Abstract
BackgroundChest computed tomography(CT) is a widely used method to assess morphological and dynamic abnormalities in chronic obstructive pulmonary disease (COPD). The small pulmonary vascular cross-section (CSA), quantitatively extracted from volumetric CT, is a reliable indicator for predicting pulmonary vascular changes. CSA is associated with the severity of symptoms, pulmonary function tests (PFT) and emphysema and in COPD patients the severity increases over time. However, there are few studies of changes in vascular during longitudinal follow-up in COPD patients. We analyzed the correlation longitudinal changes in pulmonary vascular parameters with clinical parameters in COPD patients.Materials and MethodsA total of 288 subjects with COPD were investigated during follow up period up to 6 years. CT images were classified into five subtypes from normal to severe emphysema according to percentage of low-attenuation areas less than -950 and -856 Hounsfield units (HU) on inspiratory and expiratory CT (LAA-950, LAA-856exp). Total number of vessels (Ntotal) and total number of vessels with area less than 5 mm2 (N<5mm) per 1 cm2 of lung surface area (LSA) were measured at 6 mm from the pleural surface.ResultsNtotal/LSA and N<5mm/LSA changed from 1.16±0.27 to 0.87±0.2 and from 1.02±0.22 to 0.78±0.22, respectively, during Global Initiative for Chronic Obstructive Lung Disease (GOLD) stage progression. Both parameters changed from normal to severe emphysema according to CT subtype from 1.39±0.21 to 0.74±0.17 and from 1.18±0.19 to 0.67±0.15, respectively. LAA-950 and LAA-856exp were negatively correlated with Ntotal/LSA (r=-0.738, -0.529) and N<5mm /LSA (r=-0.729, -0.497). On the other hand, pulmonary function test (PFT) results showed a weak correlation with Ntotal/LSA and N<5mm/LSA (r=0.205, 0.210). The depth in CT subtypes for longitudinal change both Ntotal/LSA and N<5mm/LSA was (-0.032, -0.023) and (-0.027) in normal and SAD, respectively.ConclusionsQuantitative computed tomography features faithfully reflected pulmonary vessel alterations, showing in particular that pulmonary vascular alteration started.Trial registrationWe obtained the written informed consent from all participants in this study and the approval for all processes by our institution Institutional Review Board.
Computed tomography-derived area and density of pectoralis muscle associated disease severity and longitudinal changes in chronic obstructive pulmonary disease: a case control study
