L J Burge scite author profile

L J Burge

3Publications

4Citation Statements Received

112Citation Statements Given

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Affiliations

University of Arkansas for Medical Sciences, Arkansas Children's Hospital

Publications

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Effects of Labetalol on Cocaine Pharmacokinetics in Neonatal Piglets

et al. 1993

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Developmental exposure to cocaine can produce adverse neurobehavioral and cardiovascular effects. Few animal models of human neonatal exposure have been established. A pharmacokinetic study was therefore conducted to characterize the disposition of cocaine and a major metabolite benzoylecgonine (BE) using piglets as an animal model. Eight piglets (postnatal days 8-9) were instrumented with a jugular cannula for drug administration and blood sampling. One group of subjects (controls) received 6.0 mg/kg of cocaine-HCl (i.v.) and blood samples were drawn over 0-24 h. In another group (labetalol), 0.25 mg/kg labetalol-HCl was coadministered 15 min following cocaine dosing. Plasma levels of cocaine and BE were determined using GC-MS methods. Pharmacokinetics were evaluated by using a model-independent approach and compartmental modeling. For controls model-independent results were as follows: AUC = 148.9 ± 9.0 mg/1 X min, systemic clearance = 0.041 ± 0.003 liters/min/kg, volume of distribution = 1.543 ± 0.470 liters/kg, and t ½β = 29.4 ± 6.8 min. Cocaine followed two-compartment model kinetics with distribution and elimination half-lives of 0.3 ± 0.1 and 58.0 ± 18.0 min, respectively. Labetalol significantly decreased systemic clearance to 0.029 ± 0.004 liters/min/kg. BE kinetics revealed a elimination half-life of 230.0 ± 83.2 min. The results demonstrate a rapid distribution and metabolism of cocaine to BE followed by a prolonged elimination phase which is extended by labetalol treatment.

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The ontogeny of phencyclidine‐induced wall climbing and locomotor activity

Scalzo

Burge

1992

Developmental Psychobiology

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Wall climbing behavior is an age-specific behavior that is elicited during postnatal Days 7 through 17 by various stimuli that include heat, odors, shock, and the catecholaminergic agonists apomorphine, amphetamine, and clonidine. In a previous study, a significant amount of wall climbing behavior was observed during ataxia and activity testing following phencyclidine (PCP) administration in Day 19 but not Day 40 rat pups. The present study describes the ontogeny of PCP-induced wall climbing behavior and locomotor activity. Frequency and duration of wall climbing bouts and locomotor activity were recorded on Days 5, 12, 19, 26, 33, or 40 following PCP treatment. On Day 12, all doses of PCP induced significant amounts of wall climbing behavior. A similar pattern of results was observed on Day 5 although these effects were not statistically significant. After Day 12, PCP-induced wall climbing behavior declined precipitously. PCP increased locomotor activity at all ages tested with maximum activities observed on Day 19. These results demonstrate that PCP-elicited wall climbing behavior follows an ontogenetic profile similar to that previously reported for other stimuli and that there are robust ontogenetic differences in the locomotor response to PCP.

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Cardiovascular Effects of Cocaine in Infant and Juvenile Piglets

Scalzo

Burge²

1995

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L J Burge

Effects of Labetalol on Cocaine Pharmacokinetics in Neonatal Piglets

The ontogeny of phencyclidine‐induced wall climbing and locomotor activity

Cardiovascular Effects of Cocaine in Infant and Juvenile Piglets

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