TY - JOUR
T1 - A Bayesian approach to estimating detection times in horses
T2 - Exploring the pharmacokinetics of a urinary acepromazine metabolite
AU - McGree, J M.
AU - Noble, Glenys
AU - Schneiders, Fiona
AU - Dunstan, A J.
AU - McKinney, A R.
AU - Boston, R
AU - Sillence, M
N1 - Imported on 12 Apr 2017 - DigiTool details were: month (773h) = February, 2013; Journal title (773t) = Journal of Veterinary Pharmacology and Therapeutics.. ISSNs: 1365-2885;
PY - 2013
Y1 - 2013
N2 - We describe the population pharmacokinetics of an acepromazine (ACP) metabolite (2-(1-hydroxyethyl)promazine) (HEPS) in horses for the estimation of likely detection times in plasma and urine. ACP (30 mg) was administered to 12 horses, and blood and urine samples were taken at frequent intervals for chemical analysis. A Bayesian hierarchical model was fitted to describe concentration'time data and cumulative urine amounts for HEPS. The metabolite HEPS was modelled separately from the parent ACP as the half-life of the parent was considerably less than that of the metabolite. The clearance (Cl/FPM) and volume of distribution (V/FPM), scaled by the fraction of parent converted to metabolite, were estimated as 769 L/h and 6874 L, respectively. For a typical horse in the study, after receiving 30 mg of ACP, the upper limit of the detection time was 35 h in plasma and 100 h in urine, assuming an arbitrary limit of detection of 1 'g/L and a small ('0.01) probability of detection. The model derived allowed the probability of detection to be estimated at the population level. This analysis was conducted on data collected from only 12 horses, but we assume that this is representative of the wider population.
AB - We describe the population pharmacokinetics of an acepromazine (ACP) metabolite (2-(1-hydroxyethyl)promazine) (HEPS) in horses for the estimation of likely detection times in plasma and urine. ACP (30 mg) was administered to 12 horses, and blood and urine samples were taken at frequent intervals for chemical analysis. A Bayesian hierarchical model was fitted to describe concentration'time data and cumulative urine amounts for HEPS. The metabolite HEPS was modelled separately from the parent ACP as the half-life of the parent was considerably less than that of the metabolite. The clearance (Cl/FPM) and volume of distribution (V/FPM), scaled by the fraction of parent converted to metabolite, were estimated as 769 L/h and 6874 L, respectively. For a typical horse in the study, after receiving 30 mg of ACP, the upper limit of the detection time was 35 h in plasma and 100 h in urine, assuming an arbitrary limit of detection of 1 'g/L and a small ('0.01) probability of detection. The model derived allowed the probability of detection to be estimated at the population level. This analysis was conducted on data collected from only 12 horses, but we assume that this is representative of the wider population.
U2 - 10.1111/j.1365-2885.2013.01389.x
DO - 10.1111/j.1365-2885.2013.01389.x
M3 - Article
C2 - 23317425
SN - 0140-7783
VL - 36
SP - 31
EP - 42
JO - Journal of Veterinary Pharmacology and Therapeutics
JF - Journal of Veterinary Pharmacology and Therapeutics
IS - 1
ER -