Clinical characteristics of COPD patients with and without severe exacerbations
In the present study, 481 patients with COPD were analyzed. To examine the clinical impact of severe exacerbations, the 481 patients were divided into 393 patients who never experienced severe exacerbations and 88 patients who experienced severe exacerbations from 2009 to 2019. There were no significant differences in age, sex, height, and smoking history, but weight and the body mass index were significantly lower in patients with exacerbations than in those without exacerbations (p < 0.01, respectively). As comorbidities, hypertension, diabetes mellitus, and hyperlipidemia were not different in the 2 groups, but cardiovascular disease was significantly more common in patients with exacerbations than in those without exacerbations (30.7% vs 15.4%, p < 0.01). The CAT score and the mMRC dyspnea scale were higher in patients with exacerbations than in those without exacerbations (both p < 0.01). Of the laboratory data, the white blood cell count and blood eosinophil were not different between the 2 groups, but serum albumin was significantly lower in patients with exacerbations than in those without exacerbations (p < 0.01). On pulmonary function testing, VC, FVC, FEV 1.0, FEV1.0/FVC, %FEV1.0, and diffusing capacity of the lung for carbon monoxide (DLco) were significantly lower in patients with severe exacerbations than in those without severe exacerbations (all p < 0.01). TRPG, which is one of the predictors of pulmonary hypertension, was also higher in patients with exacerbations (p < 0.01). As for treatment, long-term oxygen therapy, long acting β2 adrenergic agonists (LABAs), ICS, and macrolides were used significantly more in patients with exacerbations than in those without exacerbations (all p < 0.01) (Table 1). These data showed that severe exacerbations were closely associated with the physical and clinical characteristics of patients with COPD.
Evaluation of the frequency and causes of exacerbations in patients with COPD
To clarify the impact of exacerbation frequency in patients with COPD, the analysis focused on the 88 patients who experienced exacerbations, and the annual exacerbation rate was extracted for the maximum number of severe exacerbations in 1 year from 2009 to 2019. The 88 patients were divided into those whose annual exacerbation rate was once/year (infrequent exacerbators, 62 patients) and the 26 patients whose annual exacerbation rate was ≥ 2 times/year (frequent exacerbators). The annual exacerbation rate of the frequent exacerbators was 2.6 ± 0.3 (range 2 – 8 times). The total number of exacerbations from 2009 to 2019 was 65 in infrequent exacerbators and 111 in frequent exacerbators. As the causes of the exacerbations, bacterial infection was the most common, and viral infection and others were uncommon in the present study (Table 2).
Comparison of clinical characteristics in COPD patients with and without frequent exacerbations
To address the clinical impact of exacerbation frequency, clinical characteristics were compared between infrequent exacerbators and frequent exacerbators. BMI was significantly lower in frequent exacerbators than in infrequent exacerbators (p = 0.03). Critical exacerbations with fatal outcomes were significantly more common in frequent exacerbators (p < 0.01). There were no differences in comorbidities and the CAT score in these 2 groups. As for the laboratory data, the percentage of blood eosinophils and the blood eosinophil count were significantly higher in frequent exacerbators than in infrequent exacerbators (p < 0.01, p = 0.03 respectively). The frequency of patients with CO2 retention (>45 mmHg) on arterial blood gas analysis was higher in frequent exacerbators (p = 0.05). On pulmonary function test results, %FEV1.0 was significantly lower in frequent exacerbators than in infrequent exacerbators (p < 0.01). TRPG was not different between the 2 groups, and a history of mechanical ventilation use for exacerbations was significantly higher in frequent exacerbators (p < 0.01). As for treatment, the frequencies of the use of long-term oxygen therapy, long-acting muscarinic antagonists (LAMAs), and macrolides was higher in frequent exacerbators than in infrequent exacerbators (p < 0.01, p = 0.02, p < 0.01 respectively), but the use of ICS was not different between the 2 groups (Table 3). We also compared clinical characteristics between COPD patients with frequent exacerbations and those without exacerbations. BMI and pulmonary function testing including VC, FVC, FEV 1.0, FEV1.0/FVC, %FEV1.0 are significantly lower (all p < 0.01) and CAT score, blood eosinophil, TRPG are significantly higher in patients with frequent exacerbations than in those without exacerbations (p < 0.01, p = 0.02, p < 0.01 respectively). As for treatment, long-term oxygen therapy, LAMA, LABA, ICS, and macrolides were used significantly more in patients with frequent exacerbations than in those without exacerbations (all p < 0.01) (Table E1).
Multivariate analysis and correlation analysis of the clinical characteristics in COPD patients with frequent exacerbations vs those with infrequent exacerbations
To evaluate the most useful predictor of the frequency of exacerbations in COPD patients, multivariate analysis was performed using variables that were significant in frequent exacerbators compared to infrequent exacerbators, such as the rate of critical exacerbations, percentage of blood eosinophils, %FEV1.0, history of mechanical ventilation use, long-term oxygen therapy, macrolide use, BMI and rate of CO2 retentions on univariate analysis. Critical exacerbation (odds ratio or β value [95% confidence interval] 6.07 [1.06 – 36.67], p = 0.04) and mechanical ventilation use (5.49 [1.19 – 25.19], p = 0.03) were significant as independent predictors, and the percentage of blood eosinophils was the most significant of these variables (1.45 [1.12 – 1.88], p < 0.01) (Table 4). We also performed multivariate analysis using variables that were significant in patient with frequent exacerbations and in those without exacerbation. Long-term oxygen therapy (37.09 [3.95 – 348], p < 0.01) and the percentage of blood eosinophil (1.64 [1.12 – 2.64], p = 0.02) were significant as independent predictors (Table E2).