Entacapone and selegiline with -dopa in patients with Parkinson's disease: an interaction study

Both the catechol-O-methyltransferase (COMT) inhibitor entacapone and the monoamine oxidase B (MAO-B) inhibitor selegiline are -dopa extenders. Both are used, often simultaneously, as adjuncts to -dopa/dopa decarboxylase (DDC) inhibitor treatment of Parkinson's disease (PD). Their possible interactions have not been previously studied in a double-blind manner.We studied clinical response, tolerability, haemodynamics and cardiac rhythm in 16 PD patients with end-of-dose-type motor fluctuations. The patients' individual -dopa/DDC inhibitor treatment was stabilized before the experimental treatments. This was followed by three consecutive, randomized, double-blind 2-week treatment periods with entacapone (200 mg with each -dopa dose), selegiline (10 mg o.d.) or both entacapone and selegiline with the -dopa/DDC inhibitor medication. Clinical efficacy ( -dopa test with repeated motor and dyskinesia scoring) and safety (orthostatic test, 24-h ambulatory ECG, haematological and clinical chemistry variables and adverse events) evaluations were performed before each treatment (control) and at the end of each treatment period.All three treatments, entacapone, selegiline, and entacapone+selegiline as adjunct to -dopa/DDC inhibitor improved (p<0.05) clinical disability compared to -dopa only but they did not differ significantly from each other. Dyskinesias increased with all the treatments, statistically significantly (p<0.01) with entacapone+selegiline. No significant differences in haemodynamics were observed between control and any of the experimental treatments, or between the experimental treatments in the orthostatic test. One patient already had symptomatic orthostatism before experimental treatments (control). In two other patients orthostatism emerged after the introduction of selegiline, and in one after every experimental treatment. Twenty-four-hour ECG did not show any differences in supraventricular or ventricular extrasystoles or heart rate between treatments. No statistically significant differences were observed in adverse events or in haematology and clinical chemistry variables. One patient treated with entacapone+selegiline discontinued the study due to dizziness and insomnia. Our results suggest that co-administration of entacapone with -dopa/DDC inhibitor, with or without selegiline, improves clinical disability, is safe, but may also enhance dopamine-related adverse events to some extent in PD patients with end-of-dose type motor fluctuations.     

Entacapone and selegiline with L-dopa in patients with Parkinson's disease: an interaction study

Both the catechol-O-methyltransferase (COMT) inhibitor entacapone and the monoamine oxidase B (MAO-B) inhibitor selegiline are L-dopa extenders. Both are used, often simultaneously, as adjuncts to L-dopa/dopa decarboxylase (DDC) inhibitor treatment of Parkinson's disease (PD). Their possible interactions have not been previously studied in a double-blind manner.We studied clinical response, tolerability, haemodynamics and cardiac rhythm in 16 PD patients with end-of-dose-type motor fluctuations. The patients' individual L-dopa/DDC inhibitor treatment was stabilized before the experimental treatments. This was followed by three consecutive, randomized, double-blind 2-week treatment periods with entacapone (200mg with each L-dopa dose), selegiline (10mg o.d.) or both entacapone and selegiline with the L-dopa/DDC inhibitor medication. Clinical efficacy (L-dopa test with repeated motor and dyskinesia scoring) and safety (orthostatic test, 24-h ambulatory ECG, haematological and clinical chemistry variables and adverse events) evaluations were performed before each treatment (control) and at the end of each treatment period.All three treatments, entacapone, selegiline, and entacapone+selegiline as adjunct to L-dopa/DDC inhibitor improved (p<0.05) clinical disability compared to L-dopa only but they did not differ significantly from each other. Dyskinesias increased with all the treatments, statistically significantly (p<0.01) with entacapone+selegiline. No significant differences in haemodynamics were observed between control and any of the experimental treatments, or between the experimental treatments in the orthostatic test. One patient already had symptomatic orthostatism before experimental treatments (control). In two other patients orthostatism emerged after the introduction of selegiline, and in one after every experimental treatment. Twenty-four-hour ECG did not show any differences in supraventricular or ventricular extrasystoles or heart rate between treatments. No statistically significant differences were observed in adverse events or in haematology and clinical chemistry variables. One patient treated with entacapone+selegiline discontinued the study due to dizziness and insomnia. Our results suggest that co-administration of entacapone with L-dopa/DDC inhibitor, with or without selegiline, improves clinical disability, is safe, but may also enhance dopamine-related adverse events to some extent in PD patients with end-of-dose type motor fluctuations.     

Monamine oxidase inhibitors: current and emerging agents for Parkinson disease

Monoamine oxidase type B (MAO-B) is the predominant isoform responsible for the metabolic breakdown of dopamine in the brain. Selective inhibition of brain MAO-B results in elevation of synaptosomal dopamine concentrations. Data have been reported regarding the selective MAO-B inhibitors, rasagiline and selegiline, for the symptomatic treatment of Parkinson disease (PD). Selegiline has demonstrated efficacy as monotherapy in patients with early PD (Deprenyl and Tocopherol Antioxidative Therapy of Parkinsonism study), but evidence of selegiline efficacy as adjunctive treatment in levodopa-treated PD patients with motor fluctuations is equivocal. A new formulation of selegiline (Zydis selegiline) has been evaluated in 2 small, placebo-controlled studies as adjunctive therapy to levodopa. The Zydis formulation allows pregastric absorption of selegiline, minimizing first-pass metabolism, and thereby increasing selegiline bioavailability and reducing the concentration of amphetamine metabolites. Rasagiline is a selective, second-generation, irreversible MAO-B inhibitor, with at least 5 times the potency of selegiline in vitro and in animal models. Rasagiline has demonstrated efficacy in 1 large, randomized, double-blind, placebo-controlled trial (TVP-1012 in Early Monotherapy for Parkinson's Disease Outpatients) as initial monotherapy in patients with early PD, and in 2 large, controlled trials (Parkinson's Rasagiline: Efficacy and Safety in the Treatment of "Off," Lasting Effect in Adjunct Therapy With Rasagiline Given Once Daily) as adjunctive treatment in levodopa-treated PD patients with motor fluctuations. Unlike selegiline, rasagiline is an aminoindan derivative with no amphetamine metabolites. A randomized clinical trial is underway to confirm preclinical and preliminary clinical data suggesting rasagiline has disease-modifying effects.     

Striatal [18F]fluorodopa utilization after COMT inhibition with entacapone studied with PET in advanced Parkinson's disease

Summary The effect of peripheral catechol-O-methyltransferase (COMT) inhibition with entacapone on striatal uptake of 6-[¹⁸F]fluoro-L-dopa (FDOPA) was studied with PET both without and with entacapone in fifteen advanced parkinsonian patients and six healthy controls. Entacapone significantly enhanced the fraction of unmetabolized FDOPA in plasma from 16% to about 50% at 80 minutes after FDOPA injection in all subjects. The striatal to occipital ratios and the striatal FDOPA uptake, expressed as a modified decarboxylation coefficient (k₃R₀), was significantly increased in healthy controls, whereas in parkinsonian patients the increase was significant only in the caudate. On the other hand, the influx constant (K_i) decreased significantly in the caudate and putamen in parkinsonian patients; in healthy controls the K_i remained virtually unchanged.Effective peripheral COMT inhibition markedly increased the fraction of FDOPA in plasma and thus its availability in the brain for decarboxylation both in patients and control subjects. However, the change in striatal FDOPA uptake was modest in the advanced parkinsonian patients as compared to that in control subjects, because of the advanced disease, decreased storage capacity, or both.     

Effects of vitamin B12, folate,and entacapone on homocysteine levels in levodopa-treated Parkinson’s disease patients: A randomized controlled study

IntroductionPrevious studies have suggested a significant increase in plasma homocysteine (Hcy) levels in levodopa-treated Parkinson’s disease (PD) patients, and vitamin B12 and folate supplementation may decrease Hcy levels. However, the effects of catechol-O-methyltransferase inhibitors on levodopa-induced increase in Hcy levels were conflicting. The aim of this study was to evaluate whether Hcy levels are increased in levodopa-treated PD patients and to evaluate the effects of vitamin B12 and folate or entacapone on Hcy levels in levodopa-treated PD patients.MethodsWe analyzed and compared plasma Hcy levels in 20 levodopa-naïve PD patients and 42 levodopa-treated PD patients, followed by randomized assignment of 42 levodopa-treated patients to treatment groups with either vitamin B12 and folate, entacapone, or no medication.ResultsPlasma Hcy levels in levodopa-treated PD patients were higher than those in the control group, but the difference was not statistical significant (15.25 ± 6.70 and 13.13 ± 4.68, P = 0.216). Patients treated with vitamin B12 and folate had a significant decrease in plasma Hcy levels (P < 0.001). In the entacapone group, Hcy levels were mildly decreased, but the change did not reach statistical significance.ConclusionLevodopa-treated PD patients had higher plasma Hcy than levodopa-naive PD patients. Unlike entacapone, combination supplementation with vitamin B12 and folate was associated with significantly decreased plasma Hcy. We suggest that plasma Hcy levels should be monitored during levodopa treatment, and supplementation with inexpensive vitamin B12 and folate is beneficial for levodopa-treated patients.     

Detection of response to COMT inhibition in FDOPA PET in advanced Parkinson's disease requires prolonged imaging

The aim was to investigate whether the improved 6-[(18)F]fluoro-L-dopa (FDOPA) availability induced by catechol-O-methyltransferase (COMT) inhibition can be more clearly seen during late than during standard (early) imaging in FDOPA uptake in Parkinson's disease (PD) patients with severe dopaminergic hypofunction. Six PD patients and six healthy controls were investigated up to 3.5 h after FDOPA injection with and without a single 400-mg dose of a peripheral COMT inhibitor, entacapone. Prolonged (late) imaging showed a significantly higher increase in FDOPA uptake than standard 1.5 h (early) imaging after entacapone both in controls and in PD patients. The increase in the (putamen-occipital):occipital ratios was 37.4% during early and 70.4% during late imaging in controls. In PD patients, there was no significant change in the ratios during early imaging, but the late imaging showed a significant increase in the putamen-to-occipital ratio of 54.2% after COMT inhibition. Late imaging reveals more clearly the prolonged FDOPA availability induced by COMT inhibition leading to higher cumulated striatal activity compared with early imaging. This might be worth considering in FDOPA studies, especially if investigations are planned to do without blood sampling. Late imaging shows the storing potential of FDA better than is seen during early FDOPA PET imaging after entacapone administration. In patients with severe presynaptic dopaminergic hypofunction, its detection requires prolonged imaging.     

Peripheral blood cell activities of monoamine oxidase B and superoxide dismutase in Parkinson's disease

Summary Monoamine oxidase type B (MAO-B) and superoxide dismutase (SOD) are two enzyme stystems that are potentially relevant to an oxidative stress model of Parkinson's disease (PD) causation. Activities of MAO-B in platelets (nmol/10⁸ cells/hr) and total SOD in lymphocytes (U/mg protein) were assayed among 28 cases of idiopathic PD and 22 controls. As anticipated, MAO-B was lowest in PD cases on selegiline (L-deprenyl) therapy (mean 1.10). There was a slight deficit of MAO-B among male cases not taking selegiline compared to controls (3.78 vs. 4.15), but the opposite trend was observed for females (6.18 vs. 4.16). SOD was slightly higher in cases (7.40), than controls (6.81). Excess SOD among PD cases was seen irrespective of gender, age, or selegiline treatment, although none of the differences was statistically significant Future research on SOD should take advantage of the availability of assays specific for the cytosolic and mitochondrial forms of the enzyme.     

The antiepileptic drug zonisamide inhibits MAO-B and attenuates MPTP toxicity in mice: Clinical relevance

Zonisamide is an FDA-approved antiepileptic drug that blocks voltage-dependent Na⁺ channels and T-type Ca²⁺ channels and improves clinical outcome in Parkinson's disease (PD) patients when used as an adjunct to other PD therapies. Zonisamide also modifies dopamine (DA) activity, provides protection in ischemia models and influences antioxidant systems. Thus, we tested it for its ability to protect DA neurons in a mouse model of PD and investigated mechanisms underlying its protection. Concurrent treatment of mice with zonisamide and 1-methyl-4-phenyl-1,2,3,6-tetraydropyridine (MPTP) attenuated the reduction in striatal contents of DA, its metabolite DOPAC and tyrosine hydroxylase (TH). We also discovered that zonisamide inhibited monoamine oxidase B (MAO-B) activity in vitro with an IC₅₀ of 25 μM, a concentration that is well within the therapeutic range used for treating epilepsy in humans. Moreover, the irreversible binding of systemically administered selegiline to MAO-B in mouse brain was attenuated by zonisamide as measured by ex vivo assays. Zonisamide treatment alone did not produce any lasting effects on ex vivo MAO-B activity, indicating that it is a reversible inhibitor of the enzyme. Consistent with the effects of zonisamide on MAO-B, the striatal content of 1-methyl-4-phenylpyridinium (MPP⁺), which is derived from the administered MPTP via MAO-B actions, was substantially reduced in mice treated with MPTP and zonisamide. The potency and reversibility with which zonisamide blocks MAO-B may contribute to the ability of the drug to improve clinical symptoms in PD patients. The results also suggest that caution in its use may be necessary, especially when administered with other drugs, in the treatment of epilepsy or PD.     

Catechol-O-methyltransferase inhibition with entacapone: Evidence from controlled clinical trials in Parkinson's disease

Adjunct therapy with the catechol-O-methyltransferase inhibitor entacapone is a first-line approach to treat wearing-off type motor fluctuations in levodopa-treated Parkinson's disease (PD) patients. Five randomized placebo-controlled trials including a total of >1000 patients have established its efficacy, showing increases in ON time between 0.7 and 1.6 h, with corresponding OFF-time reductions. These and other trials also found improvements in ON motor function and quality of life. Additional trials have tested the efficacy of adjunct entacapone in patients either without or with early and mild motor fluctuations and also found enhanced motor control and improved activities of daily living function and quality of life, whereas the STRIDE-PD trial failed to show efficacy of early entacapone use in delaying the onset of dyskinesias. Adjunct entacapone enhances dopaminergic activity and may increase levodopa-induced adverse events like dyskinesias, which can usually be controlled by modest levodopa dose reductions. There is no formal requirement to monitor liver function during entacapone treatment. Entacapone can be a rare cause of lymphocytic colitis with severe diarrhoea and need for treatment discontinuation. In 2003, a triple-combination pill of levodopa, carbidopa, and entacapone (LCE) was first introduced onto the market, and since then proprietary LCE (Stalevo^®) is indicated on the basis of those trials for patients with idiopathic PD to (i) substitute for immediate-release carbidopa/levodopa and entacapone previously administered as individual products or (ii) replace immediate-release carbidopa/levodopa therapy (without entacapone) when patients taking a total daily dose of levodopa of ≤600 mg and not experiencing dyskinesias experience signs and symptoms of end-of-dose wearing off.     

Rate of progression in Parkinson's disease: a 6-[18F]fluoro-L-dopa PET study.

The aim of this study was to investigate the rate of progression in Parkinson's disease (PD) with 6-[(18)F]fluoro-L-dopa (FDOPA) positron emission tomography (PET). We investigated 21 patients with PD and eight healthy controls. Ten of the patients were de novo at the time of the first PET scan and antiparkinsonian medication was started thereafter, with a favourable response. A FDOPA PET scan was carried out twice at an approximately 5-year interval. The regions of interest were drawn on individual magnetic resonance imaging (MRI) images, matched with the PET images. At the first PET scan, in PD patients the mean k(i)(occ) (x 10(-3) min(-1)) in the anterior putamen was 5.6 +/- 2.7 (mean +/- S.D.; 55% of the control mean) and in the posterior putamen 4.5 +/- 2.4 (45% of the control mean). The k(i)(occ) value for the caudate nucleus was 7.5 +/- 2.1 (x 10(-3) min(-1); 76% of the control mean). The FDOPA uptake declined by the time of the second PET scan and the annual rate of decline was 8.3 +/- 6.3% (P < 0.001) of the baseline mean in the anterior putamen and 10.3 +/- 4.8% (P < 0.001) in the posterior putamen. In the caudate nucleus, FDOPA uptake decreased by 5.9 +/- 5.1% (P < 0.001) of the baseline mean per year. The estimated preclinical period was longest for the posterior putamen being 6.5 years. For the anterior putamen the preclinical period was 4.6 years. In the caudate nucleus, the estimated FDOPA uptake was at normal level at disease onset. In healthy controls, there was no significant decline in FDOPA uptake in any striatal subregion. Our results suggest that the disease process in PD first affects posterior putamen, followed by the anterior putamen and the caudate nucleus, but once started, the absolute rate of decline is the same. In healthy controls, no significant decline in FDOPA was detected.     

What has PET told us about Parkinson's disease?

From 1983, when dopaminergic structures were visualized for the first time in the human brain by positron emission tomography (PET) and onwards about 120 PET studies on Parkinsons disease have been listed in MEDLINE. With ¹⁸F-fluorodopa presynaptic dopamine insufficiency can be demonstrated in PD. By using ¹¹C-nomifensine the dopamine reuptake sites can be visualized with PET. These results indicate that the striatal dopaminergic terminals are relatively preserved in PD as compared to the extreme reductions of dopamine in this region post mortem. Radiolabelled D2-agonists indicate a slight increase in these binding sites in de novo PD and no marked reduction in more advanced disease. ¹¹C- selegiline have been used to demonstrate the intracerebral MAO-B inhibition by therapeutic doses of this drug. ¹¹C-L-dopa and PET have demonstrat the rapid striatal decarboxylation of therapeutic doses of L-dopa also in advanced PD and a rough estimate of the striatal dopamine concentration inducing an "on-response" has been obtained. These contributions of PET to PD research are discussed in the article.     

Vitamins and entacapone in levodopa-induced hyperhomocysteinemia: a randomized controlled study

Elevated homocysteine is associated with increased risk of heart disease, stroke, and dementia. Therapy of Parkinson disease (PD) with levodopa elevates homocysteine. The authors conducted a 6-week, multicenter, randomized, double-blind, placebo-controlled trial to test whether folate 1 mg/vitamin B(12) 500 microg or entacapone reduced serum homocysteine in 35 levodopa-treated PD patients. Levodopa initiation caused a small elevation in homocysteine. Vitamin therapy, but not entacapone, resulted in a decrease in homocysteine compared to placebo.     

A dual‐tracer study of extrastriatal 6‐[18F]fluoro‐m‐tyrosine and 6‐[18F]‐fluoro‐l‐dopa Uptake in Parkinson's disease

6‐[¹⁸F]‐Fluoro‐l ‐dopa (FDOPA) has been widely used as a biomarker for catecholamine synthesis, storage, and metabolism—its intense uptake in the striatum, and fainter uptake in other brain regions, is correlated with the symptoms and pathophysiology of Parkinson's disease (PD). 6‐[¹⁸F]fluoro‐m‐tyrosine (FMT), which also targets l ‐amino acid decarboxylase, has potential advantages over FDOPA as a radiotracer because it does not form catechol‐O‐methyltransferase (COMT) metabolites. The purpose of the present study was to compare the regional distribution of these radiotracers in the brains of PD patients. Fifteen Parkinson's patients were studied with FMT and FDOPA positron emission tomography (PET) as well as high‐resolution structural magnetic resonance imaging (MRI). MRI's were automatically parcellated into neuroanatomical regions of interest (ROIs) in Freesurfer ( http://surfer.nmr.mgh.harvard.edu ); region‐specific uptake rate constants (K_occ) were generated from coregistered PET using a Patlak graphical approach. The essential findings were as follows: (1) regional K_occ were highly correlated between the radiotracers and in agreement with a previous FDOPA studies that used different ROI selection techniques; (2) FMT K_occ were higher in extrastriatal regions of relatively large uptake such as amygdala, pallidum, brainstem, hippocampus, entorhinal cortex, and thalamus, whereas cortical K_occ were similar between radiotracers; (3) while subcortical uptake of both radiotracers was related to disease duration and severity, cortical uptake was not. These results suggest that FMT may have advantages for examining pathologic changes within allocortical loop structures, which may contribute to cognitive and emotional symptoms of PD. Synapse 68:325–331, 2014 . © 2014 Wiley Periodicals, Inc.     

Corticostriatal covariance patterns of 6–[18F]fluoro–L–dopa and [18F]fluorodeoxyglucose PET in Parkinson's disease

6–[¹⁸F]fluoro–L–dopa (FDOPA) is a common presynaptic dopaminergic tracer used in examinations by positron emission tomography (PET) for patients with Parkinson's disease (PD). The distinct metabolic covariance pattern in the uptake of [¹⁸F]fluorodeoxyglucose (FDG) can also be used to investigate PD pathology. Although the two tracers are widely used in PD research and clinical assessment, no thorough comparative studies of the tracers have been made. In this study, 25 PD patients were examined with FDOPA and FDG to investigate relationships and clinical correlates of metabolic and monoaminergic function in the Parkinsonian brain. A VOI (volume–of–interest) analysis was achieved by 3D spatial normalisation and fixed VOI–sets. The hemisphere ipsi– and contralateral to the predominant symptoms of PD was identified in each data set, and data across subjects were related using that laterality, rather than body side. Regional covariance patterns for FDOPA and FDG were derived from principal component analysis (PCA). The results demonstrated hemispheric asymmetries and sex–differences in the striatal FDOPA uptake, which were not seen with FDG. In addition, the PCA analysis identified a positive relationship between a major component in FDOPA uptake (associated with the striatal uptake) and an FDG component, which had positive loadings in the thalamus and the cerebellum. The subject scores for these components correlated positively, and both had a negative association with the clinical severity of the disease. The specific extrastriatal FDG covariance pattern contained the thalamus and the cerebellum, components of the previously reported PD related pattern, but not the striatum. The network correlated with both the severity of clinical symptoms of PD and the severity of nigrostriatal dopaminergic hypofunction. The results indicate that FDG PET, when combined with multivariate network analysis at group–level, can be used as an indicator of PD severity.     

Dopaminergic correlates of metabolic network activity in Parkinson's disease

Parkinson's disease (PD) is associated with distinct metabolic covariance patterns that relate to the motor and cognitive manifestations of the disorder. It is not known, however, how the expression of these patterns relates to measurements of nigrostriatal dopaminergic activity from the same individuals. To explore these associations, we studied 106 PD subjects who underwent cerebral PET with both ¹⁸F‐fluorodeoxyglucose (FDG) and ¹⁸F‐fluoro‐L‐dopa (FDOPA). Expression values for the PD motor‐ and cognition‐related metabolic patterns (PDRP and PDCP, respectively) were computed for each subject; these measures were correlated with FDOPA uptake on a voxel‐by‐voxel basis. To explore the relationship between dopaminergic function and local metabolic activity, caudate and putamen FDOPA PET signal was correlated voxel‐wise with FDG uptake over the entire brain. PDRP expression correlated with FDOPA uptake in caudate and putamen (P < 0.001), while PDCP expression correlated with uptake in the anterior striatum (P < 0.001). While statistically significant, the correlations were only of modest size, accounting for less than 20% of the overall variation in these measures. After controlling for PDCP expression, PDRP correlations were significant only in the posterior putamen. Of note, voxel‐wise correlations between caudate/putamen FDOPA uptake and whole‐brain FDG uptake were significant almost exclusively in PDRP regions. Overall, the data indicate that PDRP and PDCP expression correlates significantly with PET indices of presynaptic dopaminergic functioning obtained in the same individuals. Even so, the modest size of these correlations suggests that in PD patients, individual differences in network activity cannot be explained solely by nigrostriatal dopamine loss. Hum Brain Mapp 36:3575–3585, 2015. © 2015 Wiley Periodicals, Inc.     

Double-blind, placebo-controlled study of entacapone in levodopa-treated patients with stable Parkinson disease

BACKGROUND: The catechol O-methyltransferase inhibitor entacapone acts by extending the elimination half-life of levodopa and is currently approved as an adjunct to levodopa for the treatment of patients with Parkinson disease (PD) with motor fluctuations. OBJECTIVE: To determine if the addition of entacapone administration provides benefit to levodopa-treated PD patients who have a stable response to levodopa and do not experience motor complications. DESIGN: Prospective, double-blind, placebo-controlled trial. SETTING: Outpatient multicenter study. PATIENTS: Female and male patients 30 years or older with idiopathic PD receiving stable doses of levodopa or carbidopa with or without other dopaminergic therapies and who did not experience motor fluctuations were eligible for the study. MAIN OUTCOME MEASURES: Parkinsonian function and quality of life. RESULTS: The addition of entacapone did not improve motor scores on the Unified Parkinson's Disease Rating Scale in levodopa-treated PD patients who did not experience motor fluctuations. The mean +/- SE adjusted change between baseline and final treatment visit was -0.9 +/- 0.35 in the entacapone group and -0.8 +/- 0.35 in the placebo group (P = .83). Significant improvement with entacapone treatment was detected in several quality-of-life measures, including the Parkinson Disease Questionnaire 39, the 36-item Short-Form Health Survey, the Parkinson's Symptom Inventory, and investigator and subject Clinical Global Assessments. The drug was well tolerated by patients in this population. CONCLUSIONS: The catechol O-methyltransferase inhibitor entacapone, used as an adjunct to levodopa in PD patients who do not experience motor fluctuations, does not improve Unified Parkinson's Disease Rating Scale motor scores but does improve a variety of quality-of-life measures.     

The effect of peripheral enzyme inhibitors on levodopa concentrations in blood and CSF

Levodopa combined with a dopa‐decarboxylase inhibitor, such as carbidopa, shifts the metabolism to the COMT pathway. Adding the peripheral acting COMT inhibitor entacapone provides improvement for patients with PD suffering from motor fluctuations. We studied the effects of the enzyme inhibitors entacapone and carbidopa on the levodopa concentrations in CSF and in blood. Five PD patients with wearing‐off underwent lumbar drainage and intravenous microdialysis. Samples were taken 12 h daily for 3 days. Day 1; intravenous levodopa was given, day 2; additional oral entacapone 200 mg tid, day 3; additional oral entacapone 200 mg tid and carbidopa 25 mg bid. Levodopa in CSF and in dialysates was analysed. The AUC for levodopa increased both in blood and CSF when additional entacapone was given alone and in combination with carbidopa. The C_max of levodopa in both CSF and blood increased significantly. Additional entacapone to levodopa therapy gives an increase of C_max in CSF and in blood. The increase is more evident when entacapone is combined with carbidopa. © 2010 Movement Disorder Society     

Effect of catechol-O-methyltransferase inhibition on brain uptake of [18F]fluorodopa: Implications for compartmental modelling and clinical usefulness

The efficacy of levo-DOPA in the treatment of Parkinson's disease is potentiated by blockade of its peripheral metabolism with inhibitors of catechol-O-methyltransferase (COMT). Some COMT inhibitors may act entirely in the periphery (nitecapone, OR-462), while others may also have some activity in brain (entacapone, OR-611). We used positron emission tomography (PET) to test the effects of these two COMT inhibitors on the plasma kinetics and brain metabolism of the levo-DOPA analog 6-[¹⁸F]fluoro-L-dopa (FDOPA) in cynomolgus monkeys, employing a compartmental model for the assay of DOPA decarboxylase activity in living brain. Four monkeys each underwent two PET scans in the baseline condition, one PET scan after treatment with OR-462 (15 mg/ kg, i.v.), and one PET scan after treatment with OR-611 (15 mg/ kg, i.v.). Pharmacokinetic analysis of FDOPA metabolism in plasma indicated that these compounds blocked peripheral COMT activity by 80% for at least 60 minutes. Both COMT inhibitors increased the net availability of FDOPA in circulation, and increased the ratio of the radioactivity concentrations in striatum and occipital cortex, suggesting that [¹⁸F]fluorodopamine synthesis in striatum was potentiated. However, OR-611 treatment reduced the unidirectional (K) and net (K_i) blood-brain clearances of FDOPA, and also inhibited the rate of decarboxylation (k) of FDOPA in striatum. These observations suggest that high doses of OR-611 may partially antagonize the cerebral utilization of levo-DOPA. We used the present data to test the sensitivity of the compartmental model to the physiological constraint that the blood-brain permeabilities of the O-methylated plasma metabolite and FDOPA have a fixed ratio. In the groups with COMT inhibition, the estimates of k were insensitive to the magnitude of the permeability ratio. In the control group, the estimate of k increased by 40% as the magnitude of the constrained permeability ratio increased in the range of published estimates. Synapse 30:351–361, 1998. © 1998 Wiley-Liss, Inc.     

Selegiline as a primary treatment of Parkinson's disease

In order to investigate the efficacy of selegiline as a primary treatment in Parkinson's disease (PD), we carried out a placebo controlled, double-blind prospective trial. Fifty-four de novo patients with PD were randomized to receive either selegiline (10 mg/day) or matching placebo. We continued the monotherapy until the initiation of levodopa therapy became necessary. The disability of the patients was evaluated with three different rating scales at baseline, after 3 weeks, 2, 4, 8, and 12 months, and every 4 months thereafter. Fifty-two patients were eligible for the final analysis: 27 in the selegiline group and 25 in the placebo group. The median duration of time without levodopa was 545 ± 90 days in the selegiline treated patients and 372 ± 28 days in the placebo treated ones (p = 0.03). The disability of the patients was significantly milder in the selegiline than in the placebo group up to 12 months. More patients showed symptomatic improvement in the selegiline than in the placebo group. However, the symptomatic effect alone did not explain the prolongation of the time without levodopa in the selegiline treated patients. Selegiline was well tolerated and no severe side effects were encountered.     

Lisuride plus selegiline in the treatment of early Parkinson''s disease

We treated 20 early Parkinson's disease subjects with the dopamine agonist lisuride in combination with the MAO-B inhibitor selegiline (L-deprenyl). We started with lisuride alone for one month, then we added selegiline versus placebo to lisuride in double-blind conditions for 3 months; finally all patients received lisuride and selegiline for another 3 months. Lisuride alone (1.43 +/- 0.10 mg) significantly improved PD. When selegiline (10 mg/day) was added in the double-blind phase the mean lisuride dosage could be reduced by 22.8% without deterioration of the clinical effects, and the same occurred in the former placebo group when selegiline was added. The combination of both drugs was well tolerated. These data are of interest for the interpretation of the effects of selegiline.