIVES: To evaluate parenchymal destruction, we used emphysema indices, exponent D, and low-attenuation area percentage (LAA%) on computed tomography (CT), and test whether the parenchymal destruction and airway disease are independently associated with FAO and FEV1 decline in both smoking and nonsmoking asthma. METHODS: Exponent D, LAA%, wall area percentage at segmental airways, and airway fractal dimension (AFD) in those with asthma were measured on inspiratory CT and compared to those in patients with chronic obstructive pulmonary disease (COPD). RESULTS: Exponent D was lower and LAA% was higher in COPD (n = 42) and asthma with FAO (n = 101) than in asthma without FAO (n = 88). The decreased exponent D and increased LAA% were associated with FAO regardless of smoking status or asthma severity. In multivariable analysis, decreased exponent D and increased LAA% were associated with an increased odds ratio of FAO and decreased FEV1, irrespective of wall area percentage and airway fractal dimension. Moreover, decreased exponent D affected the longitudinal decline in FEV1 in those with severe asthma, independent of smoking status. CONCLUSIONS: Patients with asthma with FAO showed parenchymal destruction regardless of smoking status and asthma severity. Parenchymal destruction was associated with an accelerated FEV1 decline, suggesting the involvements of both airway and parenchyma in the pathophysiology of a subgroup of asthma.