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Screening Methods for Antiepileptic Drugs

In-vitro and in-vivo animal models for discovery and evaluation of anticonvulsant compounds

Past RGUHS · 4 RGUHSNov '20 RGUHSNov '17 RGUHSNov '16 RGUHSMay '09

Screening Methods for Antiepileptic Drugs

1. Definition, rationale & the screening problem

  • Epilepsy is a chronic disorder characterised by recurrent unprovoked seizures; a seizure is the paradoxical event of abnormal, excessive, hypersynchronous discharge from an aggregate of CNS neurons (SK Gupta 3e Ch.28, p.412).
  • Pathophysiologically, seizures reflect an imbalance in voltage-dependent ion channelsreduced inhibitory (GABA-mediated) or increased excitatory (glutamate-mediated) drive (SK Gupta 3e Ch.28, p.412).
  • Drug therapy of epilepsy is empirical and does not address underlying pathology; despite many efficacious AEDs, ~25% of absence and ~15% of generalised tonic-clonic patients remain inadequately controlled, and 20–30% of epilepsy becomes drug-resistant — driving the need for better preclinical models, especially for pharmacoresistant epilepsy (SK Gupta 3e Ch.28, p.412; Vogel 4e V2 p.1216, p.1272).
  • Central caveat repeated across all sources: most "screening models" are models of seizures, not of epilepsy — they evoke acute provoked seizures in a normal brain (electroshock/chemoconvulsant), whereas human epilepsy is chronic spontaneous recurrent seizures. Genetic and chronic post-status models come closest to true epilepsy (SK Gupta 3e Ch.28, p.430; Medhi Ch.18, p.192).
  • Purpose of a screening cascade: (i) detect anticonvulsant activity, (ii) define the spectrum (which human seizure type), (iii) probe mechanism, (iv) detect epileptogenesis-modifying / disease-modifying potential, (v) identify activity in drug-resistant models, and (vi) flag neurotoxicity/therapeutic index — no single test predicts the full profile, so a battery is mandatory (SK Gupta 3e Ch.28, p.430).
  • 2002 NIH/NINDS/AES Models Workshop recommended discovery of newer genetic models and injury-induced epilepsy models (electrically/chemically induced status epilepticus) to find therapies for pharmacoresistant and disease-modifying targets (SK Gupta 3e Ch.28, p.412).

Characteristics of an "ideal" epilepsy model (validity benchmark)

  • Development of spontaneously occurring seizures.
  • Seizure type resembling that seen in human epilepsy (construct/face validity).
  • EEG correlates of epileptic-like activity.
  • Age-dependency of onset, as in many human epileptic syndromes.
  • No current model satisfies all criteria; genetic animal models come closest (resemble idiopathic human epilepsy) and are especially valuable for drug-resistant epilepsy (SK Gupta 3e Ch.28, p.430).
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Screening Antiepileptic Drugs

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