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Skeletal muscle relaxants: Nursing Pharmacology

Notes

Notes

SKELETAL MUSCLE RELAXANTS
DRUG NAME
baclofen (Lioresal), 
carisoprodol (Soma), 
chlorzoxazone (Parafon), cyclobenzaprine 
(Amrix, Flexeril), 
metaxalone (Skelaxin), 
methocarbamol (Robaxin), 
tizanidine (Zanaflex), 
orphenadrine (Norflex)
dantrolene (Dantrium)
CLASS
Centrally-acting muscle relaxant
Direct-acting muscle relaxant
MECHANISM OF ACTION
Interfere with muscle reflexes in the central nervous system to decrease the skeletal muscle tone
Prevents the release of calcium ions from the sarcoplasmic reticulum of skeletal muscle cells to reduce muscle contraction
INDICATIONS
  • Muscle spasms and spasticity
  • Spasticity
  • Malignant hyperthermia
ROUTE(S) OF ADMINISTRATION
  • PO
  • IV & IM (methocarbamol)
  • Intrathecal (baclofen)
  • PO
  • IV
SIDE EFFECTS
  • Drowsiness, dizziness, headaches, excessive weakness
  • Anorexia, nausea, vomiting, constipation
  • Hypotension and arrhythmias
  • Urinary frequency and urgency
  • Orphenadrine: atropine-like side effects (dry mouth, blurred vision, tachycardia, urinary retention, and constipation), cyclobenzaprine-visual hallucinations, and anticholinergic effects
  • Baclofen: hyporeflexia, hypothermia, bradycardia, tolerance and dependence
  • Chlorzoxazone: orange or purplish-red discoloration of urine
  • Hepatotoxicity (boxed warning: PO medication only)
CONTRAINDICATIONS AND CAUTIONS
  • Severe hepatic or renal disease
  • Combination with CNS depressants (barbiturates, opioids, tricyclic antidepressants, alcohol)
  • Use with caution: pregnancy, breastfeeding, seizure disorder, heart disease
NURSING CONSIDERATIONS: SKELETAL MUSCLE RELAXANTS
ASSESSMENT AND MONITORING
  • Focused assessment: pain and mobility
  • Diagnostic test results: X-ray, CT,  MRI
  • Laboratory tests: CBC, liver and renal function
  • Monitor for side effects and CNS, liver toxicity
  • Intrathecal baclofen: monitor insertion site for infection
CLIENT EDUCATION
  • Other therapies: rest, heat, massage, physical therapy
  • Take the medication as directed with a glass of water, or food or milk if gastric upset
  • Manage side effects
    • Dizziness: change positions slowly
    • Drowsiness: avoid activities requiring alertness; avoid other CNS depressants
    • Dry mouth: sugar-free chewing gum or lozenges, frequent sips of water
    • Constipation: increase fiber and fluids
    • Urinary retention: empty bladder regularly
  • Report symptoms of liver damage: nausea, fatigue, or anorexia
  • Report symptoms of cardiac arrhythmias: palpitations, feeling a fast heartbeat
  • Baclofen implanted pump
    • Warning signs of getting too much medication: increased drowsiness and low muscle tone
    • Warning signs of too little medication: sudden return of spasticity, auditory or visual hallucinations
    • Regular healthcare provider visits: ensure equipment is in good working order; medication refills
Memory Anchors and Partner Content
Transcript

Skeletal muscle relaxants are medications that reduce muscle contraction, so they are primarily used to relieve both acute or chronic muscle spasms and spasticity.

Muscle spasms are sudden and involuntary muscle tightness or contractions, and are most often caused by muscle fatigue or injury.

On the other hand, muscle spasticity is a sustained muscle spasm associated with decreased dexterity that originates from the central nervous system, which can occur due to damage to the nerves that coordinate muscle activity, and can also be seen with chronic neurological disorders, such as multiple sclerosis and stroke; as well as in cerebral palsy and spinal cord damage.

Now, skeletal muscle relaxants can further be divided into centrally-acting and direct-acting muscle relaxants. Centrally-acting muscle relaxants include cyclobenzaprine, methocarbamol, metaxalone, chlorzoxazone, tizanidine, baclofen, carisoprodol, and orphenadrine.

Other medications can also act as centrally-acting muscle relaxants, such as benzodiazepines, but they’re most commonly used as anxiolytics, sedatives, or anticonvulsants. On the other hand, direct-acting muscle relaxants include dantrolene.

All of these medications can be taken orally. Additionally, methocarbamol can also be administered intravenously or intramuscularly, while dantrolene can be given intravenously, and baclofen can be given intrathecally.

Once administered, centrally-acting muscle relaxants act on the neurons of the central nervous system or CNS to interfere with muscle reflexes and decrease the skeletal muscle tone.

Although the exact mechanism by which they act is poorly understood, the site of action of some of these medications is known.

Cyclobenzaprine and methocarbamol primarily act on the brainstem and the spinal cord neurons. Carisoprodol and chlorzoxazone block the nerve conduction in the descending reticular formation in the brain, which is responsible for maintaining muscle tone and posture.

Tizanidine acts by stimulating alpha-2 adrenergic receptors on the presynaptic neurons in the CNS, which decreases the release of norepinephrine in the sympathetic neurons.

Baclofen activates GABAB, receptors in the spinal cord to reinforce the action of GABA, which is an inhibitory neurotransmitter, and decreases the release of the excitatory neurotransmitter, glutamic acid.

Finally, orphenadrine acts by blocking the muscarinic receptors as well as NMDA receptors in the CNS, which interferes with the transmission of nerve impulses from the spinal cord to the muscles.

On the other hand, the direct-acting muscle relaxant, dantrolene, enters skeletal muscle cells and prevents the release of calcium ions from the sarcoplasmic reticulum.

Due to its action, dantrolene has a special use in the treatment of malignant hyperthermia, which is caused by certain inhaled anesthetics and succinylcholine in genetically susceptible individuals.

That leads to a massive release of calcium from the sarcoplasmic reticulum, causing excessive muscle rigidity and hyperthermia. The general side effects of skeletal muscle relaxants are caused by CNS depression, and include drowsiness, dizziness, headaches, and weakness.

There may also be gastrointestinal effects, including anorexia, nausea, vomiting, and constipation. Additionally, depression of other reflex pathways can lead to hypotension and arrhythmias. In the renal system, there may be urinary frequency and urgency.

Regarding specific side effects, orphenadrine and cyclobenzaprine cause anticholinergic side effects, such as dry mouth, blurred vision, tachycardia, urinary retention, and constipation. Additionally, cyclobenzaprine can cause visual hallucinations.

On the other hand, baclofen can cause hyporeflexia, hypothermia, and bradycardia. In addition, long-term use of baclofen and carisoprodol can lead to tolerance, and therefore require an increased dose to achieve the original response.

Moreover, these result in dependence, causing withdrawal symptoms when discontinued abruptly. Next, chlorzoxazone produces a metabolite that is excreted in the urine, giving it an orange or purplish-red color. Finally, high doses of dantrolene have a boxed warning for severe hepatotoxicity.

As far as contraindications and cautions, dantrolene is contraindicated in clients with hepatic disease. On the other hand, skeletal muscle relaxants, especially metaxalone, tizanidine and cyclobenzaprine, should be used with caution in clients with severe hepatic or renal disease.

Now, the effects of skeletal muscle relaxants on pregnancy and breastfeeding are not clear, but they should generally be avoided as they can cross the placenta and are also secreted into breast milk.

Moreover, they should also be used with caution for clients with a seizure disorder, which can get triggered by the depression and imbalance of the neuronal activity in the brain caused by these medications; and heart disease because they can depress heart muscle activity.

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