Lillian S. Deking scite author profile

Lillian S. Deking

3Publications

19Citation Statements Received

96Citation Statements Given

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University of Veterinary Medicine Hannover, Foundation

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Chronic convection-enhanced muscimol delivery into the subthalamic nucleus produces transient anticonvulsant effects in an acute rat seizure model.

Feja¹,

Deking

Gernert³

2020

Preprint

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Aims : Intracerebral drug delivery is an emerging strategy for the treatment of refractory epilepsies. Recently, the GABA A receptor agonist muscimol was infused into the epileptic focus in drug-resistant epilepsy patients (Heiss et al. 2019 Neurosurgery). In seizure and epilepsy models in rats, muscimol has shown anticonvulsant potential when injected acutely into the subthalamic nucleus (STN). However, continuous administration would be required for the clinical setting. Thus, we hypothesized that chronic convection-enhanced muscimol delivery into the STN produces anticonvulsant effects in an acute rat seizure model. Methods : We examined the effects of intra-STN muscimol following a single microinjection (30 and 60 ng/250 nl) and during continuous administration via a microinfusion pump (60 and 600 ng/day over 3 weeks) on the seizure threshold of female Wistar Unilever rats. Timed intravenous pentylenetetrazole (PTZ) infusion was used as an acute seizure test particularly sensitive to GABA-potentiating manipulations. Results : Acute STN muscimol infusion significantly increased PTZ seizure thresholds compared to vehicle-injected animals. The anticonvulsant effect persisted in the first week during chronic STN inhibition and diminished in the second week, indicating tolerance. Low doses of muscimol were well tolerated and not associated with behavioral adverse effects (e.g., sedation, circling) observed after infusion of higher doses. Evaluation of the spatial distribution of BODIPY-labeled muscimol revealed behavioral adverse effects may be attributable to drug spread into adjacent regions of the STN. Conclusions : These results substantiate the STN as a key region in seizure control and indicate the potential of chronic targeted muscimol delivery for prolonged anticonvulsant effects.

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OV329, a novel highly potent γ‐aminobutyric acid aminotransferase inactivator, induces pronounced anticonvulsant effects in the pentylenetetrazole seizure threshold test and in amygdala‐kindled rats

Feja¹,

Meller²,

Deking³

et al. 2021

Epilepsia

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Summary Objective An attractive target to interfere with epileptic brain hyperexcitability is the enhancement of γ‐aminobutyric acidergic (GABAergic) inhibition by inactivation of the GABA‐metabolizing enzyme GABA aminotransferase (GABA‐AT). GABA‐AT inactivators were designed to control seizures by raising brain GABA levels. OV329, a novel drug candidate for the treatment of epilepsy and addiction, has been shown in vitro to be substantially more potent as a GABA‐AT inactivator than vigabatrin, an antiseizure drug approved as an add‐on therapy for adult patients with refractory complex partial seizures and monotherapy for pediatric patients with infantile spasms. Thus, we hypothesized that OV329 should produce pronounced anticonvulsant effects in two different rat seizure models. Methods We therefore examined the effects of OV329 (5, 20, and 40 mg/kg ip) on the seizure threshold of female Wistar Unilever rats, using the timed intravenous pentylenetetrazole (ivPTZ) seizure threshold model as a seizure test particularly sensitive to GABA‐potentiating manipulations, and amygdala‐kindled rats as a model of difficult‐to‐treat temporal lobe epilepsy. Results GABA‐AT inactivation by OV329 clearly increased the threshold of both ivPTZ‐induced and amygdala‐kindled seizures. OV329 further showed a 30‐fold greater anticonvulsant potency on ivPTZ‐induced myoclonic jerks and clonic seizures compared to vigabatrin investigated previously. Notably, all rats were responsive to OV329 in both seizure models. Significance These results reveal an anticonvulsant profile of OV329 that appears to be superior in both potency and efficacy to vigabatrin and highlight OV329 as a highly promising candidate for the treatment of seizures and pharmacoresistant epilepsies.

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Acute and chronic convection-enhanced muscimol delivery into the rat subthalamic nucleus induces antiseizure effects associated with high responder rates

Gernert¹,

Deking²,

MacKeigan³

et al. 2023

Epilepsy Research

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Lillian S. Deking

Chronic convection-enhanced muscimol delivery into the subthalamic nucleus produces transient anticonvulsant effects in an acute rat seizure model.

OV329, a novel highly potent γ‐aminobutyric acid aminotransferase inactivator, induces pronounced anticonvulsant effects in the pentylenetetrazole seizure threshold test and in amygdala‐kindled rats

Acute and chronic convection-enhanced muscimol delivery into the rat subthalamic nucleus induces antiseizure effects associated with high responder rates

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