M. V. Nelson scite author profile

Eight parkinsonian patients participated in a pharmacokinetic pharmacodynamic study of sequential doses of controlled-release carbidopa (CD)/levodopa (LD) at 4-hour intervals, with serial blood samples obtained before and after each dose. Effect measurements obtained with each blood sample included tapping and walking speed as well as a global assessment of motor function. Analysis of the data by extended least squares regression for linear, Emax, and sigmoid Emax pharmacodynamic models revealed that linear relationships do not provide the best fit between LD plasma concentrations and clinical effects after controlled-release CD/LD. The data are fit best to models that are curvilinear in nature. LD plasma concentrations greater than 2.0 micrograms/ml resulted in sustained effects on walking and global scores while the greatest rate of change in walking and global scores occurred at 0.9 micrograms/ml. LD plasma concentrations fluctuating around 0.9 micrograms/ml may result in the "on/off" effects seen in Parkinson's disease.

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Pharmacokinetic evaluation of erythromycin and caffeine administered with bromocriptine

Nelson

Berchou

Kareti

et al. 1990

Clin Pharmacol Ther

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A study was performed to determine if the pharmacokinetics of bromocriptine is altered by factors that have been shown to interact with other ergot compounds. The effects on bromocriptine plasma concentrations by bromocriptine coadministration with caffeine and erythromycin were evaluated in five male volunteers. Serial blood samples were obtained during a 12-hour period after a single 5 mg oral dose of bromocriptine (alone and after 4-day treatments of either erythromycin estolate, 250 mg four times/day, or caffeine, 200 mg four times/day). There were no significant alterations of bromocriptine pharmacokinetic parameters after caffeine, although statistical power was very low. With the use of erythromycin, the bromocriptine area under the concentration-time curve standardized to body weight increased significantly by 268%, whereas peak bromocriptine plasma concentration (Cmax) increased to 4.6 times the Cmax from bromocriptine alone. Time to achieve Cmax was not altered by erythromycin. We conclude that erythromycin can markedly increase the systemic bioavailability of bromocriptine, which can lead to increased therapeutic or adverse effects, whereas the effects of caffeine require further study.

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M. V. Nelson

Effect of age on ibuprofen pharmacokinetics and antipyretic response

Pharmacodynamic modeling of concentration‐effect relationships after controlled‐release carbidopa/levodopa (Sinemet CR4) in Parkinson's disease

Pharmacokinetic evaluation of erythromycin and caffeine administered with bromocriptine

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