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Transcript
Cholinesterase Inhibitors and
Their Use in Myasthenia Gravis
Cholinesterase Inhibitors




Drugs that prevent the degradation of
acetylcholine (ACh) by acetylcholinesterase
Viewed as indirect-acting cholinergic agonists
Lack selectivity (muscarinic, ganglionic, and
neuromuscular)
Limited therapeutic applications
Fig. 15-1. Structural formulas of reversible cholinesterase inhibitors.
Fig. 15-2. Hydrolysis of acetylcholine by cholinesterase.
Fig. 15-3. Inhibition of cholinesterase by reversible and “irreversible” inhibitors.
(See text for details.)
Cholinesterase Inhibitors

“Reversible” cholinesterase inhibitors


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Neostigmine
Other reversible cholinesterase inhibitors
“Irreversible” cholinesterase inhibitors


Basic pharmacology
Toxicology
“Reversible”
Cholinesterase Inhibitors

Neostigmine (Prostigmin)




Cannot readily cross membranes
Absorbed poorly with oral administration
Minimal effects on brain and fetus
Poor substrate for cholinesterase (ChE)
Neostigmine (Prostigmin)

Mechanism of action
 Pharmacologic effects
• Therapeutic administration: muscarinic
receptors
 Muscarinic
responses
• Identical to muscarinic agonist response
Neostigmine (Prostigmin)

Mechanism of action
 Neuromuscular effects
• Therapeutic dose: increases force of
contraction in skeletal muscle
• Toxic levels: decrease force of contraction
 Central
nervous system
• Therapeutic levels: mild stimulation
• Toxic levels: depress the CNS
Neostigmine (Prostigmin)

Therapeutic uses


Myasthenia gravis
Reversal of nondepolarizing neuromuscular
blockade
• Used postoperatively
• Treatment of overdose
• Likely to elicit substantial muscarinic responses
• May need to administer atropine (muscarinic antagonist)
Neostigmine (Prostigmin)

Adverse effects/acute toxicity




Excessive muscarinic stimulation
Neuromuscular blockade
Treatment with antagonist
Precautions and contraindications





Obstruction of GI or urinary tract
Peptic ulcer disease
Asthma
Coronary insufficiency
Hyperthyroidism
Neostigmine (Prostigmin)

Drug interactions



Muscarinic antagonists
Nondepolarizing neuromuscular blockers
Depolarizing neuromuscular blockers
Other “Reversible”
Cholinesterase Inhibitors




Physostigmine
Ambenonium, edrophonium, and
pyridostigmine
Echothiophate
Drugs for Alzheimer’s disease
“Irreversible”
Cholinesterase Inhibitors







Highly toxic
Primarily used as insecticides
Only clinical application is glaucoma
All contain an atom of phosphorus
Almost all are highly lipid soluble
Readily absorbed from several routes
Potential use in chemical warfare
“Irreversible”
Cholinesterase Inhibitors

Toxicology




Sources of poisoning
Symptoms
• Cholinergic crisis
Treatment
• Mechanical ventilation
• Pralidoxime
• Diazepam
Pralidoxime
• Specific antidote to poisoning
• Effectiveness impacted by early administration
Fig. 15-4. Structural formulas of “irreversible” cholinesterase inhibitors.
Myasthenia Gravis

Pathophysiology



Characterized by fluctuating muscle weakness
and predisposition to rapid fatigue
Common symptoms
• Ptosis, dysphagia, weakness of skeletal muscles
Autoimmune process in which antibodies attack
nicotinicM receptors on skeletal muscle
Myasthenia Gravis

Treatment with cholinesterase inhibitors

Beneficial effects
• Increased muscle strength
 Side effects
• Excessive muscarinic response
 Dosage adjustment
• Start small and adjust to patient response
• May need to modify dosage in anticipation of exertion
• Signs of undermedication

Ptosis, difficulty in swallowing

Excessive salivation and other muscarinic responses
• Signs of overmedication
Myasthenia Gravis

Myasthenic crisis and cholinergic crisis

Cholinergic crisis
• Characterized by extreme muscle weakness or frank
paralysis and signs of excessive muscarinic stimulation
• Treatment with respiratory support and atropine

Distinguishing myasthenic crisis from cholinergic
crisis
• History of medication use or signs of excessive
muscarinic stimulation assist with differential diagnosis.

Use of identification by the patient