Information regarding thepharmacoki

Information regarding the
pharmacokinetics of chlorine dioxide and chlorite is predominantly derived from oral studies in
laboratory animals. Chlorite (ClO2
-
) does not persist in the atmosphere either in ionic form or as chlorite
salt. The rapid appearance of 36Cl in plasma following oral administration of chlorine dioxide (36ClO2) or
chlorite (36ClO2
-
) has been shown in laboratory animals (Abdel-Rahman et al. 1980a, 1982, 1984a).
Limited animal data indicate the presence of 36Cl in plasma following dermal application of Alcide, an
antimicrobial compound containing sodium chlorite and lactic acid which rapidly form chlorine dioxide
when mixed together (Scatina et al. 1983). In rats, absorbed 36Cl (from 36ClO2 or 36ClO2
-
sources) is
slowly cleared from the blood and is widely distributed throughout the body (Abdel-Rahman et al. 1980a,
1980b, 1982, 1984a). Chlorine dioxide rapidly dissociates, predominantly into chlorite (which itself is
highly reactive) and chloride ion (Cl-
), ultimately the major metabolite of both chlorine dioxide and
chlorite in biological systems (Abdel-Rahman et al. 1980b, 1984a). Urine is the primary route of
elimination, predominantly in the form of chloride ion (Abdel-Rahman et al. 1980a, 1980b, 1984a).
Additional pharmacokinetic studies of chlorine dioxide and chlorite should be designed to examine
mechanisms of absorption and metabolic changes that might account for observed neurodevelopmental
effects. Such studies might also elucidate mechanisms underlying alterations in various hematological
and thyroid hormone parameters of currently unknown significance.