Anticonvulsants

Question 1

What is a seizure?

Answer 1

A failure of conscious intent to control brain function.

Question 2

What are convulsions?

Answer 2

Failure to inhibit motor output

Question 3

What are absence seizures?

Answer 3

Inability to generate motor output

Question 4

T/F Seizures may be idiopathic or secondary to various conditions.

Answer 4

TRUE

Question 5

When would chronic pharmacological treatment be warranted?

Answer 5

If the seizure was of an unknown cause and recurring (epilepsy). Similar therapy may be needed in the aftermath of a known cause.

Question 6

What are the 3 stages typically seen in seizures?

Answer 6

(1) Focal discharge (paroxysmal depolarization)
(2) Spread
(3) Termination

Question 7

What is the prevalence of epilepsy?

Answer 7

about 1-2%, second most common neurological disorder (after stroke)

Question 8

What are the three ways in which anticonvulsants work?

Answer 8

(1) Decrease excitation: glutamate receptors and glutamate release (calcium channels)
(2) Increase inhibition: GABA receptors GABA synthesis and release
(3) Decrease impulse generation and propogation: Na channels (K channels)

Question 9

What are the main causes of provoking seizures?

Answer 9

• Things that are stressful
• Dehydration
• Sleep deprivation
• Head injury
• Infection
• Fever
• Intoxication of drugs
• Space occupying lesions in the brain

Question 10

Anticonvulsants: Mechanism of action

Answer 10

• Seizure spread through brain depends on action potentials (sodium channels) and release of excitatory transmitters (mostly glutamate) (calcium channels). It is prevented by inhibitory neurotransmitters, especially GABA

Question 11

Anti-seizure drugs suppress spread of abnormal electrical activity (rather than eliminate its cause) by these 4 things:

Answer 11

(1) Blocking actions potentials (sodium channel block)
(2) Increasing the inhibitory tone of the brain (increasing GABA transmission)
(3) Reducing neurotransmitter release (calcium channel block)
(4) Reducing excitatory neurotransmission (decreasing glutamate neurotransmission)

Question 12

What are the two types of partial seizures?

Answer 12

Simple partial and Complex partial

Question 13

What are the major manifestations of simple partial seizures? (2)

Answer 13

(1) Various manifestations, depending upon the affected brain region
(2) Key feature is preservation of consciousness

Question 14

What are the major manifestations of complex partial seizures? (4)

Answer 14

(1) Localized onset followed by widespread discharges (usually bilateral)
(2) Confused behavior, impairment of consciousness
(3) Most arise form the temporal lobe
(4) Almost always involves the limbic system

Question 15

What are the two types of generalized seizures?

Answer 15

Tonic-clonic (Grand mal) and Absence (Petit mal)

Question 16

What are the major manifestations of tonic-clonic seizures? (2)

Answer 16

(1) Major convulsions (tonic body muscle spasms followed by synchronous clonic jerking)
(2) Prolonged depression of all central functions after seizures (postictal depression)

Question 17

What are the major manifestations of absence seizures? (4)

Answer 17

(1) Sudden onset, abrupt cessation (usually less than 10 sec)
(2) Brief loss of consciousness, sometimes with motor involvement
(3) Occurs in childhood and often disappears during maturation; may be frequent
(4) Characteristic 3 Hz spike and wave EEG

Question 18

What are the animal models take home messages for the exam? (3)

Answer 18

(1) Some models may relate to epilepsy if the animals have spontaneous recurrent seizures (seizure prone genetic strain, “kindled” animals)
(2) Most models related better to acute seizures, either partial or general
(3) Animal models are most useful for screening for new drugs or testing drug combination

Question 19

What are the Anticonvulsants that are sodium channel blockers? What are they generally effective against?

Answer 19

(1) Phenytoin
(2) Carbamazepine
(3) Lamotrigine
- generally effective against partial seizures and generalized tonic clonic seizures

Question 20

T/F (Sodium channel blockers) Anticonvulsants inhibit high frequency seizure activities without affecting normal action potentials.

Answer 20

TRUE; specifically bind to and prolong the inactivated state of voltage-activated sodium channels

Question 21

What are the common side effects of sodium channel blockers?

Answer 21

(1) Nystagmus
(2) Diplopia
(3) Ataxia

Question 22

What are the anticonvulsant drugs that enhance GABA neurotransmission?

Answer 22

(1) GABAa receptor modulators (postsynaptic)
- barbituates (phenobarbital)
- benzodiazepines (diazepam, lorazepam)
(2) Drugs that increase synaptic GABA levels (presynaptic)
- valproic acid, tiagabine, gabapentin

Question 23

What are the calcium channel blockers? What do they do?

Answer 23

• ethosuximide and valproic acid: inhibit “T-type” calcium channels that are enriched in thalamic neurons and involved in the generation of rhythmic action potentials responsible for absence seizures
• lamotrigine: inhibits another type (high voltage activated) or calcium channels

Question 24

What are the 3 drugs that decrease glutamate neurotransmission?

Answer 24

(1) Valproic acid
(2) Topiramate
(3) Lamotrigine
- decrease glutamate neurotransmission, but these drugs have other anticonvulsant mechanisms as well

Question 25

T/F Anti-seizure drugs only provide symptomatic therapy.

Answer 25

TRUE; pharmacological cure for epilepsy is not available. Prevention of seizures varies in efficacy

Question 26

What do you have to do in order to minimize toxic effects?

Answer 26

Monitor blood concentrations

Question 27

Reduction in dosage should be gradual or instantaneous?

Answer 27

GRADUAL to avoid seizure recurrence

Question 28

T/F Multiple drug therapies are not common.

Answer 28

FALSE; they are common, especially due to the fact that some types of epilepsy are difficult to control (it allows a primary agent to be used at lower dosages if side effects are limiting)

Question 29

Carbamazepine, phenytoin, phenobarbital: Drug interactions

Answer 29

All induce a variety of cytochrome P450 enzymes which increases the metabolism of each other

Question 30

Valproic acid: drug interactions

Answer 30

Inhibits CYP enzymes that increases the plasma concentration of phenytoin, carbamazepine, and phenobarbital

Question 31

Which drugs are high protein binding?

Answer 31

Phenytoin, valproic acid

Question 32

Why is it pure petit-mal drugs (i.e. ethosuximide) are contraindicated for other types of seizures and vice versa?

Answer 32

The wrong drug-type increases the likelihood of seizure recurrence and status epilepticus

Question 33

What is status epilepticus? What should it be treated with?

Answer 33

• one continuous seizure or recurrent seizures without regaining consciousness for greater than 30 minutes (5 min)
• treated with lorazepam or diazepam

Question 34

T/F Many anticonvulsants appear to increase the likelihood of birth defects. Therefore, you should withdraw drugs at least 6 months before.

Answer 34

TRUE; phenytoin, carbamazepine, valproic acid, topiramate

• monotherapy may have to do because it is safer than untreated epilepsy
• folate supplement with pregnancy

Question 35

Phenytoin: Mechanism of action

Answer 35

Binds to and prolongs the inactivated state of voltage gated sodium channels

Question 36

Phenytoin: Acute toxicities

Answer 36

nystagmus, ataxia, diplopia

Question 37

Phenytoin: long term side efects

Answer 37

gingival hyperplasia (>20%), hirsutism, teratogen

Question 38

T/F Phenytoin has a high therapeutic index.

Answer 38

FALSE; gradual dose increase, blood drug monitoring (therapeutic plasma level: 10-20 micrograms/mL)

Question 39

What is the pharmacokinetic properties of Phenytoin?

Answer 39

First order kinetics at low concentration but maximum capacity of the liver to metabolize phenytoin is saturated at low therapeutic range resulting in saturation kinetics (first order)

Question 40

What is considered the drug of choice for controlling partial seizures and generalized tonic-clonic seizures? What is its mechanism of action?

Answer 40

Carbamazepine; sodium channel blocker

Question 41

T/F Carbamazepines induce CYP enzymes

Answer 41

TRUE

Question 42

Carbamazepine: Side effects

Answer 42

(1) Dipolopia
(2) Ataxia
(3) Skin rash
(4) Aplastic anemia*
(5) Agranulocytosis*
* - rarely occur

Question 43

Phenobarbital: mechanism of action

Answer 43

• Binds to allosteric regulatory site on GABAa receptor and enhances GABA mediated Cl influx
• induces microsomal enzymes

Question 44

T/F Benzodiazepines are used for long-term therapies.

Answer 44

FALSE; used for status epilepticus IV (kinetics as well as tolerance prevents long-term therapy)

Question 45

Ethosuximide: mechanism of action

Answer 45

Blocks T-type calcium channels

Question 46

Ethosuximide: uses

Answer 46

effective for absence (pur petit mal drug) and lacks the hepatotoxicity of valproate

Question 47

What is the drug of choice for absence seizure?

Answer 47

Ethosuximide

Question 48

Ethosuximide: adverse effect

Answer 48

• gastric distress (idiosyncratic side effects are extremely rare)
• hepatotoxicity major concern
• reduces serum protein binding of some drugs
• inhibits CYP enzymes: increases plasma concentration of phenobarbital and phenytoin
• teratogen: spina bifida

Question 49

Valproic acid: uses

Answer 49

First drug effective against both absence and tonic-clonic seizures

Question 50

Valproic acid: mechanism of action

Answer 50

blocks sodium channels and T-type calcium channels

Question 51

Gabapentin: mechanism of action

Answer 51

appears to increase GABA transmission by unknown mechanism

Question 52

T/F Gabapentin is metabolized in the liver.

Answer 52

FALSE; no known drug interaction

Question 53

Lamotrigine: Mechanism of action

Answer 53

(1) blocks voltage sensitive sodium channels
(2) inhibits calcium channels
(3) inhibits glutamate release

Question 54

Lamotrigine: uses

Answer 54

broader spectrum: even absence

Question 55

Lamotrigine: adverse effects

Answer 55

(1) diplopia

(2) skin rash

Question 56

Topiramate: Mechanism of action

Answer 56

(1) inhibits sodium channels
(2) modulates GABAa receptors
(3) blocks glutamate receptors

Question 57

Topiramate: uses

Answer 57

• broad spectrum: even absence

- also useful for preventing migrane headaches

Question 58

Tigabine: Mechanism of action

Answer 58

blocks reuptake of GABA into nerve terminals and glia by inhibiting GABA transporter, GAT-1

Question 59

Tigabine: side effects

Answer 59

generally mild