Difference between revisions of "Mivacurium"
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Mivacurium is a short acting non-depolarizing neuromuscular blocking agent used for optimizing tracheal intubation conditions, surgical relaxation, optimizing mechanical ventilation, and preventing fasciculation from succinylcholine when administered prior. This is medication is available in most of the world, however, it is not sold in the United States of America. | |||
== Uses<!-- Describe uses of the drug. If appropriate, add subsections for each indication. --> == | == Uses<!-- Describe uses of the drug. If appropriate, add subsections for each indication. --> == | ||
* Optimizing tracheal intubation condition among patients with renal or hepatic dysfunction | |||
** Abduction of vocal cords | |||
** Opening of mouth | |||
** Reduction in coughing and gagging | |||
* Provide surgical relaxation among patients with renal or hepatic dysfunction | |||
* Optimizing mechanical ventilation conditions among patients with renal or hepatic dysfunction | |||
** Reduction in bucking/coughing | |||
** Reduction in breath stacking | |||
== Contraindications<!-- List contraindications and precautions for use of the drug. --> == | == Contraindications<!-- List contraindications and precautions for use of the drug. --> == | ||
=== Absolute contraindications<!-- List absolute contraindications for use of the drug. If none, this section may be removed. --> === | === Absolute contraindications<!-- List absolute contraindications for use of the drug. If none, this section may be removed. --> === | ||
Known hypersensitivity | |||
=== Precautions<!-- List precautions for use of the drug. If none, this section may be removed. --> === | === Precautions<!-- List precautions for use of the drug. If none, this section may be removed. --> === | ||
* Prolonged duration of action in patients who are homozygous for atypical pseudocholinesterase | |||
* Large doses of mivacurium can be divided into smaller doses to avoid hemodynamic side effects from the histamine release | |||
** Myasthenia gravis/myathenic syndrome | |||
** Amyotrophic lateral sclerosis | |||
** Autoimmune disorders including polymyositis, dermatomyositis and systemic lupus erythematous | |||
** Familial periodic paralysis hyperkalemia | |||
** Guillain-Barré syndrome | |||
** Muscular dystrophy (Duchenne type) | |||
** Myotonia including dystrophic, congenital,, and paramyotonia | |||
** Patient may have resistance include: | |||
*** Burn injury | |||
*** Cerebral palsy | |||
*** Hemiplegia (on the affected side) | |||
*** Muscular denervation | |||
*** Severe chronic infection such as tetanus and botulism | |||
== Pharmacology == | == Pharmacology == | ||
=== Pharmacodynamics<!-- Describe the effects of the drug on the body. If appropriate, add subsections by organ system --> === | === Pharmacodynamics<!-- Describe the effects of the drug on the body. If appropriate, add subsections by organ system --> === | ||
Eliminated via pseudocholinesterase | |||
==== Mechanism of action<!-- Describe the mechanism of action for the primary uses of the drug. --> ==== | ==== Mechanism of action<!-- Describe the mechanism of action for the primary uses of the drug. --> ==== | ||
Competitive antagonism of acetylcholine at the post junctional receptors preventing depolarization of the muscle preventing any movement. Only one molecule of the neuromuscular blocker is needed to prevent activation of the receptor as it competes with acetylcholine at the two binding sites. | |||
==== Adverse effects<!-- Describe any potential adverse effects of the drug. --> ==== | ==== Adverse effects<!-- Describe any potential adverse effects of the drug. --> ==== | ||
* Anaphylactic reaction due to the ammonium ion in the NMB | |||
* Histamine release | |||
* Muscle weakness or myopathy due to persistent failure of neuromuscular transmission and immobilization-induced atrophy of diaphragm when used for a prolonged duration | |||
* Posttraummatic stress syndrome from awareness during paralysis if sedation is not used adequately. | |||
* Impairment of ventilation-perfusion distribution and decreased right ventricular end-diastolic volume due to abolishment of spontaneous breathing. | |||
=== Pharmacokinetics<!-- Describe the pharmacokinetics of the drug. --> === | === Pharmacokinetics<!-- Describe the pharmacokinetics of the drug. --> === | ||
== Chemistry and formulation<!-- Describe the chemistry and formulation of the drug. --> == | == Chemistry and formulation<!-- Describe the chemistry and formulation of the drug. --> == | ||
Comprised of a mixture of 3 stereoisomers, one of which -the cis-cis isomer- is less than one-tenth as potent as the trans-trans and cis-trans isomers. | |||
== History<!-- Describe the historical development of the drug. --> == | == History<!-- Describe the historical development of the drug. --> == | ||
Revision as of 07:50, 3 January 2023
Mivacurium
 | |
| Clinical data | |
| Drug class |
Neuromuscular blocker |
|---|---|
| Routes of administration |
Intravenous |
| Pharmacodynamics | |
| Mechanism of action |
Nicotinic acetylcholine antagonism |
| Pharmacokinetics | |
| Physical and chemical data | |
| Article quality | |
| Editor rating | |
| User likes | 0 |
Mivacurium is a short acting non-depolarizing neuromuscular blocking agent used for optimizing tracheal intubation conditions, surgical relaxation, optimizing mechanical ventilation, and preventing fasciculation from succinylcholine when administered prior. This is medication is available in most of the world, however, it is not sold in the United States of America.
Uses
- Optimizing tracheal intubation condition among patients with renal or hepatic dysfunction
- Abduction of vocal cords
- Opening of mouth
- Reduction in coughing and gagging
- Provide surgical relaxation among patients with renal or hepatic dysfunction
- Optimizing mechanical ventilation conditions among patients with renal or hepatic dysfunction
- Reduction in bucking/coughing
- Reduction in breath stacking
Contraindications
Absolute contraindications
Known hypersensitivity
Precautions
- Prolonged duration of action in patients who are homozygous for atypical pseudocholinesterase
- Large doses of mivacurium can be divided into smaller doses to avoid hemodynamic side effects from the histamine release
- Myasthenia gravis/myathenic syndrome
- Amyotrophic lateral sclerosis
- Autoimmune disorders including polymyositis, dermatomyositis and systemic lupus erythematous
- Familial periodic paralysis hyperkalemia
- Guillain-Barré syndrome
- Muscular dystrophy (Duchenne type)
- Myotonia including dystrophic, congenital,, and paramyotonia
- Patient may have resistance include:
- Burn injury
- Cerebral palsy
- Hemiplegia (on the affected side)
- Muscular denervation
- Severe chronic infection such as tetanus and botulism
Pharmacology
Pharmacodynamics
Eliminated via pseudocholinesterase
Mechanism of action
Competitive antagonism of acetylcholine at the post junctional receptors preventing depolarization of the muscle preventing any movement. Only one molecule of the neuromuscular blocker is needed to prevent activation of the receptor as it competes with acetylcholine at the two binding sites.
Adverse effects
- Anaphylactic reaction due to the ammonium ion in the NMB
- Histamine release
- Muscle weakness or myopathy due to persistent failure of neuromuscular transmission and immobilization-induced atrophy of diaphragm when used for a prolonged duration
- Posttraummatic stress syndrome from awareness during paralysis if sedation is not used adequately.
- Impairment of ventilation-perfusion distribution and decreased right ventricular end-diastolic volume due to abolishment of spontaneous breathing.
Pharmacokinetics
Chemistry and formulation
Comprised of a mixture of 3 stereoisomers, one of which -the cis-cis isomer- is less than one-tenth as potent as the trans-trans and cis-trans isomers.
History
References
Top contributors: Cornel Chiu and Chris Rishel