Estimation of time to compromised tenability in fires: is it time to change paradigms?

The objective of the analysis was to clarify whether the time- and effect-adjusted nonlethal threshold concentration LCt01 × 1/3 from acute rat inhalation studies is suited to model thresholds characterizing any ‘impairment of escape’ in humans. Modeled outcomes are compared with published reference data from human volunteers exposed at the similar C × t's of CO at 800 ppm × 1-h and 100 ppm × 8-h. These exposure durations match the maximum escape duration of 1-h considered in the ISO standard 13571 and standards enforcing occupational exposure limits of 8-h duration. The reference PODs indicative of ‘impairment of escape’ in healthy adults relied on C × t's below those eliciting any loss of motor function or psychoneurological functions. The comparison of the LCt01 × 1/3 based modeled outcomes from rats match favorably with the effect-based PODs from humans. Consistent with published evidence from humans, carboxyhemoglobin (COHb) saturation—a biomarker of exposure rather than of effect—failed to reliably predict effect-based outcomes. Unlike the LCt01 × 1/3 threshold approach, the COHb-based median approach used by ISO TS 13571 is inconsistent with human evidence and both over- and under-estimates the CO-related potency for causing incapacitation at non-toxic and critically-toxic C × ‘s, respectively. In summary, it seems timely that the ISO TS 13571 standard pays attention to scientific progress in relevant toxicity i...
Source: Regulatory Toxicology and Pharmacology - Category: Toxicology Source Type: research