Mi Jung Park1, Jae Min Cho2, Kyung Nyeo Jeon1, Kyung Soo Bae1, Ho Cheol Kim3, Dae Seob Choi1, Jae Boem Na1, Ho Cheol Choi1, Hye Young Choi1, Ji Eun Kim1, Hwa Seon Shin1. 1. Department of Radiology, Gyeongsang National University Hospital, College of Medicine, 90, Chilam-Dong, Jinju City, Gyeongnam-Do, Republic of Korea. 2. Department of Radiology, Gyeongsang National University Hospital, College of Medicine, 90, Chilam-Dong, Jinju City, Gyeongnam-Do, Republic of Korea. Electronic address: pichola@naver.com. 3. Department of Pulmonology, Gyeongsang National University Hospital, College of Medicine, Jinju City, Gyeongnam-Do, Republic of Korea.
Abstract
RATIONALE AND OBJECTIVES: Chronic obstructive pulmonary disease (COPD) is characterized by progressive respiratory function impairment and respiratory muscle dysfunction. We hypothesized that the mass and fat infiltration of respiratory muscles correlates with COPD severity and emphysema extent. MATERIALS AND METHODS: Ninety-eight male patients with COPD underwent chest computed tomography (CT) and spirometry. The mass and fat infiltrations of intercostal and latissimus muscles were quantified as the cross-sectional area (CSA) and attenuation of these muscles using CT histogram analysis. Intercostal index and latissimus index were defined as intercostal CSAs and latissimus CSAs divided by body mass index. The emphysema extent was measured as the ratio of the emphysematous lung volume to the total lung volume using a density-mask technique. Pearson correlation analyses were performed to evaluate the relationships between these parameters. Multiple regression analysis was performed using forced expiratory volume in 1 second (FEV1) as the dependent parameter and the clinical and CT data as the independent parameters. RESULTS: FEV1 was significantly correlated with intercostal index (r = 0.57), latissimus index (r = 0.34), intercostal attenuation (r = 0.62), and latissimus attenuation (r = 0.38). Emphysema extent was significantly correlated with intercostal index (r = -0.36) and intercostal attenuation (r = -0.50). Multiple regression analysis showed that FEV1 was predicted by intercostal attenuation (B = 0.40), intercostal CSA (B = 0.23), emphysema extent (B = -0.23), and age (B = -0.21, R(2) = 0.64, P < .001). CONCLUSIONS: A decrease in intercostal mass and an increase in intercostal fat are associated with worsening of COPD severity.
RATIONALE AND OBJECTIVES:Chronic obstructive pulmonary disease (COPD) is characterized by progressive respiratory function impairment and respiratory muscle dysfunction. We hypothesized that the mass and fat infiltration of respiratory muscles correlates with COPD severity and emphysema extent. MATERIALS AND METHODS: Ninety-eight male patients with COPD underwent chest computed tomography (CT) and spirometry. The mass and fat infiltrations of intercostal and latissimus muscles were quantified as the cross-sectional area (CSA) and attenuation of these muscles using CT histogram analysis. Intercostal index and latissimus index were defined as intercostal CSAs and latissimus CSAs divided by body mass index. The emphysema extent was measured as the ratio of the emphysematous lung volume to the total lung volume using a density-mask technique. Pearson correlation analyses were performed to evaluate the relationships between these parameters. Multiple regression analysis was performed using forced expiratory volume in 1 second (FEV1) as the dependent parameter and the clinical and CT data as the independent parameters. RESULTS: FEV1 was significantly correlated with intercostal index (r = 0.57), latissimus index (r = 0.34), intercostal attenuation (r = 0.62), and latissimus attenuation (r = 0.38). Emphysema extent was significantly correlated with intercostal index (r = -0.36) and intercostal attenuation (r = -0.50). Multiple regression analysis showed that FEV1 was predicted by intercostal attenuation (B = 0.40), intercostal CSA (B = 0.23), emphysema extent (B = -0.23), and age (B = -0.21, R(2) = 0.64, P < .001). CONCLUSIONS: A decrease in intercostal mass and an increase in intercostal fat are associated with worsening of COPD severity.
Authors: Manoj Mannil; Jakob M Burgstaller; Arjun Thanabalasingam; Sebastian Winklhofer; Michael Betz; Ulrike Held; Roman Guggenberger Journal: Skeletal Radiol Date: 2018-03-01 Impact factor: 2.199
Authors: Peter Wallbridge; Selina M Parry; Sourav Das; Candice Law; Gary Hammerschlag; Louis Irving; Mark Hew; Daniel Steinfort Journal: Sci Rep Date: 2018-10-15 Impact factor: 4.379