N Amiot1, J Tillon, C Viacroze, H Aouine, J-F Muir. 1. UPRES EA 3830, IFR MP 23, unité de soins intensifs respiratoires, service de pneumologie et soins intensifs, CHU de Rouen, institut hospitalo-universitaire de recherche bio-médicale, université de Rouen, 76031 Rouen cedex, France.
Abstract
INTRODUCTION: Fluctuations in atmospheric pollution are responsible for an important morbidity and mortality in the patients suffering from chronic obstructive pulmonary disease (COPD). BACKGROUND: Epidemiological studies show a significant increase in the mortality and hospitalization rates in COPD patients in relation to moderate increases in atmospheric pollution. In vitro and in vivo studies demonstrate a pro-inflammatory role and an oxidative toxicity of atmospheric particles and secondary morphological and functional changes in the respiratory epithelium and the immune system. An excess of particulate matter, ozone, NO(2), SO(2) and CO is directly correlated to the number of episodes of acute respiratory failure in different countries all over the world. The mechanisms implicated are complex and variable, dependent on the different pollutant agents, climatic variations and inter-individual susceptibility. VIEWPOINT: Further experimental studies are necessary in order to clarify our fundamental understanding and, alongside better control of air quality, to reduce short-term respiratory complications. CONCLUSION: The consequences of atmospheric pollution fluctuations on the exacerbation rate and therefore on the morbidity and mortality of patients with COPD emphasize the importance of preventive environmental management in the field of public health.
INTRODUCTION: Fluctuations in atmospheric pollution are responsible for an important morbidity and mortality in the patients suffering from chronic obstructive pulmonary disease (COPD). BACKGROUND: Epidemiological studies show a significant increase in the mortality and hospitalization rates in COPDpatients in relation to moderate increases in atmospheric pollution. In vitro and in vivo studies demonstrate a pro-inflammatory role and an oxidative toxicity of atmospheric particles and secondary morphological and functional changes in the respiratory epithelium and the immune system. An excess of particulate matter, ozone, NO(2), SO(2) and CO is directly correlated to the number of episodes of acute respiratory failure in different countries all over the world. The mechanisms implicated are complex and variable, dependent on the different pollutant agents, climatic variations and inter-individual susceptibility. VIEWPOINT: Further experimental studies are necessary in order to clarify our fundamental understanding and, alongside better control of air quality, to reduce short-term respiratory complications. CONCLUSION: The consequences of atmospheric pollution fluctuations on the exacerbation rate and therefore on the morbidity and mortality of patients with COPD emphasize the importance of preventive environmental management in the field of public health.
Authors: T Knepp; M Pippin; J Crawford; G Chen; J Szykman; R Long; L Cowen; A Cede; N Abuhassan; J Herman; R Delgado; J Compton; T Berkoff; J Fishman; D Martins; R Stauffer; A M Thompson; A Weinheimer; D Knapp; D Montzka; D Lenschow; D Neil Journal: J Atmos Chem Date: 2013-05-25 Impact factor: 2.158