Biological Effects of Short-Term, High-Concentration Exposure to Methyl Isocyanate. III. Influence on Gas Exchange in the Guinea Pig Lung

The influence of methyl isocyanate (MIC) inhalation on the gas exchange function of the lungs in guinea pigs was studied by measuring arterial blood gases, pH, and tracheal pressure during constant-volume, artificial ventilation with air or 100% O2at 40 and 120 min after exposure. A 15 min exposure...

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Bibliographic Details
Published in:Environmental health perspectives 1987-06, Vol.72, p.29-33
Main Authors: Fedde, M. Roger, Dodd, Darol E., Troup, Catherine M., Fowler, Edward H.
Format: Article
Language:English
Subjects:
Animals
Blood
Blood gases
Breathing
Chemical hazards
Cyanates - administration & dosage
Cyanates - toxicity
Female
Guinea Pigs
Hydrogen-Ion Concentration
Hypoxia - chemically induced
Inhalation
Isocyanates
Lungs
Oxygen partial pressure
Pressure
Pulmonary Circulation - drug effects
Pulmonary gas exchange
Pulmonary Gas Exchange - drug effects
The Toxicity of Methyl Isocyanate. March 12-13, 1986. Research Triangle Park, NC
Trachea - drug effects
Trachea - physiopathology
Ventilation systems
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Summary:The influence of methyl isocyanate (MIC) inhalation on the gas exchange function of the lungs in guinea pigs was studied by measuring arterial blood gases, pH, and tracheal pressure during constant-volume, artificial ventilation with air or 100% O2at 40 and 120 min after exposure. A 15 min exposure to MIC at concentrations of 240 to 628 ppm caused a marked reduction in P ao2and pHaand an elevated tracheal pressure during artificial ventilation. The low P ao2was only slightly elevated when the animals were ventilated with 100% O2. Although the dry-wet lung weight ratio was reduced at the highest exposure concentration, the effect was not severe and no significant increase in lung water was found at the lower concentrations. MIC inhalation caused severe pulmonary blood shunting and ventilation/perfusion imbalance. This, in turn, led to hypoxemia, metabolic acidosis, and tissue hypoxia, which could produce death. The pulmonary gas exchange deficit likely resulted from bronchial and bronchiolar obstruction caused by sloughed epithelium and other debris from intra- and extrapulmonary airways.
ISSN:0091-6765
1552-9924
DOI:10.1289/ehp.877229