540 likes | 740 Views
CHOOSING THE RIGHT MEDICAL TREATMENT AND RECENT ADVANCES. NEELIMA THAKUR, MD. Epilepsy Burden. The lifetime likelihood of Experiencing at least 1 seizure is ~ 9%. Receiving a diagnosis of epilepsy is ~ 3%. Approximately 200,000 new cases of seizures and epilepsy occur each year.
E N D
CHOOSING THE RIGHT MEDICAL TREATMENT AND RECENT ADVANCES NEELIMA THAKUR, MD.
Epilepsy Burden • The lifetime likelihood of • Experiencing at least 1 seizure is ~ 9%. • Receiving a diagnosis of epilepsy is ~3%. • Approximately 200,000 new cases of seizures and epilepsy occur each year. • Epilepsy and seizures affect nearly 3 million Americans of all ages, at an estimated annual cost of $17.6 billion in direct and indirect costs.
Seizures are defined as abnormal discharge of electrical activity from brain neurons resulting in transient loss of motor, sensory or mental function.
Seizure types • Provoked seizures • Acute symptomatic. • Often a reversible cause. • By definition, these are notepilepsy. • Unprovoked seizures • 2 unprovoked seizures 24hrs apart is considered epilepsy.
First unprovoked seizure – risk of seizure recurrence. • 24-74 % in first 5 years. • Normal EEG and imaging studies – 24% • Abnormal EEG and imaging studies- 74% • After 2nd unprovoked seizure – 80%
First unprovoked seizure • Risk factors for seizure recurrence • Family history • Abnormal EEG • Abnormal neuroimaging. • Seizure in sleep.
First unprovoked seizure • 50 % seizures recur in the first year • 80% with in two years.
First unprovoked seizure • Current Guidelines • No antiepileptic drugs (AEDs) if • There are no other risk factors • Normal EEG.
Antiepileptic drugs 1st drug- 47 % seizure free 2nd drug- 13% seizure free 3rd / multi drugs -4% seizure free
Epilepsy outcome at >7 years. • Seizure free >7years - 59 % • Seizure free >1 year and relapses- 16 %
Anti epileptic Drugs • 1850 : Bromides • 1910: Phenobarbital • 1940: Phenytoin • 1950: Ethosuximide • 1958: ACTH • 1954: Primidone • 1968: Carbamazepine • 1975: Clonazepam • 1978: Depakote
1990s: Newer AEDs were developed. • lamotrigine (Lamictal) • felbamate (Felbatol) • levetiracetam (Keppra) • topiramate (Topamax) • oxcarbazepine (Trileptal) • zonisamide (Zonegran) • pregabalin (Lyrica) • lacosamide (Vimpat) • rufinamide (Banzel) • vigabatrin (Sabril) • clobazam (Onfi) • ezogabine (Potiga) • perampanel (Fycompa) • eslicarbazepine (Aptiom) • Good efficacy, • Fewer toxic effects, • Better tolerability
Following criteria may be helpful • Type of epilepsy • Comorbidities • Side effect profile • Pharmacokinetics • Drug-drug interactions • Single dose-Compliance • Women • Elderly
Type of epilepsy • Primarily generalized epilepsies. • ethosuximide ( Absence seizures) • valproate • topiramate • zonisamide • lamotrigine • levetiracetam • rufinamaide • clobazam • vigabatrin.
Primarily generalized epilepsies • Avoid carbamazepine, gabapentin, Phenytoin.
EfficacyPrimarily generalized epilepsy • Absence seizures • ethosuximide, valproate are effective than lamotrigine. • Atonic seizures : clobazam. • Primarily generalized epilepsies: valproate>topamax and leviteracetam.
Type of epilepsy • Partial Epilepsies All AEDs except ethosuximide.
Efficacy-Partial seizures • Not possible to compare efficacy as there are no major head to head trials. • The study population, inclusion and exclusion criteria are different. ‘
Mechanism of action Rational polypharmacy.
Comorbidities • Bipolar disorder/depression/anxiety: valproate, lamotrigine, carbamazepine, oxcarbazepine. • Migraines: valproate, topiramate, zonisamide. • Obesity: topiramate, zonisamide • Neuropathy: gabapentin, lyrica, carbamazepine, oxcarbazepine.
ComorbiditiesAEDs to avoid • Psychiatric/behavorial problems: levetiracetam. • Osteoporosis: phenobarbital, phenytoin, valproate, carbamazepine. • Renal stones : topamax, zonegran. • Obesity: valproate, pregabalin, gabapentin. • Diabetes: valproate.
Liver dysfunction Drugs of choice • leviteracetam • lacosamide • pregabalin • gabapentin
Renal dysfunction Decrease drug doses that are cleared primarily by kidneys • levetiracetam • lacosamide • pregabalin • gabapentin
Hemodialysis Risk of drug removal is high for non protein bound drugs Doses need to be adjusted accordingly. • High risk levetiracetam lacosamide phenobarbital topiramate. • Low risk phenytoin valproate lamotrigine. carbamazepine
Drug interactions Liver enzyme(CYP 450 & UGT) inducers phenytoin, phenobarbital, carbamazepine, oxcarbazepine, topiramate, felbamate, rufinamide. • Liver enzyme inhibitors • valproate, felbamate.
Single daily dose Improves Patient compliance. XR formulations may have lesser side effects. • Q day AEDs Phenytoin, Phenobarbital and zonegran. • XR formulation Depakote ER, Lamictal XR, Keppra XR, Oxtellar XR and Trokendi XR.
Epilepsy in Elderly • The prevalence and incidence of epilepsy are highest in later life!! • Approximately 7% of seniors have epilepsy. • 25% of new cases occur in elderly
AEDs : Elderly • Older people with a first unprovoked seizure are more likely to develop recurring seizures than are younger adults. • Starting AEDs after a single unprovoked seizure may be appropriate in some cases.
AEDs - Elderly TREAT CAUTIOUSLY! • Elderly are more susceptible to the adverse effects of drugs than their younger patients. • Pharmacokinetics and pharmacodynamics of AEDs differ in old age . • Drug-drug interactions
AEDs- Elderly Treatment Challenges • Comorbidities complicate the treatment options. • Polypharmacy make them susceptible to drug interactions. • Adherencemay not be as good in elderly patients with epilepsy.
AEDs - Elderly • Pharmacokinetic • Albumin results in free fraction phenytoin, carbamazepine and valproate. • Drug metabolism is affected by decreased liver enzymes. • Drug excretion is affected by decreased renal clearance.
AEDs - Elderly • In general the preferred drugs are • levetiracetam • lamotrigine • gabapentin
AEDs-Pregnancy Concerns • Effect of AEDs on Fetus and infant during • Pregnancy • Breast feeding. • AED pharmacokinetics affecting levels during • Pregnancy • Postpartum
AEDs - Pregnancy Teratogenic risks mono vs polytherapy. • Single AED 3.1 % • Two AEDs 5.8 % • Three AEDs 8.3%
AEDs - Pregnancy • Major malformations with monotherapy • valproate 9.3% • phenobarbital 5.5 % • topiramate 4.2 % • carbamazepine 3% • phenytoin 2.9% • levetiracetam 2.4% • lamotrigine 2.0%
AEDs - Pregnancy • Pharmacokinetics lamotrigine & levetiracetam clearance during pregnancy level up to 50% of baseline. • Postpartum- clearance returns to baseline and drug levels. • Check monthly levels and adjust dose.
AEDs - Pregnancy In general, levetiracetam, lamotrigine, oxcarbazepine and carbamazepine are considered relatively safe.
Newer AEDs • Ezogabine (Potiga) • Perampanel (Fycompa) • Eslicarbazepine (Aptiom)
Ezogabine (Potiga)2011 • Mechanism of action: Potassium Channel • Approved for add on treatment for Partial epilepsy. • It is the first neuronal potassium channel opener developed for the treatment of epilepsy .
Ezogabine (Potiga) • Mechanism of action: Potassium Channel • Approved as add on treatment for Partial epilepsy . • First neuronal potassium channel opener developed for the treatment of epilepsy .
Ezogabine (Potiga) Absorption and Metabolism: • Well absorbed. Food has no influence. • Not known whether excreted in human milk. • Metabolized in liver. • Dosage adjustment is required in patients with moderate and greater renal or hepatic impairment . • *urine bilirubin can show falsely elevated readings
Ezogabine (Potiga) • Drug interactions • Carbamazepine, phenytoin may Potiga levels. • Potiga has no effect on other AED levels. • POTIGA may digoxin serum concentrations. • Alcohol systemic exposure to POTIGA
Ezogabine (Potiga) Adverse reactions FDA warning blue skin discoloration and eye abnormalities characterized by pigment changes in the retina Initial and periodic eye exams are recommended. • Urinary retention • Neuropsychiatric symptoms- confusion, psychosis • QT interval prolongation
Perampanel (Fycompa)2012 • Mechanism of action: AMPA glutamate receptor noncompetitive antagonist. • Approved as add on treatment for Partial epilepsy.
Perampanel (Fycompa) • Absorption and Metabolism: • Well absorbed. Food has no influence. • Not known whether excreted in human milk. • Metabolized in liver. Dosage adjustment is required in patients with moderate and greater renal or hepatic impairment .
Perampanel(Fycompa) Drug interactions • Does not effect other AEDs. • Enzyme inducers perampanel levels.
Perampanel (Fycompa) • Adverse reactions • Neuro-psychiatric symptoms ( black box warning for aggression and hostility). • Dizziness , Somnolence fatigue, blurred vision. • Pregnancy category C