Drug treatment in Epilepsy

1. Drug treatment in Epilepsy Martin Reed Pharmacy QEPH Miriam Wilcher

2. Treatment Goals • No seizures • No side effects • Monotherapy • Once daily dosing • No blood tests

3. What actually happens • 70% seizure free with one drug • With careful monitoring and adjustment • 5% to 10% seizure free with two or more drugs • 20% still have seizures

4. Principals of pharmacological treatment 1 • Use the right drug for the seizure type • Use one drug and increase the dose until a therapeutic effect is gained or toxicity appears (maximum tolerated dose) • Monitor treatment including blood levels • If required add a second drug. • If a response consider slowly removing the first drug

5. Principals of pharmacological treatment 2 • If monotherapy fails use two drugs • Review and replace the combinations used • Add in a third drug if necessary • Be prepared to accept that a significant reduction in seizure frequency maybe as good as it gets

6. Compliance • For a drug to be effective it has to be taken • Non compliance is an important issue in poor control • Patients must be fully involved in decisions • Patients views must be respected • Better knowledge and respect leads to better compliance

7. Why don’t patients comply? • Poor communication • Poor memory • Poor understanding of instructions • Mis-information • Side effects • Poor dose regimes • Difficult to swallow/nasty taste medication Good information makes medicines work

8. When should levels be monitored? • Uncontrolled seizures • Recurrence of seizures • Side effects • Assessment of compliance • Confirmation of desired results • Assessment of therapy when seizures infrequent • Minor dose adjustments • Concurrent illness

9. But • Blood concentrations are a guide only • Timing of sample important • Never look at the blood level in isolation • Always consider blood level with respect to: • Side effects • Seizure frequency

10. Modes of action 1 Suppress action potential • Sodium channel blocker or modulator • Potassium channel opener 2 Enhance GABA transmission • GABA uptake inhibitor • GABA mimetics 3 Suppression of excitatory transmission

11. Sodium channels • Main target for many drugs • Sodium channels are responsible for the rising phase of the action potential in excitable cells and membranes • Examples: Phenytoin Carbamazepine Oxcarbazepine Lamotrigine

12. Potassium channels • Very diverse group of ion channels • Responsible for resting potential • Influences excitability of neurones • Determine potential width

13. GABA A and GABA B • Inhibitory neurotransmitter • GABA A post synaptic; 7 classes • Dependent upon chloride and bicarbonate ions • GABA B pre and post synaptic

14. GABA A Transmission • Barbiturates • primidone • Benzodiazepines • Clobazam, clonazepam, diazapam • Tiagabine • Vigabatrin

15. Calcium channels • Four main types • L, P/G, N; high voltage • T; low voltage Mono amines modulate the circuit Nifedipine blocks L

16. Calcium channels • T type • Ethosuximide, zonisamide • L type • Barbiturates, felbamate • N type • Lamotrigine, barbiturates , oxcarbazepine • P/Q type • Lamotrigine, oxcarbazepine

17. Glutamate • Major excitatory transmitter • Mainly intracellular • Three receptor types • NMDA • Associated with sodium and calcium ions • Magnesium ions block • Other messengers act at NMDA site • AMPA and kainate receptors • metabotropic

18. Other Mechanisms • Valproic acid • Gabapentin • Piracetam • Levetiracetam

19. BUT • Why do persistent alterations in neuronal circuits or excitability result in a paroxysmal disorder like epilepsy?

20. Sites of action 1 • Valproate, vigabatrin, tiagabine increase GABA by inhibiting reuptake (2) and preventing breakdown within the cell (3) • Benzodiazepines bind to GABA receptors (4) • Phenobarbital opens chloride channels (4) • Topiramate blocks sodium channels and is a GABA agonist at some sites (4)

22. Other modes of action • Gabapentin, has similar structure to GABA • Phenytoin,carbamazepine,oxcarbazepine, lamotrigine, act on sodium channels • Ethosuximide, reduces calcium currents • Levetiracetam, has neuroprotective effect • Topiramate, acetazolamide, are carbonic anhydrase inhibitors • Zonisamide hasweak carbonic anhydrase activity

23. Choice of antiepileptic 1

25. Choice of antiepileptic 2

26. Carbamazepine 1 • Dose • 200mg to 1600mg a day in divided doses • Therapeutic plasma concentration • 4 to 12 micrograms per ml • 20 to 50 micromoles/L • Poor correlation between dose and plasma level in children • Widely distributed in tissues, found in placenta and breast milk (40% plasma level) • t MAX 4 to 8 hours • Indicated for • All forms of seizures except absence and myoclonic seizures

27. Carbamazepine 2 • Common side effects • Headache, drowsiness, dizziness, ataxia, double vision, • Serious effects • Osteomalacea, folate deficency, peripheral neuropathy, water retention, hyponatraemia, rash, blood dyscrasias-leucopaenia • Comments • Drug of choice for partial seizures, primary or secondary generalised tonic-clonic seizures • Auto induces own metabolism – slow escalation • Variable half life 25-65 initially 8-18 chronically • Active metabolite • Many drug interactions as enzyme inducer • Can make myoclonus worse or appear to cause it

28. Oxcarbazepine • Dose • 600mg to 2400mg daily • Therapeutic plasma concentration • Indicated for • Partial seizures with or without secondarily generalised tonic clonic seizures • Common side effects • As for carbamazepine – less severe • Comments • Fewer drug interactions than carbamazepine

29. Clonazepam 1 • Dose • 4 to 8 mg a day • Therapeutic plasma concentration • 0.63 to 2.2 mmol/litre • Indicated for • Refractory absence and myoclonic seizures

30. Clonazepam 2 • Common side effects • Sedation, ataxia, behaviour problems, hyperactivity • Comments • Used for partial seizures • Half life 18 to 50 hours • Tolerance develops in 30%

31. Clobazam • Dose • 20 to 60mg a day • Indicated for • Refractory partial seizures • Cluster seizures • Seizures connected with periods • Common side effects • As for clonazepam • Comments • As for clonazepam

32. Ethosuximide 1 • Dose • 500mg to 1500 mg daily • Therapeutic plasma concentration • 300 -700 micromoles/L • 50 -100 micrograms/L • Indicated for • Simple absence seizures

33. Ethosuximide 2 • Common side effects • Gastro intestinal upset, nausea, drowsiness, headache, behavioural changes, hiccups, skin rashes • Comments • Half life 50 to 60 hours in adults 30 to 40 hours in children • Administered tds to reduce gastric upset

34. Gabapentin 1 • Dose • 300mg to 2400mg daily (needs tds dose) • Therapeutic plasma concentration • Not established • Indicated for • Adjunctive treatment for refractory partial seizures

35. Gabapentin 2 • Common side effects • Drowsiness, dizziness, fatigue, ataxia, tremor, diplopia, nausea and vomiting • Comments • Excreted unchanged; 95% in urine • Only 60% of dose absorbed • Unaffected by food • Seizure frequency may increase • No common drug interactions • Comparatively safe in overdose

36. Lamotrigine 1 • Dose • 100 to 200mg monotherapy or with valproate • 200mg to 400mg with enzyme inducers • Therapeutic plasma concentration • Not clinically relevant • Indicated for • All forms of seizures

37. Lamotrigine 2 • Common side effects • Dizziness, ataxia, double vision, nausea, somnolence • Rash (worse in children) less if slow escalation • Comments • Complex interaction with valproate very slow escalation needed • Indicated for partial seizures and secondarily generalised tonic clonic seizures • Half life 25 hours shorter with enzyme inducers • Excreted in breast milk • Reasonably safe in overdose (10x)

38. Levetiracetam • Dose • 500mg to 3000mg • Therapeutic plasma concentration • Not relevant • Indicated for • Partial seizures, Generalised absences • Common side effects • Nausea, drowsiness, anorexia, headache, rash, • Very rarely leucopenia • Comments • No drug interactions described

39. Phenobarbital 1 • Dose • 90 to 600mg daily • Therapeutic plasma concentration • 60 to 160 micromoles /L • 20 to 40 micrograms/ml • Indicated for • All forms of seizures except absence seizures

40. Phenobarbital 2 • Common side effects • Sedation (tolerance develops), headache, hyperkinesia (old & young) slurred speech, skin reactions, cognitive impairment • Comments • Dependency; needs very, very slow withdrawal • Interactions - increases valproate effect; -enzyme inducer, reduces effects of many other drugs • Half life 2 to 7 days • Can cause folate deficiency

41. Primidone • Dose • 50mg to 1500mg daily • Therapeutic plasma concentration • No clinical relevance • Indicated for • All form of seizures except absence seizures • Common side effects • As for phenobarbital • Comments • Metabolised to phenobarbital and phenyethylmalonamide (PEMA)

42. Phenytoin 1 • Dose • 150mg to 600mg daily • Therapeutic plasma concentration • 40 to 40micromoles/L • 10 to 20 micrograms/ml • t MAX 4 to 12 hours • Indicated for • All forms of seizures except absence seizures • Common side effects • Dizziness, nausea, skin rashes, gum tenderness, hirsutism in females, peripheral neuropathy, tremor, ataxia, osteomalacia, folate deficiency

43. Phenytoin 2 • Comments • Zero order kinetics small increase in dose can cause large increase in levels • Plasma levels (TDM) mandatory • Many drug interactions including other AEDs • Enzyme inducer • Metabolised in the liver • Half life 22 hours

44. Sodium valproate/valproic acid 1 • Dose • 600mg to 2400mg daily • Therapeutic plasma concentration • 300 to 600 micromoles/L • 50 to 100 micrograms/ml • But of little clinical value • Indicated for • All forms of epilepsy

45. Valproic acid/sodium valproate 2 • Common side effects • Nausea, gastrointestinal irritation, drowsiness, ataxia, weight gain & also anorexia, alopecia. • Rare but serious impaired liver function • thrombocytopenia • Comments • Half life 10 to 20 hours, reduced with polytherapy • GI upset reduced by enteric coating • Interacts with lamotrigine and phenobarbital

46. Tiagabine 1 • Dose • 30 to 45 mg daily with enzyme inducers • 15 to 30mg daily without enzyme inducers • Therapeutic plasma concentration • Not relevant • Indicated for • Adjunctive treatment for refractory partial seizures • Common side effects • Diarrhoea, dizziness, tiredness, concentration difficulties, emotional changes, speech impairment.

47. Tiagabine 2 • Comments • Short half life (4 to 10 hours) • Used when add on therapy is required • Efficacy reduced by enzyme inducing AEDs • Reduces plasma concentration of sodium valproate

48. Topiramate 1 • Dose • 200mg to 800mg daily • Therapeutic plasma concentration • Not clinically relevant • Indicated for • Adjunctive treatment for refractory partial seizures • Common side effects • Nausea, abdominal pain, anorexia, cog. impairment, mood disorders (can be aggressive in LD)

49. Topiramate 2 • Comments • Watch for weight loss and depressive psychosis • Ensure adequate hydration; increased risk of kidney stones. Avoid carbonic anhydrase inhibitors e.g. acetazolamide • Half life 18 to 30 hours reduced where given with enzyme inducing drugs

50. Vigabatrin 1 • Dose • 2000mg to 3000mg daily • Therapeutic plasma concentration • Not clinically relevant • Indicated for • Adjunctive treatment for refractory generalised tonic clonic and partial seizures