Difference in the craniocaudal gradient of the maximum pixel value change rate between chronic obstructive pulmonary disease patients and normal subjects using sub-mGy dynamic chest radiography with a flat panel detector system

•Dynamic chest radiography is feasible for the evaluation of pulmonary ventilation.•It could detect physiological differences between normal subjects and COPD patients.•Craniocaudal gradients of MPCR were lower in COPD patients than normal subjects. To compare the craniocaudal gradients of the maxim...

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Published in	European journal of radiology Vol. 92; pp. 37 - 44
Main Authors	Yamada, Yoshitake, Ueyama, Masako, Abe, Takehiko, Araki, Tetsuro, Abe, Takayuki, Nishino, Mizuki, Jinzaki, Masahiro, Hatabu, Hiroto, Kudoh, Shoji
Format	Journal Article
Language	English
Published	Ireland Elsevier B.V 01.07.2017
Subjects	Aged, 80 and over Exhalation Female Humans Lung Male Posture Prospective Studies Pulmonary Disease, Chronic Obstructive - diagnostic imaging Radiography - methods Radiology Respiration Thorax Ventilation X-ray GOLD MRI Lung Thorax VC FIR CT SD FEV MPCR Ventilation FPD X-ray Respiration BMI COPD magnetic resonance imaging global initiative for chronic obstructive pulmonary disease finite impulse response vital capacity maximum pixel value change rate computed tomography body mass index forced expiratory volume flat panel detector chronic obstructive pulmonary disease standard deviation
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Abstract	•Dynamic chest radiography is feasible for the evaluation of pulmonary ventilation.•It could detect physiological differences between normal subjects and COPD patients.•Craniocaudal gradients of MPCR were lower in COPD patients than normal subjects. To compare the craniocaudal gradients of the maximum pixel value change rate (MPCR) during tidal breathing between chronic obstructive pulmonary disease (COPD) patients and normal subjects using dynamic chest radiography. This prospective study was approved by the institutional review board and all participants provided written informed consent. Forty-three COPD patients (mean age, 71.6±8.7 years) and 47 normal subjects (non-smoker healthy volunteers) (mean age, 54.8±9.8 years) underwent sequential chest radiographs during tidal breathing in a standing position using dynamic chest radiography with a flat panel detector system. We evaluated the craniocaudal gradient of MPCR. The results were analyzed using an unpaired t-test and the Tukey–Kramer method. The craniocaudal gradients of MPCR in COPD patients were significantly lower than those in normal subjects (right inspiratory phase, 75.5±48.1 vs. 108.9±42.0s−1cm−1, P<0.001; right expiratory phase, 66.4±40.6 vs. 89.8±31.6s−1cm−1, P=0.003; left inspiratory phase, 75.5±48.2 vs. 108.2±47.2s−1cm−1, P=0.002; left expiratory phase, 60.9±38.2 vs. 84.3±29.5s−1cm−1, P=0.002). No significant differences in height, weight, or BMI were observed between COPD and normal groups. In the sub-analysis, the gradients in severe COPD patients (global initiative for chronic obstructive lung disease [GOLD] 3 or 4, n=26) were significantly lower than those in mild COPD patients (GOLD 1 or 2, n=17) for both right and left inspiratory/expiratory phases (all P≤0.005). A decrease of the craniocaudal gradient of MPCR was observed in COPD patients. The craniocaudal gradient was lower in severe COPD patients than in mild COPD patients.
AbstractList	•Dynamic chest radiography is feasible for the evaluation of pulmonary ventilation.•It could detect physiological differences between normal subjects and COPD patients.•Craniocaudal gradients of MPCR were lower in COPD patients than normal subjects. To compare the craniocaudal gradients of the maximum pixel value change rate (MPCR) during tidal breathing between chronic obstructive pulmonary disease (COPD) patients and normal subjects using dynamic chest radiography. This prospective study was approved by the institutional review board and all participants provided written informed consent. Forty-three COPD patients (mean age, 71.6±8.7 years) and 47 normal subjects (non-smoker healthy volunteers) (mean age, 54.8±9.8 years) underwent sequential chest radiographs during tidal breathing in a standing position using dynamic chest radiography with a flat panel detector system. We evaluated the craniocaudal gradient of MPCR. The results were analyzed using an unpaired t-test and the Tukey–Kramer method. The craniocaudal gradients of MPCR in COPD patients were significantly lower than those in normal subjects (right inspiratory phase, 75.5±48.1 vs. 108.9±42.0s−1cm−1, P<0.001; right expiratory phase, 66.4±40.6 vs. 89.8±31.6s−1cm−1, P=0.003; left inspiratory phase, 75.5±48.2 vs. 108.2±47.2s−1cm−1, P=0.002; left expiratory phase, 60.9±38.2 vs. 84.3±29.5s−1cm−1, P=0.002). No significant differences in height, weight, or BMI were observed between COPD and normal groups. In the sub-analysis, the gradients in severe COPD patients (global initiative for chronic obstructive lung disease [GOLD] 3 or 4, n=26) were significantly lower than those in mild COPD patients (GOLD 1 or 2, n=17) for both right and left inspiratory/expiratory phases (all P≤0.005). A decrease of the craniocaudal gradient of MPCR was observed in COPD patients. The craniocaudal gradient was lower in severe COPD patients than in mild COPD patients. Highlights • Dynamic chest radiography is feasible for the evaluation of pulmonary ventilation. • It could detect physiological differences between normal subjects and COPD patients. • Craniocaudal gradients of MPCR were lower in COPD patients than normal subjects. To compare the craniocaudal gradients of the maximum pixel value change rate (MPCR) during tidal breathing between chronic obstructive pulmonary disease (COPD) patients and normal subjects using dynamic chest radiography. This prospective study was approved by the institutional review board and all participants provided written informed consent. Forty-three COPD patients (mean age, 71.6±8.7 years) and 47 normal subjects (non-smoker healthy volunteers) (mean age, 54.8±9.8 years) underwent sequential chest radiographs during tidal breathing in a standing position using dynamic chest radiography with a flat panel detector system. We evaluated the craniocaudal gradient of MPCR. The results were analyzed using an unpaired t-test and the Tukey-Kramer method. The craniocaudal gradients of MPCR in COPD patients were significantly lower than those in normal subjects (right inspiratory phase, 75.5±48.1 vs. 108.9±42.0s cm , P<0.001; right expiratory phase, 66.4±40.6 vs. 89.8±31.6s cm , P=0.003; left inspiratory phase, 75.5±48.2 vs. 108.2±47.2s cm , P=0.002; left expiratory phase, 60.9±38.2 vs. 84.3±29.5s cm , P=0.002). No significant differences in height, weight, or BMI were observed between COPD and normal groups. In the sub-analysis, the gradients in severe COPD patients (global initiative for chronic obstructive lung disease [GOLD] 3 or 4, n=26) were significantly lower than those in mild COPD patients (GOLD 1 or 2, n=17) for both right and left inspiratory/expiratory phases (all P≤0.005). A decrease of the craniocaudal gradient of MPCR was observed in COPD patients. The craniocaudal gradient was lower in severe COPD patients than in mild COPD patients. To compare the craniocaudal gradients of the maximum pixel value change rate (MPCR) during tidal breathing between chronic obstructive pulmonary disease (COPD) patients and normal subjects using dynamic chest radiography.OBJECTIVESTo compare the craniocaudal gradients of the maximum pixel value change rate (MPCR) during tidal breathing between chronic obstructive pulmonary disease (COPD) patients and normal subjects using dynamic chest radiography.This prospective study was approved by the institutional review board and all participants provided written informed consent. Forty-three COPD patients (mean age, 71.6±8.7 years) and 47 normal subjects (non-smoker healthy volunteers) (mean age, 54.8±9.8 years) underwent sequential chest radiographs during tidal breathing in a standing position using dynamic chest radiography with a flat panel detector system. We evaluated the craniocaudal gradient of MPCR. The results were analyzed using an unpaired t-test and the Tukey-Kramer method.MATERIALS AND METHODSThis prospective study was approved by the institutional review board and all participants provided written informed consent. Forty-three COPD patients (mean age, 71.6±8.7 years) and 47 normal subjects (non-smoker healthy volunteers) (mean age, 54.8±9.8 years) underwent sequential chest radiographs during tidal breathing in a standing position using dynamic chest radiography with a flat panel detector system. We evaluated the craniocaudal gradient of MPCR. The results were analyzed using an unpaired t-test and the Tukey-Kramer method.The craniocaudal gradients of MPCR in COPD patients were significantly lower than those in normal subjects (right inspiratory phase, 75.5±48.1 vs. 108.9±42.0s-1cm-1, P<0.001; right expiratory phase, 66.4±40.6 vs. 89.8±31.6s-1cm-1, P=0.003; left inspiratory phase, 75.5±48.2 vs. 108.2±47.2s-1cm-1, P=0.002; left expiratory phase, 60.9±38.2 vs. 84.3±29.5s-1cm-1, P=0.002). No significant differences in height, weight, or BMI were observed between COPD and normal groups. In the sub-analysis, the gradients in severe COPD patients (global initiative for chronic obstructive lung disease [GOLD] 3 or 4, n=26) were significantly lower than those in mild COPD patients (GOLD 1 or 2, n=17) for both right and left inspiratory/expiratory phases (all P≤0.005).RESULTSThe craniocaudal gradients of MPCR in COPD patients were significantly lower than those in normal subjects (right inspiratory phase, 75.5±48.1 vs. 108.9±42.0s-1cm-1, P<0.001; right expiratory phase, 66.4±40.6 vs. 89.8±31.6s-1cm-1, P=0.003; left inspiratory phase, 75.5±48.2 vs. 108.2±47.2s-1cm-1, P=0.002; left expiratory phase, 60.9±38.2 vs. 84.3±29.5s-1cm-1, P=0.002). No significant differences in height, weight, or BMI were observed between COPD and normal groups. In the sub-analysis, the gradients in severe COPD patients (global initiative for chronic obstructive lung disease [GOLD] 3 or 4, n=26) were significantly lower than those in mild COPD patients (GOLD 1 or 2, n=17) for both right and left inspiratory/expiratory phases (all P≤0.005).A decrease of the craniocaudal gradient of MPCR was observed in COPD patients. The craniocaudal gradient was lower in severe COPD patients than in mild COPD patients.CONCLUSIONSA decrease of the craniocaudal gradient of MPCR was observed in COPD patients. The craniocaudal gradient was lower in severe COPD patients than in mild COPD patients.
Author	Hatabu, Hiroto Nishino, Mizuki Ueyama, Masako Araki, Tetsuro Kudoh, Shoji Abe, Takayuki Abe, Takehiko Yamada, Yoshitake Jinzaki, Masahiro
Author_xml	– sequence: 1 givenname: Yoshitake surname: Yamada fullname: Yamada, Yoshitake email: yamada@rad.med.keio.ac.jp organization: Department of Radiology, Center for Pulmonary Functional Imaging, Brigham and Women's Hospital, Harvard Medical School, Boston, MA, USA – sequence: 2 givenname: Masako surname: Ueyama fullname: Ueyama, Masako email: ueyamam@fukujuji.org organization: Department of Health Care, Fukujuji Hospital, Japan Anti-Tuberculosis Association, Kiyose, Japan – sequence: 3 givenname: Takehiko surname: Abe fullname: Abe, Takehiko email: takehikoabe@hotmail.com organization: Department of Radiology, Fukujuji Hospital, Japan Anti-Tuberculosis Association, Kiyose, Japan – sequence: 4 givenname: Tetsuro surname: Araki fullname: Araki, Tetsuro email: TARAKI@partners.org organization: Department of Radiology, Center for Pulmonary Functional Imaging, Brigham and Women's Hospital, Harvard Medical School, Boston, MA, USA – sequence: 5 givenname: Takayuki surname: Abe fullname: Abe, Takayuki email: abe.t@keio.jp organization: Department of Preventive Medicine and Public Health, Biostatistics Unit at Clinical and Translational Research Center, Keio University School of Medicine, Tokyo, Japan – sequence: 6 givenname: Mizuki surname: Nishino fullname: Nishino, Mizuki email: Mizuki_Nishino11@dfci.harvard.edu organization: Department of Radiology, Center for Pulmonary Functional Imaging, Brigham and Women's Hospital, Harvard Medical School, Boston, MA, USA – sequence: 7 givenname: Masahiro surname: Jinzaki fullname: Jinzaki, Masahiro email: jinzaki@rad.med.keio.ac.jp organization: Department of Diagnostic Radiology, Keio University School of Medicine, Tokyo, Japan – sequence: 8 givenname: Hiroto surname: Hatabu fullname: Hatabu, Hiroto email: hhatabu@partners.org organization: Department of Radiology, Center for Pulmonary Functional Imaging, Brigham and Women's Hospital, Harvard Medical School, Boston, MA, USA – sequence: 9 givenname: Shoji surname: Kudoh fullname: Kudoh, Shoji email: skudoh@jatahq.org organization: Department of Respiratory Medicine, Fukujuji Hospital, Japan Anti-Tuberculosis Association, Kiyose, Japan
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Keywords	GOLD MRI Lung Thorax VC FIR CT SD FEV MPCR Ventilation FPD X-ray Respiration BMI COPD magnetic resonance imaging global initiative for chronic obstructive pulmonary disease finite impulse response vital capacity maximum pixel value change rate computed tomography body mass index forced expiratory volume flat panel detector chronic obstructive pulmonary disease standard deviation
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Snippet	•Dynamic chest radiography is feasible for the evaluation of pulmonary ventilation.•It could detect physiological differences between normal subjects and COPD... Highlights • Dynamic chest radiography is feasible for the evaluation of pulmonary ventilation. • It could detect physiological differences between normal... To compare the craniocaudal gradients of the maximum pixel value change rate (MPCR) during tidal breathing between chronic obstructive pulmonary disease (COPD)...
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SubjectTerms	Aged, 80 and over Exhalation Female Humans Lung Male Posture Prospective Studies Pulmonary Disease, Chronic Obstructive - diagnostic imaging Radiography - methods Radiology Respiration Thorax Ventilation X-ray
Title	Difference in the craniocaudal gradient of the maximum pixel value change rate between chronic obstructive pulmonary disease patients and normal subjects using sub-mGy dynamic chest radiography with a flat panel detector system
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