The intravascular persistence and methemoglobin formation of Hemolink (hemoglobin raffimer) in dogs.

Hemoglobin raffimer (HEMOLINK, Hemosol Inc, Mississauga, Canada) is an o-raffinose cross-linked, purified human hemoglobin-based oxygen therapeutic that is currently being evaluated in late stage clinical trials. It is composed of several molecular weight (MW) species, comprising principally of stabilized tetramers (34-42%) and oligomers (54-62%). The objective of this study was to determine the in vivo circulating half-life (T1/2) of hemoglobin raffimer (Hb raffimer) and of its individual MW components in dogs subjected to a topload infusion of 25% of the estimated blood volume (18 mL/kg). Sampling was done over a 64-hour period that was expected to be equivalent to approximately two-and-half to three half-lives. Methemoglobin (MetHb) levels were also measured at intervals over the same period. The mean circulating half-life of Hb raffimer was 25.4 +/- 3.9 hours. The T1/2 for the individual MW components (determined by size exclusion chromatography) of Hb raffimer was 11 +/- 2 hours for the cross-linked tetramer and 35 +/- 7 hours for the fraction of oligomers. The apparent volume of distribution for Hb raffimer was estimated at 78 mL/kg. There was no difference in the apparent volumes of distribution of the tetrameric and oligomeric components of Hb raffimer. Throughout the course of the experiment (in which MetHb could be measured), plasma MetHb concentration, expressed as a percentage of the total plasma hemoglobin concentration, remained at 10% or less, and the mass concentration of MetHb in plasma remained at about 1 g/L. Thus, in the dog subjected to an estimated 25% topload infusion, the T1/2 of the infused Hb raffimer is approximately one day with the intravascular retention of the individual Hb raffimer components being dependent on the MW. Furthermore, oxidation of Hb raffimer to MetHb is limited under these conditions.

Disposition of a low dose of bisphenol a in male and female cynomolgus monkeys.

Bisphenol A (BPA) is a weak estrogenic compound mass-produced with potential human exposure. Following a single oral or intravenous (iv) dose of 100 microg/kg [ring-14C(U)] radiolabeled bisphenol A (14C-BPA) to male and female cynomolgus monkeys, 79-86% of the administered radioactivity was excreted in urine over 7 days, and most of the urinary excretion was recovered by 24 h after dosing, a large part of this occurring within 12 h. The fecal excretion of radioactivity over 7 days was minimal (1.8-3.1%). Toxicokinetic parameters obtained from plasma 14C-BPA-derived radioactivity during 48 h were C(max) = 104-107 ng-eq/ml between 0.25 and 2 h, and AUC(oral) = 244-265 ng-eq*h/ml after oral dosing. In the case of the iv dose, AUC(iv) was 377-382 ng-eq*h/ml, and the bioavailability was 0.66-0.70. The terminal elimination half-life was larger post-iv dose (t(1/2iv) = 13.5-14.7 h) than post-oral dose (t(1/2oral) = 9.63-9.80 h). After iv dose, the fast-phase half-life (t(1/2f)) of total radioactivity was 0.61-0.67 h. The t(1/2f) of unchanged 14C-BPA for females (0.39 h) was smaller than that for males (0.57 h). These results suggested the distribution of lipophilic 14C-BPA in adipose tissue after iv dose, in contrast to first pass metabolism after oral dose. 14C-BPA-derived radioactivity was strongly bound to plasma protein (f(p) = 0.055). Radio-HPLC analysis suggested the predominant plasma and urinary metabolites were mono- and diglucuronide of 14C-BPA and unchanged 14C-BPA was very low (< or =1.5%) after oral dose. These results indicate that the intestinal absorption and metabolism of BPA was rapid and extensive, and the major metabolites, glucuronide conjugates of 14C-BPA, were rapidly excreted into urine in monkeys.