Respiratory effects of a synthetic metalworking fluid and its components.

A synthetic metalworking fluid, MWF "A", and its major components were evaluated using a previously developed mouse bioassay. This fluid and its components evoked sensory (S) and pulmonary (P) irritation in mice. For MWF "A" and each of its components, a concentration-response relationship was developed on the basis of respiratory frequency (fR) responses.

An approach for evaluating the respiratory irritation of mixtures: application to metalworking fluids.

Recently, the sensory and pulmonary irritating properties of ten metalworking fluids (MWF) were assessed using a mouse bioassay. Relative potency of the MWFs was estimated, but it was not possible to identify the component(s) responsible for the the respiratory irritation induced by each MWF. One of the ten fluids, MWF "ET", produced sensory and pulmonary irritation in mice, and it was of moderate potency in comparison to the other nine MWFs.

Evaluation of respiratory effects of thermal decomposition products following single and repeated exposures of guinea pigs.

Groups of guinea pigs were exposed to the thermal decomposition products (TDP) released from acrylonitrile butadiene styrene (ABS), polypropylene-polyethylene copolymer (CP), polypropylene homopolymer (HP), or plasticized polyvinyl chloride (PVC). In single 50-min exposures to the TDP, guinea pigs exhibited sensory irritation, coughing, and airways constriction. Significant decreases in respiratory frequency (f) occurred during TDP exposure which were magnified during CO2 challenge conducted immediately post-exposure.

Respiratory responses of mice exposed to thermal decomposition products from polymers heated at and above workplace processing temperatures.

Mice were exposed to thermal decomposition products (TDP) released from acrylonitrile butadiene styrene (ABS), polypropylene-polyethylene copolymer (CP), polypropylene homopolymer (HP), or plasticized polyvinylchloride (PVC). These resins were heated in a temperature programmable furnace, at and above workplace processing temperatures. LC50 and RD50 values were obtained on the basis of resin mass loaded in the furnace.