Myasthenia gravis: Difference between revisions

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==Background==
==Background==
*Autoantibody degradation, dysfunction, and blockade of acetylcholine receptor at the NMJ<ref>Medications and Myasthenia Gravis (A Reference for Health Care Professionals) [http://www.myasthenia.org/LinkClick.aspx?fileticket=JuFvZPPq2vg%3d PDF]</ref>
*Autoantibody degradation, dysfunction, and blockade of acetylcholine receptor at the NMJ
*Thymus is abnormal in 75% of pts
*Thymus is abnormal in 75% of patients
**Thymectomy resolves or improves symptoms in most pts, especially those with a thymoma
**Thymectomy resolves or improves symptoms in most patients, especially those with a thymoma
*No sensory, reflex, pupillary, or cerebellar deficits
*No sensory, reflex, pupillary, or cerebellar deficits


===Drugs that may unmask or worsen myasthenia gravis===
===Drugs that may unmask or worsen myasthenia gravis<ref>https://neurology.uams.edu/wp-content/uploads/sites/49/2018/03/Drugs-that-may-worsen-Myasthenia-Gravis.pdf</ref>===
*Antibiotics (Aminoglycosides, Clinda, Fluoroquinolones, Vancomyacin)<ref> UpToDate Clinical manifestations of myasthenia gravis may 2016</ref>
*Antimicrobials ([[Aminoglycosides]], [[clindamycin]], [[erythromycin]], [[tetracycline]], [[doxycycline]], [[azithromycin]], [[fluoroquinolones]], [[vancomycin]], [[chloroquine]], [[hydroxychloroquine]], )<ref> UpToDate Clinical manifestations of myasthenia gravis may 2016</ref>
*Cardiovasular drugs (Beta blockers, procainamide)
*Cardiovascular drugs ([[beta blockers]], [[procainamide]], [[quinidine]])
*Other (Botox, quinines, Magnesium)
*Neuro/psych meds ([[chlorpromazine]], [[lithium]], [[prochlorperazine]], [[phenytoin]], [[risperidone]],
 
*Other (Botox, [[quinine]]s, [[magnesium]])
===Drugs Usually well-tolerated in myasthenia gravis but occasionally associated with an exacerbation===
===Drugs Usually well-tolerated in myasthenia gravis but occasionally associated with an exacerbation===
*Local anesthetics
*Local anesthetics
*Antibiotics (Tetracycline/doxy, Macrolides, Flagyl, nitrofurantoin)
*Antibiotics ([[Tetracycline]]/[[doxycycline]], [[macrolides]], [[metronidazole]], [[nitrofurantoin]])
*Anticonvulsants (carbamazepine, ethosuximide, gabapentin, phenobarbital, phenytoin)
*Anticonvulsants ([[carbamazepine]], [[ethosuximide]], [[gabapentin]], [[phenobarbital]], [[phenytoin]])
*Butyrophenones (haldol)
*Butyrophenones ([[haloperidol]])
*Phenothiazines (chlorpromazine/prochlorpromazine)
*Phenothiazines ([[chlorpromazine]]/[[prochlorperazine]])
*Calcium Channel Blockers
*[[Calcium channel blockers]]
*Steroids
*[[Steroids]]
*Opthalmic drugs (betaxolol/timolol/proparacaine)
*Ophthalmic drugs (betaxolol/timolol/proparacaine)
*Other (Iodinated contrast agent)
*Other (Iodinated contrast agent)


==Clinical Features==
==Clinical Features==
*Muscle weakness
[[File:DiplopiaMG1.jpg|thumb|Cranial nerve palsy and ptosis in a patient with myasthenia gravis]]
*Muscle [[weakness]]
**Proximal extremities
**Proximal extremities
**Neck extensors
**Neck extensors
**Facial/bulbar muscles (dysphagia, dysarthria, dysphonia)
**Facial/bulbar muscles ([[dysphagia]], [[dysarthria]], [[dysphonia]])
*Ocular weakness
*Ocular weakness
**Ptosis
**Ptosis
**[[Diplopia]]
**[[Diplopia]]
**CN III, IV, or VI weakness
**[[cranial nerve palsies|CN III, IV, or VI weakness]]
*Symptoms worsen with repetitive use / as the day progresses<ref>Tintinalli's Emergency Medicine: A Comprehensive Study Guide, 7e (2010), Chapter 167. Chronic Neurologic Disorders</ref>


==Differential Diagnosis==
==Differential Diagnosis==
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*[[Antibiotics]] ([[aminoglycosides]], [[fluroquinolones]], [[clindamycin]], [[metronidazole]], [[macrolides]])<ref>Sanders DB, Guptill JT. Myasthenia Gravis and Lambert-Eaton Myasthenic Syndrome. Continuum. 2014 Oct;20(5)</ref>
*[[Antibiotics]] ([[aminoglycosides]], [[fluroquinolones]], [[clindamycin]], [[metronidazole]], [[macrolides]])<ref>Sanders DB, Guptill JT. Myasthenia Gravis and Lambert-Eaton Myasthenic Syndrome. Continuum. 2014 Oct;20(5)</ref>
*Steroids
*Steroids
*Anticonvulsants (phenytoin, barbiturates, lithium)
*[[Anticonvulsants]] (phenytoin, barbiturates, lithium)
*Psychotropics (haloperidol)
*Psychotropics ([[haloperidol]])
*Beta-blockers / calcium-channel blockers
*[[Beta-blockers]] / [[calcium-channel blockers]]
*Local anesthetics
*Local anesthetics
*Narcotics
*[[Opioids]]
*Anticholinergics (diphenhydramine)
*[[Anticholinergics]] (diphenhydramine)
*NMJ blocking agents (roc, sux)
*NMJ blocking agents ([[rocuronium]], [[succinylcholine]])


{{Weakness DDX}}
{{Weakness DDX}}


==Diagnosis==
==Evaluation==
*Symptoms worsen with repetitive use / as the day progresses<ref>Tintinalli's Emergency Medicine: A Comprehensive Study Guide, 7e (2010), Chapter 167. Chronic Neurologic Disorders</ref>
[[File:Myasthenia gravis ptosis reversal.jpg|thumb|Right partial ptosis (left picture) with left lid showing compensatory pseudo lid retraction because of equal innervation of the levator palpabrae superioris (Hering's law of equal innervation): Right picture: after an edrophonium test, note the improvement in ptosis.]]
**Ice Pack Test- should improve symptoms temporarily (usually ptosis; high specificity)
[[File:Tumor Thymoma1.jpg|thumb|A chest CT-scan showing a thymoma (red circle).]]
***Place ice-pack on eyes for 2 mins, if ptosis decreases by ≥2mm the test is positive
*Prolonged upward gaze test<ref>Ptosis in myasthenia gravis: Extended fatigue and recovery bedside test. Klaus V. Toyka. Neurology Oct 2006, 67 (8) 1524.</ref>
**Have the patient gaze upward at examiner's finger for 30 seconds
**Diplopia or ptosis that develops is suggestive of MG
*Ice Pack Test - should improve symptoms temporarily (usually ptosis; high specificity)
**Place ice-pack on eyes for 2 mins, if ptosis decreases by ≥2mm the test is positive
*Acetylcholine receptor antibodies (AcHR-Ab). Positive in 80-90% of generalized MG and 40-55% in Ocular MG.
*Acetylcholine receptor antibodies (AcHR-Ab). Positive in 80-90% of generalized MG and 40-55% in Ocular MG.


==Myasthenic Crisis versus Cholinergic Crisis==
{{Myasthenic vs cholinergic crisis}}
*Myasthenic Crisis
 
**Respiratory failure is feared complication
==Management==
**Much more common
Always evaluate:<ref>Emergency Medicine Practice -- Weakness: A systemic approach to acute non-traumatic neurologic and neuromuscular causes Dec 2002</ref>
**D/t med non-compliance, infection, surgery, tapering of immunosuppressants, meds
*Tidal volume
*Cholinergic Crisis
*Forced Vital capacity (normal is >25cc/kg in MG)
**Excessive anticholinesterase medication may cause weakness and cholinergic symptoms
*FEV
**Rarely if ever seen w/ dose limitation of pyridostigmine to less than 120mg q3hr
*Negative inspiratory force (NIF) (normal is -80 to -100; respiratory support is indicated for -20 to 0)
**If on usual dose of meds assume exacerbation due to MG even w/ cholinergic side effects
*Ability to handle secretions
*Edrophonium (Tensilon) test to distinguish the two is controversial
 
**Give 1-2 mg IV slow push. If any fasciculations, resp depression, or cholinergic symptoms within a few minutes, problem is likely cholinergic crisis (no more edrophonium). If no evidence of cholinergic excess, give total of 10 mg and observe improvement in case of myasthenic crisis.
===Investigations<ref>Myasthenia gravis: Association of British Neurologists’ management guidelines [https://pn.bmj.com/content/15/3/199]</ref>===
**Side effects of Edrophonium: Arrhythmias, Hypotension, Bronchospasm
*ACh-R antibody testing: first-line investigation. Indication for thymectomy if < 45 years.
**Thus, need to be on a monitor, with atropine on hand
**MuSK antibody testing: for patients negative for ACh-R antibodies
**Treatment: Atropine
*Thyroid function
*Neurophysiology: Repetitive nerve stimulation is the initial test; if negative, consider single-fibre electromyography.
*MR scan of brain: Patients with negative serology and neurophysiology, and symptoms compatible with ocular myasthenia may have structural brain disease.
*Thymus scanning: All patients with suspected myasthenia, irrespective of distribution (ocular/generalised) or serology (seropositive/negative), should undergo thymus imaging. The modality (CT or MRI) should be decided locally.
*Edrophonium/Tensilon test
 
===Medications===
 
[[Pyridostigmine]] and [[neostigmine]] primarily used for symptomatic relief but does not alter course of crisis<ref>Wendell LC and Levine JM. Myasthenic Crisis. Neurohospitalist. 2011 Jan; 1(1): 16–22.</ref>. Consider avoiding pyridostigmine/neostigmine in ICU ventilated patients, as these may increase secretions. Continued use of these meds also prevents assessment of other treatment modalities and can increase muscle weakness if used in excess
*[[Pyridostigmine]]: Titrate up to find the lowest effective dose
**Initially 30 mg four times daily for 2–4 days
**Then 60 mg (1 tablet) four times daily for 5 days and experiment with timing
**Then increase to 90 mg four times daily over 1 week if required.
**If patient's usual dose has been missed the next dose is usually doubled
**IV route: 1/30th of the PO dose (2-3mg) by slow IV infusion
*[[Neostigmine]]
**0.5mg IV
[[Prednisolone]]: If symptomatic despite Pyridostigmine. Monitor diabetes mellitus.
*Ocular myasthenia gravis
**Start 5 mg on alternate days for three doses and increase by 5 mg every three doses until symptoms improve.
**The maximum dose is 50 mg on alternate days or 0.75 mg/kg/alternate day
*Generalised myasthenia gravis
**Start 10 mg on alternate days for three doses and increase by 10 mg every three doses until symptoms improve.
**Maximum dose is 100 mg alternate days or 1.5 mg/kg
[[Plasmapheresis]]
*Effect lasts 15-20 days
[[IVIG]]
*0.4 g/kg/die for 5 days
*Effect lasts 30-45 days
 
In '''Myasthenic Crisis''' :
*Acetylcholinesterase inhibitors are discontinued to avoid excessive bronchial secretions
*[[Intubation]]
**If possible avoid depolarizing AND non-depolarizing agents
**If patient requires paralysis use non-depolarizing agent at smaller dose
**If must use depolarizing agents, will need higher doses
*IVIG and plasmapheresis


==Treatment==
==Disposition==
#Always evaluate tidal volume, FEV, negative inspiratory force (NIF), ability to handle secretions
*Typically MICU or neuro ICU, consideration for thymectomy if not done already
#Meds
*Consideration for [[corticosteroids]] or other immunosuppressants (i.e. corticosteroids, azathioprine, mycophenolate mofetil, cyclosporine)
#*Pyridostigmine
#**If pt's usual dose has been missed the next dose is usually doubled
#**PO route: 60-90mg q4hr
#**IV route: 1/30th of the PO dose (2-3mg) by slow IV infusion
#*Neostigmine
#**0.5mg IV
#[[Intubation]]
#*If possible avoid depolarizing AND non-depolarizing agents
#**If pt requires paralysis use non-depolarizing agent at smaller dose
#**If must use depolarizing agents, will need higher doses
#Plasmapherisis
#IVIG


==See Also==
==See Also==

Revision as of 21:13, 7 December 2022

Background

  • Autoantibody degradation, dysfunction, and blockade of acetylcholine receptor at the NMJ
  • Thymus is abnormal in 75% of patients
    • Thymectomy resolves or improves symptoms in most patients, especially those with a thymoma
  • No sensory, reflex, pupillary, or cerebellar deficits

Drugs that may unmask or worsen myasthenia gravis[1]

Drugs Usually well-tolerated in myasthenia gravis but occasionally associated with an exacerbation

Clinical Features

Cranial nerve palsy and ptosis in a patient with myasthenia gravis

Differential Diagnosis

Drug-induced myasthenia

Weakness

Evaluation

Right partial ptosis (left picture) with left lid showing compensatory pseudo lid retraction because of equal innervation of the levator palpabrae superioris (Hering's law of equal innervation): Right picture: after an edrophonium test, note the improvement in ptosis.
A chest CT-scan showing a thymoma (red circle).
  • Prolonged upward gaze test[5]
    • Have the patient gaze upward at examiner's finger for 30 seconds
    • Diplopia or ptosis that develops is suggestive of MG
  • Ice Pack Test - should improve symptoms temporarily (usually ptosis; high specificity)
    • Place ice-pack on eyes for 2 mins, if ptosis decreases by ≥2mm the test is positive
  • Acetylcholine receptor antibodies (AcHR-Ab). Positive in 80-90% of generalized MG and 40-55% in Ocular MG.

Myasthenic versus cholinergic crisis

Flaccid paralysis resulting from cholinergic crisis can be distinguished from myasthenia gravis by the use of the drug edrophonium, which worsens the paralysis caused by cholinergic crisis, but strengthens the muscle in the case of myasthenia gravis. (Edrophonium is an cholinesterase inhibitor hence increases the concentration of acetylcholine present).

  • Myasthenic Crisis
    • Respiratory failure is feared complication
    • Much more common
    • Due to medication non-adherence, infection, surgery, tapering of immunosuppressants, meds
  • Cholinergic Crisis
    • Excessive anticholinesterase medication may cause weakness and cholinergic symptoms
    • Rarely if ever seen with dose limitation of pyridostigmine to less than 120mg q3hr
    • If on usual dose of meds assume exacerbation due to MG even with cholinergic side effects
  • Edrophonium (Tensilon) test to distinguish the two is controversial
    • Give 1-2mg IV slow push. If any fasciculations, respiratory depression, or cholinergic symptoms within a few minutes, problem is likely cholinergic crisis (no more edrophonium). If no evidence of cholinergic excess, give total of 10mg and observe improvement in case of myasthenic crisis.
    • Side effects of Edrophonium: Arrhythmias, Hypotension, Bronchospasm
    • Thus, need to be on a monitor, with atropine on hand
    • Treatment: Atropine

Management

Always evaluate:[6]

  • Tidal volume
  • Forced Vital capacity (normal is >25cc/kg in MG)
  • FEV
  • Negative inspiratory force (NIF) (normal is -80 to -100; respiratory support is indicated for -20 to 0)
  • Ability to handle secretions

Investigations[7]

  • ACh-R antibody testing: first-line investigation. Indication for thymectomy if < 45 years.
    • MuSK antibody testing: for patients negative for ACh-R antibodies
  • Thyroid function
  • Neurophysiology: Repetitive nerve stimulation is the initial test; if negative, consider single-fibre electromyography.
  • MR scan of brain: Patients with negative serology and neurophysiology, and symptoms compatible with ocular myasthenia may have structural brain disease.
  • Thymus scanning: All patients with suspected myasthenia, irrespective of distribution (ocular/generalised) or serology (seropositive/negative), should undergo thymus imaging. The modality (CT or MRI) should be decided locally.
  • Edrophonium/Tensilon test

Medications

Pyridostigmine and neostigmine primarily used for symptomatic relief but does not alter course of crisis[8]. Consider avoiding pyridostigmine/neostigmine in ICU ventilated patients, as these may increase secretions. Continued use of these meds also prevents assessment of other treatment modalities and can increase muscle weakness if used in excess

  • Pyridostigmine: Titrate up to find the lowest effective dose
    • Initially 30 mg four times daily for 2–4 days
    • Then 60 mg (1 tablet) four times daily for 5 days and experiment with timing
    • Then increase to 90 mg four times daily over 1 week if required.
    • If patient's usual dose has been missed the next dose is usually doubled
    • IV route: 1/30th of the PO dose (2-3mg) by slow IV infusion
  • Neostigmine
    • 0.5mg IV

Prednisolone: If symptomatic despite Pyridostigmine. Monitor diabetes mellitus.

  • Ocular myasthenia gravis
    • Start 5 mg on alternate days for three doses and increase by 5 mg every three doses until symptoms improve.
    • The maximum dose is 50 mg on alternate days or 0.75 mg/kg/alternate day
  • Generalised myasthenia gravis
    • Start 10 mg on alternate days for three doses and increase by 10 mg every three doses until symptoms improve.
    • Maximum dose is 100 mg alternate days or 1.5 mg/kg

Plasmapheresis

  • Effect lasts 15-20 days

IVIG

  • 0.4 g/kg/die for 5 days
  • Effect lasts 30-45 days

In Myasthenic Crisis :

  • Acetylcholinesterase inhibitors are discontinued to avoid excessive bronchial secretions
  • Intubation
    • If possible avoid depolarizing AND non-depolarizing agents
    • If patient requires paralysis use non-depolarizing agent at smaller dose
    • If must use depolarizing agents, will need higher doses
  • IVIG and plasmapheresis

Disposition

  • Typically MICU or neuro ICU, consideration for thymectomy if not done already
  • Consideration for corticosteroids or other immunosuppressants (i.e. corticosteroids, azathioprine, mycophenolate mofetil, cyclosporine)

See Also

References

  1. https://neurology.uams.edu/wp-content/uploads/sites/49/2018/03/Drugs-that-may-worsen-Myasthenia-Gravis.pdf
  2. UpToDate Clinical manifestations of myasthenia gravis may 2016
  3. Tintinalli's Emergency Medicine: A Comprehensive Study Guide, 7e (2010), Chapter 167. Chronic Neurologic Disorders
  4. Sanders DB, Guptill JT. Myasthenia Gravis and Lambert-Eaton Myasthenic Syndrome. Continuum. 2014 Oct;20(5)
  5. Ptosis in myasthenia gravis: Extended fatigue and recovery bedside test. Klaus V. Toyka. Neurology Oct 2006, 67 (8) 1524.
  6. Emergency Medicine Practice -- Weakness: A systemic approach to acute non-traumatic neurologic and neuromuscular causes Dec 2002
  7. Myasthenia gravis: Association of British Neurologists’ management guidelines [1]
  8. Wendell LC and Levine JM. Myasthenic Crisis. Neurohospitalist. 2011 Jan; 1(1): 16–22.