CNS Drugs Student Version PDF

Summary

This document contains lecture slides/notes on central nervous system drugs focusing on various categories, such as Parkinson's disease medications, antiepileptic drugs, and Alzheimer's disease medications. It includes descriptions of drug mechanisms of action and adverse effects. There are questions included at the end of some sections.

Full Transcript

Central
Nervous
System
Medications
CHAPTERS 12 &14
CNS neurotransmitters

Acetylcholine Dopamine
(memory & learning) (“Joy” & motor control)

GABA
Glutamate (memory)
(memory & movement)
 Parkinson’s Disease
treatments
Too little dopamine &
Too much acetylcholine
Two types of medications:
◦ Dopaminergic agents (more commonly
used)
◦ Directly or indirectly activate dopamine receptors
◦ Anticholinergic agents
◦ Blocks receptors for acetylcholine
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 MOA: increases the amount of available
dopamine
PRODRUG (converted into active form
after crossing BBB)
Levodopa: Only 2% reaches the brain
Dopamine Food delays absorption, esp meals high in
replacement protein
Short T1/2 of 1-2 hours
Great at first, then…
“Loss of Effect” is common
 carbidopa/levodopa (Sinemet)

Works as a crossing guard
MOA: Prevents decarboxylase
action
Allows us to give a lower dose of
levodopa
Only available in a combo pill
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 N/V
Dyskinesis (involuntary movt)
Cardiovascular (orthostatic hypotension,
dysrhythmias)
Psychosis (hallucinations, vivid dreams,
Levodopa: paranoia, impaired impulse control)
Adverse Harmless darkening of sweat & urine
Effects
Drug Interactions
Bad: meds that block dopamine
receptors
Good: Anticholinergics block
acetylcholine
 Education:
Take without food
GI upset? Take with non-protein meal
Requires multiple doses in a day
Nursing Darkens sweat & urine
Consideratio Report “Loss of Effect”
ns Rise slowly from supine or sitting
Report any new tremors/twitching
Report palpitations, racing heart
Report hallucinations, paranoia
Questions so far?
 MOA: Directly activates dopamine
Pramipexole: receptors in the brain
Dopamine Often used first line
Receptor Used alone in early stages
Agonist Used with levodopa/carbidopa in
advanced stages
 Adverse Effects
Produced by receptor activation
pramipexole alone: nausea, dizziness,
Pramipexole: weakness, sleep changes
Pramipexole + levodopa/carbidopa:
Adverse orthostatic hypotension, dyskinesias,
Effects hallucinations
Sleep Attacks
Impulse control disorders / Compulsive
behaviors
 Education:
OK to take with meals
Nursing Rise slowly from supine or sitting
Consideratio
ns Report “Sleep Attacks”
Report any impulse control concerns
Questions about PD
drugs?
 Drugs for
Seizures
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Antiepileptic drugs: AEDs
Four ways AEDs work
1. Suppression of sodium influx in cell membranes (decrease ability of neurons to
fire at high frequency)
2. Suppression of calcium influx in axon terminals (blocks channels to suppress
transmission)
3. Antagonism of glutamate (a neurotransmitter)
4. Potentiation of GABA (a neurotransmitter)
Goal is to decrease focal epileptic activity and prevent spread to other
areas of the brain
Adherence is very important for achieving therapeutic response
 Traditional and Newer
antiepileptic drugs
Traditional Newer
Phenytoin (sodium channel suppression) Oxcarbazepine (sodium channel suppression)
Phenobarbital (potentiates GABA)
Valproic acid (sodium & calcium channel suppression,
potentiates GABA)

Less expensive $ More expensive $$$
Teratogenic Safer in pregnancy
More interactions Less interactions
More Adverse Effects Less Adverse Effects
 MOA: Inhibits the sodium channels of
hyperactive neurons
A first-line medication & most widely used
NTI drug – therapeutic levels 10-20 mcg/mL
Highly protein bound (95%)
Phenytoin:
Metabolism
Traditional Liver easily overwhelmed by this drug =
AED toxic levels
prototype Half life is dose dependent (8-60 hrs)
CYP Enzyme inducer
 CNS effects
◦ Levels 10-20: Mild effects – headache,
drowsiness, irritability
◦ Levels > 20 mcg/mL: Nystagmus,
Phenytoin sedation, ataxia, diplopia, cognitive
Adverse impairment
Effects ◦ Gingival hyperplasia
◦ Rash
◦ Teratogenic
◦ Lots of drug interactions
Other Traditional AEDs

Valproic Acid Phenobarbital
MOA: blocks Na and Ca channels, may MOA: enhances & mimics the
potentiate GABA.
Widely used for all major seizure types,
effects of GABA.
also for bipolar disorder and migraines. A barbiturate (sedation)
GI effects common, rare hepatoxicity, Many adverse effects
SERIOUS teratogen
 MOA: Blocks overactive sodium
channels
No drug level monitoring required
Adverse Effects
Oxcarbaze CNS (dizziness, drowsiness, double
pine: Newer vision, nystagmus, headache, ataxia)
AED Rare – hyponatremia
prototype Serious skin reactions (SJS, toxic
epidermal necrolysis)
Teratogenic
Lots of drug interactions
Status
Extended period of continuous seizure
Epileptic activity
us
MEDICAL EMERGENCY

Goal is to intervene in the first 5 minutes

Treatment: Secure airway, give IV
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CC BY
benzodiazepine, followed by antiepileptics
Questions about
AEDs?
Questions?
Drugs for Alzheimer’s Disease
Patho is unknown
very low levels of acetylcholine
Ideal Drugs vs. drugs we have
Two major drug classes
◦ Cholinesterase inhibitors
◦ NMDA antagonists

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 z
MOA: Prevents breakdown of
acetylcholine by the acetylcholinesterase
enzyme in the CNS

Benefits: improved QOL, memory,
Donepezil: reasoning
Cholinesterase
Does not delay disease progression
inhibitor (#1)
Highly protein bound = long half life

Available as ODT

↑ acetylcholine causes cholinergic effects
 Salivation
Lacrimation
Cholinergic Urination
side effects:
SLUDGE Defecation
Gastric upset
Emesis
 z
MOA: Prevents breakdown of
acetylcholine by the
acetylcholinesterase enzyme in the
CNS

Rivastigmine: Benefits: improved QOL, memory,
Cholinesterase reasoning
inhibitor (#2)
Does not delay disease progression

Available as transdermal patch

↑ acetylcholine causes cholinergic
effects
 SLUDGE
Urination (dehydration)
Adverse
Effects with Defecation (diarrhea,
Nursing dehydration)
Consideratio Gastric upset (dyspepsia)
ns
Emesis (N/V)
CV (bradycardia  fainting, falls)
 z
 MOA: Blocks NMDA receptors and
prevents excessive calcium accumulation
in the neurons

Benefits: slows decline, may improve
symptoms
Memantine:
NMDA Antagonist Does not modify the underlying
disease process

Minimal adverse effects

Potentiated effect: donepezil +
memantine
Questions about
Alzheimer’s meds?
Drugs for muscle spasm and
spasticity
Spasm: involuntary Pain, reduced function
contraction of a muscle Causes: epilepsy, hypocalcemia, chronic pain
or muscle group syndrome, localized muscle injury

Spasticity: Prolonged
muscle tightness or Increased muscle tone, spasms, decreased fine motor
contraction, control/dexterity, usually also hyperactive DTRs
characteristic finding in Causes: Multiple sclerosis, cerebral palsy, stroke,
movement disorders of traumatic spinal cord lesions
CNS origin
Medications for spasm and
spasticity
Class Drug Use

Centrally acting muscle Cyclobenzaprine Spasm
relaxers
Centrally acting muscle Baclofen Spasticity
relaxers
Direct acting muscle Dantrolene Spasticity
relaxer
Benzodiazepine Diazepam Spasticity
Treatment of muscle spasms

Medications Physical Therapy Local heat
Acetaminophen Stretching, Heating pad,
Ibuprofen flexibility whirlpool or
Cyclobenzaprine exercises, TENS warm baths
Drug for Muscle Spasm
Cyclobenzaprine: Centrally-acting muscle relaxant
Therapeutic uses:
◦ Relief of pain from acute muscle spasm, to increase ROM
◦ Not effective to treat spasticity

Adverse effects
◦ CNS effects (drowsiness, dizziness, sedation)
◦ Anticholinergic effects (dry mouth, blurry vision, urinary retention, constipation)
◦ (mnemonic: Can’t pee, can’t see, can’t spit, can’t poop)

Interactions
◦ Alcohol and other CNS depressants (additive effect  increased drowsiness)
◦ Antidepressants (risk for serotonin syndrome)

Tolerance and dependence can develop
Drugs for Spasticity
Managed by a combo of drugs and physical therapy

Baclofen – CNS drug, acts within Dantrolene - acts directly on skeletal
the spinal cord to suppress muscle
hyperactive reflexes
PO dosing: used for spasticity
Diazepam (Valium) – a
benzodiazepine IV dosing: malignant hyperthermia
Not as sedating
Main adverse effect of these two
is sedation Main adverse effect is dose-related
hepatotoxicity
 Questions?
M AT E R I A L S I N T H I S C O U R S E W E R E D E V E L O P E D U S I N G :
ASSESSMENT TECHNOLOGIES INSTITUTE. (2023). PHARMACOLOGY MADE EASY 4.0
ASSESSMENT TECHNOLOGIES INSTITUTE. (2023). RN PHARMACOLOGY FOR
NURSING EDITION 9.0