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The objective of the present study is to assess dopaminergic reactivity with behavioural markers (i.e. yawning and blinking) in patients with idiopathic generalized epilepsy compared to matched healthy controls, after injection of either low dose of apomorphine or placebo.
Other parameters will be recorded: biochemical (prolactin, GH) and neurophysiological (Spike-Waves Discharge: SWD rating). Safety parameters will be recorded to assess tolerance.
Clinical data regarding the effects of dopaminergic drugs in idiopathic generalized epilepsies are scarce. The general observation that antipsychotic agents (dopaminergic antagonists) worsen seizures, has suggested that dopaminergic agonists would have antiepileptic effects. However, this has never been clearly demonstrated, besides in few limited studies (Mervaala, 1990 ; Quesney, 1980, 1981). More recently, Positron Emission Tomography (PET) investigations using dopaminergic markers (Fluoro-Dopa, SCH23390, DAT) have shown dopaminergic deficits in several epileptic syndromes: ring chromosome 20 syndrome (Biraben 2004), juvenile myoclonic epilepsy (Ciumas 2008), temporal lobe epilepsy (Bouilleret 2008), frontal lobe epilepsy (Fedi 2008). These data give rise to a renewal of interest for the involvement of the dopaminergic neurotransmission in epilepsies. Based on our experimental data from animal studies (see Deransart and Depaulis, 2002), the investigators propose an original study investigating the involvement of the dopaminergic system in idiopathic generalized epilepsies using behavioural as well as neurophysiological markers of the dopaminergic response, in conditions where seizing activities in patients are facilitated (EEG follow-up after sleep deprivation). This approach is based on the concept developed in our laboratory concerning the involvement of the basal ganglia, and more precisely the dopaminergic pathways, in the control of spike-wave discharges in idiopathic generalized epilepsies.
The primary objective is to assess dopaminergic reactivity using a behavioural marker (i.e. yawning) in patients with idiopathic generalized epilepsy compared to matched healthy controls after injection of either low dose of apomorphine or placebo. Other parameters will be recorded as secondary outcomes: behavioural (blinking), biochemical (prolactin, GH) and neurophysiological (Spike-Waves Discharge: SWD rating) markers. Safety parameters will be recorded to assess tolerance.
Experimental data: hyperdopaminergic response in a model of absence-epilepsy in the rat. Since the late 80's, our laboratory has demonstrated the existence of an endogenous neural mechanism that controls the occurrence of epileptic seizures in different animal models, a system based on the hypothesis that the basal ganglia modulate the synchronisation of epileptic rhythmic activities (Depaulis 1994). The studies performed in GAERS (Genetic Absence Epilepsy Rats from Strasbourg, a validated model of absence-epilepsy in rat) have shown that inhibition of the main output structure of basal ganglia (i.e., the substantia nigra pars reticulata) had antiepileptic effects (Depaulis 1994; Deransart 1996). Similarly, deep brain stimulation of the substantia nigra pars reticulata as well as of the subthalamic nucleus interrupts seizures (Vercueil 1998; Feddersen 2007). Systemic and intrastriatal dopamimetics injections in GAERS also suppress seizures, whereas antagonists worsen them (Warter et al, 1988; Deransart et al., 2000). Electrophysiological data showed respectively decreased and increased activity of DA neurons during and at the end of absence-seizures (Lücking et al. 2002). An increase in D3 receptor transcripts was also observed in adult GAERS as compared to inbred non epileptic control rats (NEC), within the ventral striatum (Deransart et al. 2001). These data suggest changes in the DA tone in GAERS with fully developed epileptic phenotype. According to the key role of DA D3 neurotransmission in the foetal cortical development (Levant B, 1995) and modulation of DA tone (Nissbrandt et al., 1995; Gilbert et al., 1995; Kreiss et al., 1995), the researchers investigated whether the putative impaired DA tone in GAERS correlates with functional changes in spontaneous and quinpirole-induced yawning behaviour (Kurashima et al. 1995; Collins et al.2005). The hypothesis of an increased dopaminergic tone in GAERS was thus addressed using pharmacology and microdialysis. In GAERS and NEC (i) spontaneous and quinpirole-induced yawning behaviour and (ii) changes in intra-accumbens dopamine contents induced by amphetamine and K+ and measured by microdialysis were investigated. Spontaneous yawning was significantly decreased in GAERS (0.3±0.2 yawn/hr, n=9) as compared to NEC (5.4±1.2, n=8) and Wistar Harlan rats (9.7±2.3, n=7). Quinpirole-induced yawning was significantly increased in GAERS (29.4±4.9) as compared to NEC (10.5±2.7) and Wistar-Harlan rats (22.6±3.5). Quinpirole also increased the number of absence-seizures in GAERS (+47.4±8.6%). When compared to NEC, basal levels of DA were 40% lower in GAERS whereas amphetamine and K+ produced a higher increase in extracellular dopamine in GAERS. The increased quinpirole-induced yawning in GAERS may account for an overexpression in D3 transcripts. The increased responsiveness of dopamine transmission observed in GAERS after pharmacological manipulations, as compared to NEC, suggests a " hyperdopaminergic " phenotype of GAERS. Altogether, these data support that GAERS have an impaired DA tone that may be associated with the development of mechanisms controlling absences seizures (Deransart et al, in preparation).
Altogether, these data suggest that a phasic involvement (" on request ") of the basal ganglia - notably under the influence of the dopaminergic neurotransmission - may underlie the rapid changes in extracellular activity recorded in output structures of the basal ganglia at the end of seizures in this model (Deransart 2003). Such a phasic functioning of the dopaminergic system in the control of seizures could also reconcile with the apparent discrepancy regarding the fact that seizures appear to escape chronic high-frequency stimulations of the substantia nigra (Feddersen 2007). These data strengthen the need for a re-appraisal of clinical approaches, especially based from a dynamic point of view regarding the involvement of the dopaminergic system in epilepsy.
Clinical data:
This project arises from concepts developed in our laboratory from experimental data obtained in an animal model of epilepsy and from recent clinical data from the literature. It aims at improving understanding of dopaminergic transmission dynamics in patients with epilepsy. It could therefore promote the emergence of new markers of susceptibility to epileptic seizures and constitute an opportunity to develop new pharmacological approaches based on dopaminergic neuromodulation.
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| Label | Type | Description | Intervention Names |
|---|---|---|---|
| Apomorphine | Experimental | After randomization healthy volunteers or patients with idiopathic generalized epilepsy receive: -sequence A: 1 mg/kg and then 5 mg/kg of apomorphine |
|
| Saline | Placebo Comparator | After randomization healthy volunteers or patients with idiopathic generalized epilepsy receive: sequence B: 2 injections of saline |
|
| Name | Type | Description | Arm Group Labels | Other Names |
|---|---|---|---|---|
| Apomorphine (Experimental product) | Other | Dosage Form: Injection Dosage: 1 or 5 mg / kg Route of administration: Subcutaneous Duration of treatment: two injections of apomorphine followed by two injections of a placebo one week after or vice versa. Two injections will be made by visiting during visits 2 and 3. The study was conducted cross-over with two visits EEG recording, the order will be randomized injections:
|
| Measure | Description | Time Frame |
|---|---|---|
| Number of yawn | Number of yawn at 60 minuts after the injection of apomorphine in patients with idiopathic generalized epilepsy compared to healthy volunteers. | 60 minutes after injections |
| Number of eyelid blinking | Number of eyelid Blinking at 60 minuts after the injection of apomorphine in patients with idiopathic generalized epilepsy compared to healthy volunteers. | 60 minutes after injections |
| Measure | Description | Time Frame |
|---|---|---|
| Number of yawn | Evolution of yawn number between base line period and the 60 minuts following the injection of apomorphine in patients with idiopathic generalized epilepsy compared to healthy volunteers matched. | at 60 minutes after injections |
| Number of eyelid blinking in both groups after apomorphin or placebo injection |
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Inclusion Criteria:
For patients:
For healthy volunteers:
Exclusion Criteria:
Criteria for non-inclusion
For patients:
For healthy volunteers:
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| Name | Affiliation | Role |
|---|---|---|
| Laurent VERCUEIL, Doctor | Institut National de la Santé Et de la Recherche Médicale, France | Principal Investigator |
| Facility | Status | City | State | ZIP | Country | Contacts |
|---|---|---|---|---|---|---|
| CIC Department - University Hospital of Grenoble | La Tronche | Isere | 38700 | France |
| PubMed Identifier | Type | Citation | Retractions |
|---|---|---|---|
| 15037514 | Background | Ahmad S, Fowler LJ, Whitton PS. Effect of acute and chronic lamotrigine on basal and stimulated extracellular 5-hydroxytryptamine and dopamine in the hippocampus of the freely moving rat. Br J Pharmacol. 2004 May;142(1):136-42. doi: 10.1038/sj.bjp.0705737. Epub 2004 Mar 22. | |
| 15777732 | Background | Ahmad S, Fowler LJ, Whitton PS. Lamotrigine, carbamazepine and phenytoin differentially alter extracellular levels of 5-hydroxytryptamine, dopamine and amino acids. Epilepsy Res. 2005 Feb;63(2-3):141-9. doi: 10.1016/j.eplepsyres.2005.02.002. |
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| ID | Term |
|---|---|
| C562694 | Epilepsy, Idiopathic Generalized |
| D004827 | Epilepsy |
| ID | Term |
|---|---|
| D001927 | Brain Diseases |
| D002493 | Central Nervous System Diseases |
| D009422 | Nervous System Diseases |
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| ID | Term |
|---|---|
| D001058 | Apomorphine |
| ID | Term |
|---|---|
| D001060 | Aporphines |
| D044182 | Benzylisoquinolines |
| D000470 | Alkaloids |
| D006571 | Heterocyclic Compounds |
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|
The number of eyelid blinking after apomorphin or placebo injection is compare in both groups |
| at 60 minutes after injections |
| Neurophysiological assessment of the dopaminergic reactivity | Number and cumulated duration of Spike-waves discharge assessed after injection of apomorphine in patients with idiopathic generalized epilepsy | 60 min |
| To test the correlation between the behavioral and neurophysiological markers of dopaminergic reactivity in patients with epilepsy | Correlation between yawning/blinking and the number of Spike-wave discharges in patients with epilepsy (Pearson test) | 60 min |
| To assess dopaminergic reactivity with biological markers | Comparison between plasma concentrations of prolactin and growth hormone (GH) in patients and controls after injection of apomorphine or placebo. | 60 min |
| Number of Adverse Events as a Measure of Safety and Tolerability | This is a descriptive outcome. The number of each adverse event occured at 4 weeks will be listed | 4 weeks |
| Check the absence of spike-wave discharges in healthy volunteers | EEG analysis | 60 min |
| 12914551 | Background | Aymard G, Berlin I, de Brettes B, Diquet B. Pharmacokinetic-pharmacodynamic study of apomorphine's effect on growth hormone secretion in healthy subjects. Fundam Clin Pharmacol. 2003 Aug;17(4):473-81. doi: 10.1046/j.1472-8206.2003.00152.x. |
| 15249613 | Background | Biraben A, Semah F, Ribeiro MJ, Douaud G, Remy P, Depaulis A. PET evidence for a role of the basal ganglia in patients with ring chromosome 20 epilepsy. Neurology. 2004 Jul 13;63(1):73-7. doi: 10.1212/01.wnl.0000132840.40838.13. |
| 2271377 | Background | Blin O, Masson G, Azulay JP, Fondarai J, Serratrice G. Apomorphine-induced blinking and yawning in healthy volunteers. Br J Clin Pharmacol. 1990 Nov;30(5):769-73. doi: 10.1111/j.1365-2125.1990.tb03848.x. |
| D007546 |
| Isoquinolines |
| D006574 | Heterocyclic Compounds, 2-Ring |
| D000072471 | Heterocyclic Compounds, Fused-Ring |
| D006576 | Heterocyclic Compounds, 4 or More Rings |