Pulmonary and systemic effects of short-term inhalation exposure to ultrafine carbon black particles

“…It has the capacity to absorb radiation and is the principle factor in the reduction of visibility caused by air pollution 114 . Experimental and epidemiological studies show that exposure to ultrafine particles of BC are associated with increases in inflammatory cells, reduced alveolar macrophage activity and cardiovascular disease 115,116 .…”

A systematic review of the physical and chemical characteristics of pollutants from biomass burning and combustion of fossil fuels and health effects in Brazil

“…It has the capacity to absorb radiation and is the principle factor in the reduction of visibility caused by air pollution 114 . Experimental and epidemiological studies show that exposure to ultrafine particles of BC are associated with increases in inflammatory cells, reduced alveolar macrophage activity and cardiovascular disease 115,116 .…”

A systematic review of the physical and chemical characteristics of pollutants from biomass burning and combustion of fossil fuels and health effects in Brazil

“…Ultrafine particles (o0.1 mm) (UFPs) are potent triggers of oxidative stress and inflammation in the lungs (Oberdo¨rster et al, 1994;Li et al, 1996Li et al, , 2003Afaq et al, 1998;Zheng et al, 1998;Brown et al, 2001;Dick et al, 2003;Gilmour et al, 2004), and are of interest in transportation environments because they are formed from vehicle exhaust (Cyrys et al, 2003;Gidhagen et al, 2004;Geller et al, 2006). Indeed, ambient UFP exposures may promote symptoms such as wheezing, cough, and shortness of breath among adult asthmatics (Von Klot et al, 2002), and some evidence suggests that the respiratory effects of UFPs are either as strong or stronger than those of larger fine (PM 2.5 ) or course (PM 10 ) particles (Peters et al, 1997;Penttinen et al, 2001a, b).…”

Determinants of ultrafine particle exposures in transportation environments: findings of an 8-month survey conducted in Montréal, Canada

“…Les mécanismes de la réponse inflammatoire (sécrétion d' IL-1β, de TNFα, d'IL-8, d'IL-6, de GM-CSF …) induite par les particules atmosphériques sont très comparables bien que d'origine différente. Le rôle de la taille des particules a été démontré à l'aide de particules modèles comme les particules de noir de carbone [13]. Les particules ultrafines (≤ 100 nm) provoquent l'effet pro-inflammatoire le plus clair, sans doute en raison de la plus grande réactivité de surface créée par ces particules.…”

Pollution atmosphérique et maladies respiratoires