Difference between revisions of "Myasthenia gravis"

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m (The bullet points said patients are sensitive to succinylcholine. I changed it to say that they are resistant. I added that the ED95 of succinylcholine is 2.6 times normal (from Barash), not sure if thats really needed to be on there.)
 
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{{Infobox comorbidity
{{Infobox comorbidity
| other_names = Myasthenia
| other_names = Myasthenia
| anesthetic_relevance = High
| anesthetic_relevance = Critical
| anesthetic_management =  
| anesthetic_management = Evaluate for acute exacerbation
| specialty =  
Continue outpatient MG meds
| signs_symptoms =  
 
| diagnosis =  
🠕 sensitivity to nondepolarizing NMBs
| treatment =  
 
🠗 resistant to succinylcholine
 
Monitor for cholinergic symptoms
May require prolonged ventilatory support
| specialty = Neurology, immunology
| signs_symptoms = Muscle weakness
| diagnosis = Serum antibody level, EMG, nerve conduction studies
| treatment = Acetylcholinesterase inhibitor, steroids
| image =  
| image =  
| caption =  
| caption =  
}}
}}'''Myasthenia gravis''' is an autoimmune disease that produces antibodies against nicotinic acetylcholine receptors in the postsynaptic membrane of the neuromuscular junction, leading to varying degrees of muscle weakness and fatigue and can affect ocular, bulbar (muscles involved in speech, chewing and swallowing), respiratory, and proximal skeletal muscles. Symptoms are worst at the end of the day or after exertion. Classification of myasthenia depends on whether the patient has only ocular or ocular and extraocular weakness.
 
==Anesthetic implications<!-- Briefly summarize the anesthetic implications of this comorbidity. -->==
 
===Preoperative optimization<!-- Describe how this comorbidity may influence preoperative evaluation and optimization of patients. -->===
Elective surgery should be delayed for patients who are exhibiting acutely worsened symptoms (i.e. myasthenic crisis)


Myasthenia gravis is an autoimmune disease that attacks post-synaptic nicotinic acetylcholine receptors at the NMJ, leading to varying degrees of muscle weakness and fatigue and can affect ocular, bulbar (muscles involved in speech, chewing and swallowing), respiratory, and proximal skeletal muscles. Symptoms are worst at the end of the day or after exertion. Classification of myasthenia depends on whether the patient has only ocular or ocular and non-ocular weakness.
====Outpatient medications====
Patients should take their morning dose of acetylcholinesterase inhibitor and/or steroids.
*Steroid use may indicate more severe disease and/or active symptoms
*Acetylcholinesterase inhibitor use may result in:
**Altered patient drug requirements following surgery
**Increased vagal reflexes
**Possibility of disrupting bowel anastomoses secondary to hyperperistalsis
**Cholinergic side effects including salivation, miosis, bradycardia
*IV pyridostigmine is 1/30 of the PO dose


== Anesthetic implications<!-- Briefly summarize the anesthetic implications of this comorbidity. --> ==
====Labs and studies====
*PFTs may be helpful to establish baseline respiratory function
**If thymoma present, may be useful to characterize obstruction


=== Preoperative optimization<!-- Describe how this comorbidity may influence preoperative evaluation and optimization of patients. --> ===
====Premedication====
*Consider pretreatment with metoclopramide or H2 blocker for aspiration prophylaxis
**Patients with involvement of respiratory or bulbar muscles are at higher risk for aspiration
*Use sedating premedication with caution as patients may be more sensitive to respiratory depressants
*IVIG or plasma exchange can be used to improve symptoms of active flare for emergent cases


**
====Associated comorbidities====
*Thymoma
*Diabetes mellitus
*Thyroid disorders
*Systemic lupus erythematosus
*Rheumatoid arthritis


* A steroid listed on a patient’s medication profile indicates a higher risk and elective procedures should be postponed if possible.
===Intraoperative management<!-- Describe how this comorbidity may influence intraoperative management. -->===
* Patients with involvement of respiratory or bulbar muscles tend to have a higher risk for aspiration so pretreatment with metoclopramide or H2 blockers may be helpful. Some MG patients are sensitive to respiratory depressants and premedication with opioids, BZDs, or barbiturates should be considered carefully or not at all.
* IVIG or plasma exchange can be used in emergent cases.
* Diseases associated with MG include DM, thyroid disorders, SLE and RA.
* Patients with MG are resistant to succinylcholine and are exquisitely sensitive to non-depolarizing NMBs.
* Patients should take their morning dose of acetylcholinesterase inhibitor though doing so may result in:
** Altered patient drug requirements following surgery
** Increased vagal reflexes
** Possibility of disrupting bowel anastomoses secondary to hyperperistalsis
** Significant side effects including salivation, miosis, bradycardia and even cholinergic crisis if given NMB reversal


=== Intraoperative management<!-- Describe how this comorbidity may influence intraoperative management. --> ===
====Neuromuscular blockade====
Patients with myasthenia gravis are:
*More sensitive to nondepolarizing neuromuscular blockers
*Resistant to succinylcholine
**At increased risk for developing phase II neuromuscular block, particularly with repeat doses of succinylcholine
**ED95 is 2.6 times normal in these patients.<ref>{{Cite book|last=Barash|first=Paul|title=Clinical Anesthesia|publisher=Wolters Kluwer|year=2017|isbn=978-1-4963-3700-9|location=Philadelphia, PA|pages=1067}}</ref>
*In patients taking an acetylcholinesterase inhibitor for myasthenia management, cholinergic crisis is possible if acetylcholinesterase inhibitor is used for neuromuscular blockade reversal


* Of note, IV pyridostigmine is 1/30 of the PO dose.
====Airway management====


=== Postoperative management<!-- Describe how this comorbidity may influence postoperative management. --> ===
*Consider increased aspiration risk if bulbar symptoms are present
*If thymoma present, may cause anterior mediastinal mass effect


* Extubation: performed on awake patients and hopefully close to his/her baseline status. Reinstitute anticholinesterase medication, either by IV infusion or by reimplementation of the patient’s oral regimen.
====Other medications====
* Leventhal Criteria: Predictive risk factors for post-operative ventilation support:
*Consider stress dose steroids if taking chronically
** Disease duration > 6yrs
*Medications which may contribute to muscle weakness:
** Concomitant pulmonary disease
**Calcium channel blockers
** Peak inspiratory pressure < -25 cmH2O
**Magnesium
** Vital capacity < 40 mL/kg (or <2.9L)
**Aminoglycoside antibiotics
** Pyridostigmine dose > 750 mg/d


* Other indicators include preoperative use of steroids, and previous episode of respiratory failure.
===Postoperative management<!-- Describe how this comorbidity may influence postoperative management. -->===
* Drugs to avoid: Calcium Channel blockers, Magnesium, Aminoglycoside antibiotics as all of these may contribute to muscle weakness
*Extubate awake with pulmonary mechanics similar to baseline status
* Post-Op Bed: Patients should be monitored in either a ICU or step-down unit but NOT to a conventional surgical ward.
*Risk factors for requiring postoperative ventilation support:
**Leventhal Criteria
***Disease duration >6yrs
***Concomitant pulmonary disease
***Peak inspiratory pressure <-25 cmH2O
***Vital capacity <40 mL/kg (or <2.9L)
***Pyridostigmine dose >750 mg/day
**Other indicators include preoperative use of steroids, and previous episode of respiratory failure


== Related surgical procedures<!-- List and briefly describe any procedures which may be performed specifically to treat this comorbidity or its sequelae. If none, this section may be removed. --> ==
*Resume outpatient anticholinesterase medication
*Patients should be monitored in either a ICU or step-down unit


== Pathophysiology<!-- Describe the pathophysiology of this comorbidity. Add subsections as needed. --> ==
==Related surgical procedures<!-- List and briefly describe any procedures which may be performed specifically to treat this comorbidity or its sequelae. If none, this section may be removed. -->==
*[[Thymectomy]]


== Signs and symptoms<!-- Describe the signs and symptoms of this comorbidity. --> ==
==Pathophysiology<!-- Describe the pathophysiology of this comorbidity. Add subsections as needed. -->==
Myasthenia gravis is an autoimmune disease leading to the production of antibodies against nicotinic acetylcholine receptors in the postsynaptic membrane of the neuromuscular junction.


== Diagnosis<!-- Describe how this comorbidity is diagnosed. --> ==
==Signs and symptoms<!-- Describe the signs and symptoms of this comorbidity. -->==
Weakness in one or more of the following muscle groups:
*Ocular
*Bulbar (swallowing, chewing, speech)
*Respiratory
*Proximal skeletal


== Treatment<!-- Summarize the treatment of this comorbidity. Add subsections as needed. --> ==
==Diagnosis<!-- Describe how this comorbidity is diagnosed. -->==
Myasthenia gravis can be difficult to diagnose, and is based on a combination of:
*Serum antibody level
*Electromyography
*Nerve conduction studies
*Edrophonium test
*CT/MRI to evaluate for enlarged thymus gland


=== Medication<!-- Describe medications used to manage this comorbidity. --> ===
Not to be confused with [[Congenital myasthenic syndrome]] (CMS) or [[Lambert-Eaton syndrome]].


=== Surgery<!-- Describe surgical procedures used to treat this comorbidity. --> ===
==Treatment<!-- Summarize the treatment of this comorbidity. Add subsections as needed. -->==
Myasthenia gravis is typically medically managed using:
*Acetylcholinesterase inhibitor (e.g. pyridostigmine) to increase the presence of acetylcholine in the neuromuscular junction
*Steroids


=== Prognosis<!-- Describe the prognosis of this comorbidity --> ===
===Prognosis<!-- Describe the prognosis of this comorbidity -->===
Patients with managed myasthenia gravis have a normal life expectancy.


== Epidemiology<!-- Describe the epidemiology of this comorbidity --> ==
==Epidemiology<!-- Describe the epidemiology of this comorbidity -->==


== References ==
==References==
[[Category:Comorbidities]]
[[Category:Comorbidities]]
[[Category:Autoimmune disorders]]
[[Category:Neurologic disorders]]

Latest revision as of 03:57, 17 July 2022

Myasthenia gravis
Other names Myasthenia
Anesthetic relevance

Critical

Anesthetic management

Evaluate for acute exacerbation Continue outpatient MG meds

🠕 sensitivity to nondepolarizing NMBs

🠗 resistant to succinylcholine

Monitor for cholinergic symptoms May require prolonged ventilatory support

Specialty

Neurology, immunology

Signs and symptoms

Muscle weakness

Diagnosis

Serum antibody level, EMG, nerve conduction studies

Treatment

Acetylcholinesterase inhibitor, steroids

Article quality
Editor rating
Comprehensive
User likes
0

Myasthenia gravis is an autoimmune disease that produces antibodies against nicotinic acetylcholine receptors in the postsynaptic membrane of the neuromuscular junction, leading to varying degrees of muscle weakness and fatigue and can affect ocular, bulbar (muscles involved in speech, chewing and swallowing), respiratory, and proximal skeletal muscles. Symptoms are worst at the end of the day or after exertion. Classification of myasthenia depends on whether the patient has only ocular or ocular and extraocular weakness.

Anesthetic implications

Preoperative optimization

Elective surgery should be delayed for patients who are exhibiting acutely worsened symptoms (i.e. myasthenic crisis)

Outpatient medications

Patients should take their morning dose of acetylcholinesterase inhibitor and/or steroids.

  • Steroid use may indicate more severe disease and/or active symptoms
  • Acetylcholinesterase inhibitor use may result in:
    • Altered patient drug requirements following surgery
    • Increased vagal reflexes
    • Possibility of disrupting bowel anastomoses secondary to hyperperistalsis
    • Cholinergic side effects including salivation, miosis, bradycardia
  • IV pyridostigmine is 1/30 of the PO dose

Labs and studies

  • PFTs may be helpful to establish baseline respiratory function
    • If thymoma present, may be useful to characterize obstruction

Premedication

  • Consider pretreatment with metoclopramide or H2 blocker for aspiration prophylaxis
    • Patients with involvement of respiratory or bulbar muscles are at higher risk for aspiration
  • Use sedating premedication with caution as patients may be more sensitive to respiratory depressants
  • IVIG or plasma exchange can be used to improve symptoms of active flare for emergent cases

Associated comorbidities

  • Thymoma
  • Diabetes mellitus
  • Thyroid disorders
  • Systemic lupus erythematosus
  • Rheumatoid arthritis

Intraoperative management

Neuromuscular blockade

Patients with myasthenia gravis are:

  • More sensitive to nondepolarizing neuromuscular blockers
  • Resistant to succinylcholine
    • At increased risk for developing phase II neuromuscular block, particularly with repeat doses of succinylcholine
    • ED95 is 2.6 times normal in these patients.[1]
  • In patients taking an acetylcholinesterase inhibitor for myasthenia management, cholinergic crisis is possible if acetylcholinesterase inhibitor is used for neuromuscular blockade reversal

Airway management

  • Consider increased aspiration risk if bulbar symptoms are present
  • If thymoma present, may cause anterior mediastinal mass effect

Other medications

  • Consider stress dose steroids if taking chronically
  • Medications which may contribute to muscle weakness:
    • Calcium channel blockers
    • Magnesium
    • Aminoglycoside antibiotics

Postoperative management

  • Extubate awake with pulmonary mechanics similar to baseline status
  • Risk factors for requiring postoperative ventilation support:
    • Leventhal Criteria
      • Disease duration >6yrs
      • Concomitant pulmonary disease
      • Peak inspiratory pressure <-25 cmH2O
      • Vital capacity <40 mL/kg (or <2.9L)
      • Pyridostigmine dose >750 mg/day
    • Other indicators include preoperative use of steroids, and previous episode of respiratory failure
  • Resume outpatient anticholinesterase medication
  • Patients should be monitored in either a ICU or step-down unit

Related surgical procedures

Pathophysiology

Myasthenia gravis is an autoimmune disease leading to the production of antibodies against nicotinic acetylcholine receptors in the postsynaptic membrane of the neuromuscular junction.

Signs and symptoms

Weakness in one or more of the following muscle groups:

  • Ocular
  • Bulbar (swallowing, chewing, speech)
  • Respiratory
  • Proximal skeletal

Diagnosis

Myasthenia gravis can be difficult to diagnose, and is based on a combination of:

  • Serum antibody level
  • Electromyography
  • Nerve conduction studies
  • Edrophonium test
  • CT/MRI to evaluate for enlarged thymus gland

Not to be confused with Congenital myasthenic syndrome (CMS) or Lambert-Eaton syndrome.

Treatment

Myasthenia gravis is typically medically managed using:

  • Acetylcholinesterase inhibitor (e.g. pyridostigmine) to increase the presence of acetylcholine in the neuromuscular junction
  • Steroids

Prognosis

Patients with managed myasthenia gravis have a normal life expectancy.

Epidemiology

References

  1. Barash, Paul (2017). Clinical Anesthesia. Philadelphia, PA: Wolters Kluwer. p. 1067. ISBN 978-1-4963-3700-9.

Top contributors: Olivia Sutton, Chris Rishel and Tip Lee

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