antiepileptic drugs

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    Created by
    Dann Danni

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    • Epilepsy
      A group of chronic CNS function disorders characterized by recurrent seizures
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    • Seizures
      Sudden, transitory, and uncontrolled episodes of brain dysfunction resulting from abnormal discharge of neuronal cells with associated motor, sensory or behavioral changes
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    • According to WHO statistics, the current world, about 50 million people with epilepsy, 80% of them in developing countries. Every year, 2 million new patients with epilepsy. Although the standard the onset of treatment to 80% of patients under control, but there are still hundreds of thousands of patients (there are 0.5 million people in the United States only) have no control.
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    • Epilepsy
      • The sudden attack local brain lesions neurons abnormal high frequency discharge and spread to the surrounding tissue, then transient brain dysfunction appeared
      • A sudden onset of short movement, feeling, consciousness, spirit and plant nerve dysfunction, may be accompanied by electroencephalogram (ecg) changes, with the characteristics of sudden onset, recurrent and short
      • Medication for a long time, to reduce or prevent attacks, but cannot reach a radical cure
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    • Causes of Secondary Epilepsy
      • Trauma
      • Encephalitis
      • Drugs
      • Birth trauma
      • Withdrawal from depressants
      • Tumor
      • High fever
      • Hypoglycemia
      • Extreme acidosis
      • Extreme alkalosis
      • Hyponatremia
      • Hypocalcemia
      • Idiopathic
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    • Pathophysiology of Seizures
      1. Brain local lesion depolarizes together
      2. Produce high-frequency, out-break discharge
      3. Spread to surrounding normal tissue
      4. Interfere with normal neuron electric activity
      5. The brain transient dysfunction
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    • Classification of Epilepsy
      • Partial Seizures
      • Generalized Seizures
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    • Simple Partial Seizures
      • Occur at any age
      • The patient does not lose consciousness
      • Abnormal activity of a single limb or muscle group
      • There may be also sensory symptoms
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    • Complex Partial Seizures
      • Impairment or loss of consciousness
      • Sensory hallucinations (smell or taste)
      • Motor dysfunction (automatism) e.g. chewing movements, lip smacking, postictal confusion
      • Speech disturbances (if dominant hemisphere)
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    • Types of Generalized Seizures
      • Absence Seizures (petit mal epilepsy)
      • Status epilepticus
      • Myoclonic Seizures
      • Febrile seizures
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    • Absence Seizures (petit mal epilepsy)
      • Occur mainly in children till puberty or beyond
      • Brief abrupt loss of consciousness
      • Staring, rapid eye blinking for few seconds with impaired awareness then return to full function
      • Characteristic EEG pattern
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    • Status epilepticus
      • Two or more seizures lasting for a total of 30 minutes or longer without recovery of full consciousness between them
      • Life threatening and requires emergency treatment
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    • Myoclonic seizures
      • Sudden brief involuntary muscle contractions (shock---like jerks of trunk, neck & limbs)
      • Occur at any age usually around puberty or early adulthood
      • Consciousness is not impaired
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    • Febrile seizures
      • They occur in young children with illness accompanied by high fever
      • Seizures consist of tonic-clonic convulsions
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    • 1912: Phenobarbital
      1938: Phenytoin continue to be applied today
      1964: Sodium Valproate
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    • Though many new drugs have been synthesized in the past 60 years, the drugs effect remain in symptomatic treatment level.
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    • Principles of Using Antiepileptic Drugs
      • Initially we use 1st line drug (monotherapy) until seizures are controlled or toxicity occurs
      • If 1st line drug is ineffective, switch to another drug or add a 2nd line drug (Combination Therapy)
      • Antiepileptic therapy must be continued for at least 2 years after the last attack, then the drug should be stopped gradually
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    • Mechanism of Antiepileptic drugs
      • Inhibite the excessive discharge of neuron
      • Curb the spread of abnormal discharge
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    • Mechanism 1: Decreased excitability input
      • Reducing electrical excitability of cell membranes, through inhibition of sodium channel
      • A few drugs appear to act by a mechanism, namely inhibition of T-type calcium channels
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    • Mechanism 2: Increased inhibitory (GABA) input
      Enhancing GABA-mediated synaptic inhibition. This may be achieved by an enhanced pre- or post-synaptic action of GABA, by inhibiting GABA-transaminase, or by drugs with direct GABA-agonist properties
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    • The Primary Antiepileptic Drugs
      • Phenytoin Sodium
      • Phenobarbital
      • Carbamazepine
      • Ethosuximide
      • Sodium Valproate
      • Benzodiazepine
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    • Phenytoin Sodium
      • Well absorbed when given orally, however, it is also available as iv. (for emergency)
      • 80-90% protein bound
      • Induces liver enzymes (very important)
      • Metabolized by the liver
      • Excreted in urine
      • Plasma t ½ approx. 20 hours
      • Therapeutic plasma concentration 10-20 µg/ml (narrow), dose 300-400mg/day
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    • Mechanism of Action of Phenytoin Sodium
      • Membrane stabilization by blocking Na & Ca influx into the neuronal axon
      • Inhibits the release of excitatory amino acids via inhibition of Ca influx
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    • Therapeutic Uses of Phenytoin Sodium
      • Generalized tonic-clonic seizures & partial seizures (Be the first choice!)
      • Prosopalgia
      • Ventricular and ventricular arrhythmias induced by Digoxin
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    • Adverse Reactions of Phenytoin Sodium
      • Gastrointestinal tract (G.I.T): nausea, vomiting, anorexia
      • Neurological like ataxia, headache, vertigo, diplopia, nystagmus
      • Sedation
      • Gingival hyperplasia
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    • Phenytoin Sodium can pass through the placental barrier, so lactating women should stop breastfeeding
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    • To monitor blood routine, liver function, blood calcium, blood pressure, plasma concentration (especially in child)
      The nervous system response is related to dose:
      >20 µg/mL : ataxia
      >40 µg/mL : mental disorder
      >50 µg/mL : coma
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    • Symptoms of cal like ataxia
      • headache
      • vertigo
      • diplopia
      • nystagmus
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    • Phenytoin Sodium is a Primary Antiepileptic Drug
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    • Gingival hyperplasia
      • It common occurs in children and teenagers after long term use
      • This effect can resolve after drug withdrawing for 3~6 months
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    • Observing after treatment with Phenytoin Sodium
      Stop using immediately when the patient can not tolerate or have an allergic reaction
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    • Monitoring with Phenytoin Sodium
      1. Blood routine
      2. Liver function
      3. Blood calcium
      4. Blood pressure
      5. Plasma concentration (especially in child)
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    • Nervous system response to Phenytoin Sodium
      • >20 µg/mL: ataxia
      • >40 µg/mL: mental disorder
      • >50 µg/mL: coma
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    • Mechanism of Action of Phenytoin Sodium
      • Increases the inhibitory neurotransmitters (e.g: GABA) and decrease the excitatory transmission
      • Prolongs the opening of Cl- channels
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    • Phenobarbital is a Primary Antiepileptic Drug
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    • Therapeutic use of Phenobarbital
      • All types of epilepsy. The effects by turns are: grand mal and status epileptics>partial psychomotor seizure>petit mal
      • It is not the first choice drug for CNS inhibition
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    • Phenobarbital can lead to low prothrombin and bleeding in Neonatals
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    • Monitoring with Phenobarbital
      1. Blood routine
      2. Liver function
      3. Blood calcium
      4. Blood pressure
      5. Plasma concentration (especially in child)
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    • Observing after treatment with Phenobarbital
      Stop using immediately when the patient can not tolerate or have an allergic reaction
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    • Both Phenobarbital and Phenytoin are liver drug metabolizing enzyme inducers, so they can accelerate a variety of drugs and reduced efficacy
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