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1.
Inhal Toxicol ; 23(5): 257-67, 2011 Apr.
Article in English | MEDLINE | ID: mdl-21506876

ABSTRACT

Air pollution is associated with morbidity and mortality induced by respiratory diseases. However, the mechanisms therein involved are not yet fully clarified. Thus, we tested the hypothesis that a single acute exposure to low doses of fine particulate matter (PM2.5) may induce functional and histological lung changes and unchain inflammatory and oxidative stress processes. PM2.5 was collected from the urban area of São Paulo city during 24 h and underwent analysis for elements and polycyclic aromatic hydrocarbon contents. Forty-six male BALB/c mice received intranasal instillation of 30 µL of saline (CTRL) or PM2.5 at 5 or 15 µg in 30 µL of saline (P5 and P15, respectively). Twenty-four hours later, lung mechanics were determined. Lungs were then prepared for histological and biochemical analysis. P15 group showed significantly increased lung impedance and alveolar collapse, as well as lung tissue inflammation, oxidative stress and damage. P5 presented values between CTRL and P15: higher mechanical impedance and inflammation than CTRL, but lower inflammation and oxidative stress than P15. In conclusion, acute exposure to low doses of fine PM induced lung inflammation, oxidative stress and worsened lung impedance and histology in a dose-dependent pattern in mice.


Subject(s)
Lung Injury/chemically induced , Lung/drug effects , Oxidative Stress/drug effects , Particulate Matter/toxicity , Animals , Cities , Dose-Response Relationship, Drug , Glutathione Disulfide/metabolism , Lung/metabolism , Lung/pathology , Lung Injury/metabolism , Lung Injury/physiopathology , Male , Mice , Mice, Inbred BALB C , Oxidoreductases/metabolism , Particle Size , Particulate Matter/chemistry , Respiratory Function Tests
2.
Respir Physiol Neurobiol ; 169(1): 62-8, 2009 Oct 31.
Article in English | MEDLINE | ID: mdl-19712760

ABSTRACT

We examined whether recruitment maneuvers (RMs) with gradual increase in airway pressure (RAMP) provide better outcome than continuous positive airway pressure (CPAP) in paraquat-induced acute lung injury (ALI). Wistar rats received saline intraperitoneally (0.5 mL, CTRL) or paraquat (15 mg/kg, ALI). Twenty-four hours later lung mechanics [static elastance, viscoelastic component of elastance, resistive, viscoelastic and total pressures] were determined before and after recruitment with 40cmH2O CPAP for 40s or 40-s-long slow increase in pressure up to 40cmH2O (RAMP) followed by 0 or 5 cmH2O PEEP. Fractional area of alveolar collapse and PCIII mRNA were determined. All mechanical parameters and the fraction area of alveolar collapse were higher in ALI compared to CTRL. Only RAMP-PEEP maneuver significantly improved lung mechanics and decreased PCIII mRNA expression (53%) compared with ALI, while both RMs followed by PEEP decreased alveolar collapse. In conclusion, in the present experimental ALI model, RAMP followed by 5cm H2O PEEP yields a better outcome.


Subject(s)
Acute Lung Injury/physiopathology , Lung/pathology , Positive-Pressure Respiration/methods , Recruitment, Neurophysiological/physiology , Respiratory Mechanics/physiology , Acute Lung Injury/chemically induced , Acute Lung Injury/metabolism , Acute Lung Injury/pathology , Analysis of Variance , Animals , Collagen Type III/genetics , Collagen Type III/metabolism , Disease Models, Animal , Gene Expression Regulation , Lung/metabolism , Lung Volume Measurements , Paraquat , RNA, Messenger/metabolism , Rats , Rats, Wistar
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