Shih-Ling Chang scite author profile

Shih-Ling Chang

4Publications

81Citation Statements Received

15Citation Statements Given

How they've been cited

128

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Affiliations

University of Washington, University of Kentucky, MEP Equine Solutions (United States)

Publications

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Equine urine pH: normal population distributions and methods of acidification

Wood

Weckman

Henry

et al. 1990

Equine Veterinary Journal

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Summary Our investigation of the urine of grazing horses at the University of Kentucky shows that the mean pH level is about 7.9, and if their diet is supplemented with grain, it is about 7.4. There appears to be no significant effect of time of day or year on urine pH levels in horses. However, horses taken from pasture and supplemented with grain in a stalled environment show a slight decrease in urine pH. Additionally, we investigated the effects of storage on pH levels. Equine urine samples appear to be quite stable with regard to pH for 48h, but then show a marked increase. Urine pH can have a great effect on the urine concentration of some drugs and therefore, uncertainties can arise when data generated in grazing horses are compared or extrapolated to racing horses whose urine pH can be quite low. In an effort to simulate the drop in urine pH seen in some racing horses, we examined the effects of ammonium chloride, ascorbic acid, lactic acid and methionine on urine pH in research horses. Both oral and intravenous routes of administration were used. Although all agents tested showed varying degrees of efficacy, oral administration of ascorbic acid proved to be the safest and most effective agent to model the rapid acidification of urine seen in post race samples.

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Hordenine: pharmacology, pharmacokinetics and behavioural effects in the horse

Frank

Weckman

Wood

et al. 1990

Equine Veterinary Journal

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Summary Hordenine is an alkaloid occurring naturally in grains, sprouting barley, and certain grasses. It is occasionally found in post race urine samples, and therefore we investigated its pharmacological actions in the horse. Hordenine (2.0 mg/kg bodyweight [bwt]) was administered by rapid intravenous (iv) injection to 10 horses. Typically, dosed horses showed a flehmen response and defecated within 60 secs. All horses showed substantial respiratory distress. Respiratory rates increased about 250 per cent and heart rates were approximately double that of resting values. All animals broke out in a sweat shortly after iv injection, but basal body temperature was not affected. These effects were transient, and the animals appeared normal within 30 mins of dosing. Treated horses were tested in a variable interval responding apparatus 30 mins after dosing and no residual stimulation or depressant effects of hordenine were apparent. Animals dosed orally with 2.0 mg/kg bwt of hordenine showed no changes in heart rate, respiratory rate, basal body temperature or behaviour. After iv injection of hordenine, (2.0 mg/kg bwt) plasma reached a maximum value of about 1.0 μg/ml, and declined thereafter in a biexponential fashion. Kinetics of plasma concentration satisfied the concept of a two compartment open system, with an α‐phase half‐life of about 3 mins, and a ß‐phase half‐life of about 35 mins. Total urinary concentrations of hordenine (free and conjugated) peaked at about 400 μg/ml, and then declined exponentially to background levels by 24 h after dosing. Oral administration of hordenine (2.0 mg/kg bwt) showed peak plasma levels of about 0.15 μg/ml 1 h after dosing, followed by a slow multi‐exponential decline in blood levels of the drug. Total urinary concentrations of hordenine (free and conjugated) peaked at about 200 μg/ml, remained at this level for about 8 h, and then declined to background levels. Plasma levels of hordenine were reflected by a kinetic model which assumed very slow absorption of hordenine from the gastrointestinal tract and no effect on behaviour, heart rate or respiratory rate were noted after oral administration. Because of the low plasma levels, it would appear to be particularly difficult to obtain a pharmacological effect of hordenine after oral administration.

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Inhibition of epoxide hydrolase by valproic acid in epileptic patients receiving carbamazepine.

Robbins

Wedlund

Kuhn

et al. 1990

Brit J Clinical Pharma

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The effect of valproic acid (VPA) on the disposition of carbamazepine-10,11-epoxide (epoxide) was studied in five epileptic patients on chronic carbamazepine (CBZ) therapy. The individual pharmacokinetic parameters influencing epoxide disposition were determined in the presence and absence of VPA. VPA significantly decreased the clearance of unbound epoxide (an in vivo index of epoxide hydrolase activity), but did not appear to affect epoxide formation. VPA also increased the free concentrations of both CBZ and epoxide.

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Improvements to a high-performance liquid chromatographic assay for allopurinol and oxipurinol in plasma

Chang¹,

Kramer²

1980

Journal of Chromatography B: Biomedical Sciences and Applicatio

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Shih-Ling Chang

Equine urine pH: normal population distributions and methods of acidification

Hordenine: pharmacology, pharmacokinetics and behavioural effects in the horse

Inhibition of epoxide hydrolase by valproic acid in epileptic patients receiving carbamazepine.

Improvements to a high-performance liquid chromatographic assay for allopurinol and oxipurinol in plasma

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