Effect of peripheral catechol-O-methyltransferase inhibition on the pharmacokinetics and pharmacodynamics of levodopa in parkinsonian patients.

Catechol-O-methyltransferase (COMT) metabolizes a portion of administered levodopa and thus makes it unavailable for conversion to dopamine in the brain. In an open-label trail, we examined the effects of entacapone, a peripheral inhibitor of COMT, administered acutely or for 8 weeks, on the pharmacokinetics and pharmacodynamics of levodopa in 15 parkinsonian subjects with a fluctuating response to levodopa. Acutely and chronically administered entacapone similarly decreased the plasma elimination of orally and intravenously administered levodopa. Absorption of levodopa was minimally affected. During chronic entacapone treatment, daily levodopa dosages were reduced by 27% yet mean plasma levodopa concentrations were increased by 23%. Plasma 3-O-methyldopa concentrations were decreased by 60%. Entacapone increased the duration of action of single doses of levodopa by a mean of 56%. The percent of the day "on" after 8 weeks of entacapone treatment was 77%; it dropped to 44% upon withdrawal of entacapone. We conclude that inhibition of COMT by entacapone increases the plasma half-life of levodopa and augments the antiparkinsonian effects of single and repeated doses of levodopa.

The effect of L-dopa infusions with and without phenylalanine challenges in parkinsonian patients: plasma and ventricular CSF L-dopa levels and clinical responses.

We monitored the motor response and plasma and ventricular CSF (CSFv) concentrations of L-dopa during IV infusions of L-dopa in two patients with advanced Parkinson's disease. Concentrations of L-dopa in CSFv mirrored, but lagged behind, those in plasma. In the fasting state, the duration, but not the magnitude, of the motor response was greater with increasing plasma and CSFv levels of L-dopa. During IV infusions of L-dopa following oral administration of phenylalanine, a large neutral amino acid that shares a transport system into the brain with L-dopa, the duration of the motor response was markedly attenuated despite undiminished CSFv levels of L-dopa. These observations suggest that either L-dopa entry into CSFv and the brain are differentially affected by phenylalanine or that phenylalanine affects other steps in the motor response. These observations demonstrate that, except in the fasting state, L-dopa in CSFv is not a reliable predictor of motor response.