Tomographic evaluation of the small airways in the interstitial lung diseases / Avaliação tomográfica do acometimento das pequenas vias aéreas nas doenças intersticiais do pulmão

AUTOR(ES)

Marcelo Jorge Jacó Rocha

DATA DE PUBLICAÇÃO

2007

RESUMO

The pathogenesis of idiophatic pulmonary fibrosis (IPF), the most common form of idiopathic interstitial pneumonias, is not completely understood. It is related to a type I pneumocyte injury with loss of basement membrane integrity and failure of normal re-epithelialization and re-endothelialization leading to fibroblast proliferation and extra cellular matrix deposition. However, the etiology of this fibroproliferative response is unknown. In ARDS and ventilator-induced lung injury, it has been postulated that the pulmonary injury is caused by the cyclic opening and closing of collapsed airways. Our aim is to measure the collapsed areas of the lung (alveolar and small airways collapse) using a multislice computed tomography (CT) in a group of patients with IPF. They were submitted to a CT scan of the thorax in 5 different situations: at total lung capacity (TLC), functional residual capacity (FRC) and residual volume (RV) at 21% O2 as well as at FRC and RV after breathing 100% O2 for 10 minutes. We assumed that the gain in collapsed areas after 100% O2 corresponds to trapped areas with airways closure and absorption atelectasis. We employed the Osiris Software program to the quantitative analysis of CT attenuation of lung tissue and a program written in LabVIEW to measure the mass of nonaerated lung tissue (- 100 to +100 HU). Eighteen IPF patients and twelve controls without respiratory disease were studied. The control group was older than IPF group (70 x 63 years, respectively) and the smoking history was not different between both groups. The mean lung attenuation was higher in IPF patients at TLC, 21% FRC and 21% RV. When we analyzed the mass of nonaerated lung tissue, the IPF group showed significantly higher values in all respiratory maneuvers (TLC, FRC and RV) at 21% O2 and 100% O2. Both groups presented an increase in collapsed areas when exposed to 100% at RV and FRC and this increment was of similar magnitude. However, only IPF patients had an increase in the mass of nonaerated lung tissue when the lung volume was reduced from TLC to FRC and from FRC to RV during air breathing. We concluded that patients and controls had airways collapse after 100% O2 breathing. In contrast, only IPF patients demonstrated alveolar collapse during air breathing which was almost completed reversible after TLC maneuver

ASSUNTO(S)

interstitial lung diseases diagnostic techniques of the respiratory system pacientes pulmonary fibrosis tomografia computadorizada por raio x diagnóstico por imagem patients fibrose pulmonar doenças pulmonares intersticiais image methods for diagnosis técnicas de diagnóstico do sistema respiratório computed tomography

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