To examine the validity of extrapolating parenteral product bioequivalence determinations across target animal species, the relative bioavailability of two injectable formulations of ampicillin trihydrate (PolyflexR, a water-based suspension, and Ampi-kel 10R, an oil-based suspension) was examined in calves, sheep and swine. Employing products recognized to be bioinequivalent provided an opportunity to explore potential species-by-formulation interactions. As compared with PolyflexR, Ampi-kel 10R exhibited lower area under the curve (AUC) estimates but higher peak concentrations in all target animal species. Nevertheless, marked interspecies differences were noted in the width and bounds of the confidence intervals about the differences in treatment means. Potential physiological and physico-chemical reasons for these findings are discussed.
Phenylbutazone was administered intravenously (i.v.) to a group of four lactating cows at a dosage of 6 mg/kg body weight. Whole plasma, protein-free plasma and milk were analysed for phenylbutazone residues. Pharmacokinetic parameters of total and free phenylbutazone in plasma were calculated using a non compartmental method. In regards to whole plasma data, the mean volume of distribution at steady state (Vss), was 147 mL/kg body weight, with a mean (+/-SEM) terminal elimination half-life (t1/2) of 40+/-6 h. The mean clearance (Cl) was 3 mL/h/kg body weight. The Vss as determined from the protein-free plasma fraction was 50021 mL/kg body weight. This larger Vss of free phenylbutazone compared to total plasma phenylbutazone was attributed to a high degree of plasma protein binding, as well as the greater penetration of free phenylbutazone into tissues. The mean t1/2 of free phenylbutazone was 39+/-5 h. This similarity to the t1/2 estimated from total plasma phenylbutazone data is attributed to an equilibrium between free and plasma phenylbutazone during the terminal elimination phase. Mean t1/2 as determined from milk, applying a urinary excretion rate model, was 47+/-4 h. Milk clearance of phenylbutazone was 0.009 mL/h/kg body weight, or about 0.34% of total body clearance. Furthermore, evidence suggests that phenylbutazone either binds to milk proteins, or is actively transported into milk, as its concentration in milk was greater than that predicted due to a simple partitioning from plasma into milk.
A method capable of quantifying trichlorfon and dichlorvos in shrimp at
concentrations of 20−80
ng/g has been developed. Ground shrimp is homogenized in ethyl
acetate and centrifuged. The
supernatant is dried completely on a rotatory evaporator. The
extract is dissolved in petroleum
ether, concentrated on a solid phase extraction column, and analyzed by
gas chromatography using
a cool on-column inlet and a nitrogen−phosphorus detector. The
analytes are separated from matrix
components using a thermal gradient on a
(cyanopropyl)phenyl-methylpolysiloxane column.
The
method was validated with control shrimp fortified at 20, 40, and 80
ng/g trichlorfon and dichlorvos.
The average recoveries and intralaboratory coefficients of
variations were 50−83% and 15−21%
respectively.
Keywords: Trichlorfon; dichlorvos; shrimp; gas chromatography;
nitrogen−phosphorus detector
Phenylbutazone was administered intravenously to a group of 11 beef steers at a dosage of 6 mg/kg of body weight. Whole plasma and protein-free plasma were analyzed for phenylbutazone residues. Pharmacokinetic parameters of total and free phenylbutazone in plasma were calculated using a noncompartmental method. In regards to whole plasma data, the mean volume of distribution at steady state (Vss), was 140 mL/kg body weight, with a mean (+/-SEM) terminal elimination half-life (t1/2) of 34 +/- 9 h. The mean clearance was 3.2 mL/h/kg body weight. The Vss, as determined from the protein-free plasma fraction, was 54093 mL/kg body weight. This larger Vss of free phenylbutazone compared with total plasma phenylbutazone was attributed to a high degree of plasma protein binding, as well as the greater penetration of free phenylbutazone into tissues. The mean t1/2 of free phenylbutazone was 35 +/- 12 h. This similarity to the t1/2 estimated from total plasma phenylbutazone data is attributed to an equilibrium between free and plasma phenylbutazone during the terminal elimination phase. The pharmacokinetic parameters of free and total plasma phenylbutazone in beef steers are statistically similar to those previously reported for lactating dairy cows.
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