What should I know about myasthenia gravis?*
*This myasthenia gravis section written by Charles Patrick Davis, MD, PhD
What is the medical definition of myasthenia gravis?
- Myasthenia gravis is a chronic autoimmune neuromuscular disease characterized by varying degrees of weakness of the skeletal (voluntary) muscles of the body.
- The thymus may give incorrect instructions to developing immune cells, ultimately resulting in autoimmunity and the production of the acetylcholine receptor antibodies.
What symptoms would you expect from myasthenia gravis?
- Symptoms and signs of myasthenia gravis may include:
- Problems with vision, called ocular myasthenia gravis and include:
- Eye muscle weakness
- Eyelid drooping (ptosis)
- Blurry or double vision (diplopia)
- Problems walking
- Changes in facial expressions
- Problems swallowing
- Shortness of breath
- Problems speaking
- Weakness in the arms, hands, fingers, legs, and neck
- Problems with vision, called ocular myasthenia gravis and include:
The life expectancy of a person with myasthenia gravis
- The disease prognosis and life expectancy are highly variable. Some people have complete remission (about 50% with thymus surgery) others have relatively normal lives with continued treatment, and others have a poor prognosis as the disease advances.
- Research is ongoing for myasthenia gravis. New treatment protocols and immunosuppressive drugs are being tried, and therapeutic methods are likely to improve in the future.
What is the cause of myasthenia gravis?
- Myasthenia gravis is caused by a defect in the transmission of nerve impulses to muscles.
- Myasthenia gravis is not directly inherited nor is it contagious.
- Commonly, the disease affects adult women (under 40) and older men (over 60), but it can occur at any age.
- Diagnosis of myasthenia gravis often is delayed because muscle weakness is a common symptom of other diseases and conditions and may slowly develop.
How do you test for myasthenia gravis?
- Tests to diagnose myasthenia gravis is diagnosed with tests that help confirm the diagnosis include:
- Detecting the presence of immune molecules or acetylcholine receptor antibodies
- Edrophonium test
- Myasthenia gravis is treated with medications, for example:
- The drug Soliris is approved for adult patients with generalized Myasthenia Gravis (gMG) who are anti-AchR antibody-positive.
- Anticholinesterase agents (for example, neostigmine)
- Various immunosuppressive drugs
- Surgical treatment may include the removal of the thymus.
- A myasthenic crisis occurs when the muscles that control breathing weaken so much that you need emergency ventilation assistance to help breathe.
Myasthenia Gravis Test
EMGs can be used to detect abnormal electrical activity of muscle that can occur in many diseases and conditions, including muscular dystrophy, inflammation of muscles, pinched nerves, peripheral nerve damage (damage to nerves in the arms and legs), amyotrophic lateral sclerosis (ALS), myasthenia gravis, disc herniation, and others.
Why is an EMG test done?
An EMG is often performed when patients have unexplained muscle weakness.
What is myasthenia gravis?
Most individuals with myasthenia can lead a normal or nearly normal life
Myasthenia gravis is a chronic autoimmune, neuromuscular disease that causes weakness in the skeletal muscles that worsens after periods of activity and improves after periods of rest. These muscles are responsible for functions involving breathing and moving parts of the body, including the arms and legs.
The name myasthenia gravis, which is Latin and Greek in origin, means “grave, or serious, muscle weakness.” There is no known cure, but with current therapies, most cases of myasthenia gravis are not as “grave” as the name implies. Available treatments can control symptoms and often allow people to have a relatively high quality of life. Most individuals with the condition have a normal life expectancy.
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What signs and symptoms of myasthenia gravis?
The hallmark of myasthenia gravis is muscle weakness that worsens after periods of activity and improves after periods of rest. Certain muscles such as those that control eye and eyelid movement, facial expression, chewing, talking, and swallowing are often (but not always) involved in the disorder.
The onset of the disorder may be sudden, and symptoms often are not immediately recognized as myasthenia gravis. The degree of muscle weakness involved in myasthenia gravis varies greatly among individuals.
People with myasthenia gravis may experience the following symptoms:
- weakness of the eye muscles (called ocular myasthenia)
- drooping of one or both eyelids (ptosis)
- blurred or double vision (diplopia)
- a change in facial expression
- difficulty swallowing
- shortness of breath
- impaired speech (dysarthria)
- weakness in the arms, hands, fingers, legs, and neck.
- Sometimes the severe weakness of myasthenia gravis may cause respiratory failure, which requires immediate emergency medical care.
What is a myasthenic crisis?
A myasthenic crisis is a medical emergency that occurs when the muscles that control breathing weaken to the point where individuals require a ventilator to help them breathe. It may be triggered by
- surgery, or
- an adverse reaction to the medication.
Approximately 15 to 20 percent of people with myasthenia gravis experience at least one myasthenic crisis. However, up to one-half of people may have no obvious cause for their myasthenic crisis. Certain medications have been shown to cause myasthenia gravis. However, sometimes these medications may still be used if it is more important to treat an underlying condition.
Who gets myasthenia gravis? Is it inherited? Is it contagious?
Myasthenia gravis affects both men and women and occurs across all racial and ethnic groups. It most commonly impacts young adult women (under 40) and older men (over 60), but it can occur at any age, including childhood. Myasthenia gravis is not inherited nor is it contagious. Occasionally, the disease may occur in more than one member of the same family.
Although myasthenia gravis is rarely seen in infants, the fetus may acquire antibodies from a mother affected with myasthenia gravis—a condition called neonatal myasthenia. Neonatal myasthenia gravis is generally temporary, and the child’s symptoms usually disappear within two to three months after birth. Rarely, children of a healthy mother may develop congenital myasthenia. This is not an autoimmune disorder but is caused by defective genes that produce abnormal proteins in the neuromuscular junction and can cause similar symptoms to myasthenia gravis.
What causes myasthenia gravis?
- Myasthenia gravis is an autoimmune disease, which means the immune system—which normally protects the body from foreign organisms—mistakenly attacks itself.
- Myasthenia gravis is caused by an error in the transmission of nerve impulses to muscles. It occurs when normal communication between the nerve and muscle is interrupted at the neuromuscular junction—the place where nerve cells connect with the muscles they control.
- Neurotransmitters are chemicals that neurons, or brain cells, use to communicate information. Normally when electrical signals or impulses travel down a motor nerve, the nerve endings release a neurotransmitter called acetylcholine that binds to sites called acetylcholine receptors on the muscle. The binding of acetylcholine to its receptor activates the muscle and causes muscle contraction.
- In myasthenia gravis, antibodies (immune proteins produced by the body’s immune system) block, alter or destroy the receptors for acetylcholine at the neuromuscular junction, which prevents the muscle from contracting. This is most often caused by antibodies to the acetylcholine receptor itself, but antibodies to other proteins, such as MuSK (Muscle-Specific Kinase) protein, also can impair transmission at the neuromuscular junction.
The thymus gland
- The thymus gland controls immune function and may be associated with myasthenia gravis. It grows gradually until puberty, and then gets smaller and is replaced by fat. Throughout childhood, the thymus plays an important role in the development of the immune system because it is responsible for producing T-lymphocytes or T cells, a specific type of white blood cell that protects the body from viruses and infections.
- In many adults with myasthenia gravis, the thymus gland remains large. People with the disease typically have clusters of immune cells in their thymus gland and may develop thymomas (tumors of the thymus gland). Thymomas are most often harmless, but they can become cancerous. Scientists believe the thymus gland may give incorrect instructions to developing immune cells, ultimately causing the immune system to attack its own cells and tissues and produce acetylcholine receptor antibodies—setting the stage for the attack on neuromuscular transmission.
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What procedures and test diagnose myasthenia gravis?
A doctor may perform or order several tests to confirm the diagnosis of myasthenia gravis:
- A physical and neurological examination. A physician will first review an individual’s medical history and conduct a physical examination. In a neurological examination, the physician will check muscle strength and tone, coordination, sense of touch, and look for impairment of eye movements.
- An edrophonium test. This test uses injections of edrophonium chloride to briefly relieve weakness in people with myasthenia gravis. The drug blocks the breakdown of acetylcholine and temporarily increases the levels of acetylcholine at the neuromuscular junction. It is usually used to test ocular muscle weakness.
- A blood test. Most individuals with myasthenia gravis have abnormally elevated levels of acetylcholine receptor antibodies. A second antibody—called the anti-MuSK antibody—has been found in about half of individuals with myasthenia gravis who do not have acetylcholine receptor antibodies. A blood test can also detect this antibody. However, in some individuals with myasthenia gravis, neither of these antibodies is present. These individuals are said to have seronegative (negative antibody) myasthenia.
- Electrodiagnostics. Diagnostic tests include repetitive nerve stimulation, which repeatedly stimulates a person’s nerves with small pulses of electricity to tire specific muscles. Muscle fibers in myasthenia gravis, as well as other neuromuscular disorders, do not respond as well to repeated electrical stimulation compared to muscles from normal individuals. Single fiber electromyography (EMG), considered the most sensitive test for myasthenia gravis, detects impaired nerve-to-muscle transmission. EMG can be very helpful in diagnosing mild cases of myasthenia gravis when other tests fail to demonstrate abnormalities.
- Diagnostic imaging. Diagnostic imaging of the chest using computed tomography (CT) or magnetic resonance imaging (MRI) may identify the presence of a thymoma.
- Pulmonary function testing. Measuring breathing strength can help predict if respiration may fail and lead to a myasthenic crisis.
Because weakness is a common symptom of many other disorders, the diagnosis of myasthenia gravis is often missed or delayed (sometimes up to two years) in people who experience mild weakness or in those individuals whose weakness is restricted to only a few muscles.
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What is the treatment for myasthenia gravis?
Today, myasthenia gravis can generally be controlled. There are several therapies available to help reduce and improve muscle weakness.
- Thymectomy. This operation to remove the thymus gland (which often is abnormal in individuals with myasthenia gravis) can reduce symptoms and may cure some people, possibly by rebalancing the immune system. An NINDS-funded study found that thymectomy is helpful both for people with thymoma and those with no evidence of the tumors. The clinical trial followed 126 people with myasthenia gravis and no visible thymoma and found that the surgery reduced muscle weakness and the need for immunosuppressive drugs.
- Monoclonal antibody. This treatment targets the process by which acetylcholine antibodies injure the neuromuscular junction. In 2017, the U.S. Food and Drug Administration approved the use of eculizumab for the treatment of generalized myasthenia gravis in adults who test positive for the anti-acetylcholine receptor (AchR) antibody.
- Anticholinesterase medications. Medications to treat the disorder include anticholinesterase agents such as mestinon or pyridostigmine, which slow the breakdown of acetylcholine at the neuromuscular junction and thereby improve neuromuscular transmission and increase muscle strength.
- Immunosuppressive drugs. These drugs improve muscle strength by suppressing the production of abnormal antibodies. They include prednisone, azathioprine, mycophenolate mofetil, and tacrolimus. The drugs can cause significant side effects and must be carefully monitored by a physician.
- Plasmapheresis and intravenous immunoglobulin. These therapies may be options in severe cases of myasthenia gravis. Individuals can have antibodies in their plasma (a liquid component in the blood) that attack the neuromuscular junction. These treatments remove the destructive antibodies, although their effectiveness usually only lasts for a few weeks to months.
- Plasmapheresis is a procedure using a machine to remove harmful antibodies in plasma and replace them with good plasma or a plasma substitute.
- Intravenous immunoglobulin is a highly concentrated injection of antibodies pooled from many healthy donors that temporarily changes the way the immune system operates. It works by binding to the antibodies that cause myasthenia gravis and removing them from circulation.
What is the prognosis?
With treatment, most individuals with myasthenia can significantly improve their muscle weakness and lead normal or nearly normal lives.
Some cases of myasthenia gravis may go into remission — either temporarily or permanently — and muscle weakness may disappear completely so that medications can be discontinued. Stable, long-lasting complete remissions are the goal of thymectomy and may occur in about 50 percent of individuals who undergo this procedure. In a few cases, the severe weakness of myasthenia gravis may cause respiratory failure, which requires immediate emergency medical care.
What research is being done?
The mission of the National Institute of Neurological Disorders and Stroke (NINDS) is to seek fundamental knowledge about the brain and nervous system and to use that knowledge to reduce the burden of neurological disease. The NINDS is a component of the National Institutes of Health (NIH), the leading supporter of biomedical research in the world.
Although there is no cure for myasthenia gravis, management of the disorder has improved over the past 30 years. There is a greater understanding of the causes, structure, and function of the neuromuscular junction, the fundamental aspects of the thymus gland, and of autoimmunity. Technological advances have led to more timely and accurate diagnosis of myasthenia gravis and new and enhanced therapies have improved treatment options. Researchers are working to develop better medications, identify new ways to diagnose and treat individuals and improve treatment options.
Some people with myasthenia gravis do not respond favorably to available treatment options, which usually include long-term suppression of the immune system. New drugs are being tested, either alone or in combination with existing drug therapies, to see if they are more effective in targeting the causes of the disease.
Diagnostics and biomarkers
In addition to developing new medications, researchers are trying to find better ways to diagnose and treat this disorder. For example, NINDS-funded researchers are exploring the assembly and function of connections between nerves and muscle fibers to understand the fundamental processes in neuromuscular development. This research could reveal new therapies for neuromuscular diseases like myasthenia gravis.
Researchers are also exploring better ways to treat myasthenia gravis by developing new tools to diagnose people with undetectable antibodies and identify potential biomarkers (signs that can help diagnose or measure the progression of a disease) to predict an individual’s response to immunosuppressive drugs.
New treatment options
Findings from a recent NINDS-supported study yielded conclusive evidence about the benefits of surgery for individuals without thymoma, a subject that had been debated for decades. Researchers hope that this trial will become a model for rigorously testing other treatment options and that other studies will continue to examine different therapies to see if they are superior to standard care options.
Assistive technologies, such as magnetic devices, may also help people with myasthenia gravis to control some symptoms of the disorder.
Where can I get more information?
For more information on neurological disorders or research programs funded by the National Institute of Neurological Disorders and Stroke, contact the Institute’s Brain Resources and Information Network (BRAIN) at:
P.O. Box 5801
Bethesda, MD 20824
Information also is available from the following organizations:
Myasthenia Gravis Foundation of America, Inc.
355 Lexington Avenue
New York, NY 10017-6603
Tel: 800-541-5454 212-297-2156
Muscular Dystrophy Association
National Office — 222 S. Riverside Plaza
Chicago, IL 60606
American Autoimmune Related Diseases Association
22100 Gratiot Avenue
Eastpointe, MI 48021-2227
Tel: 586-776-3900 800-598-4668
U.S. National Library of Medicine
National Institutes of Health/DHHS
8600 Rockville Pike
Bethesda, MD 20894
Medically Reviewed on 11/15/2021
United States. National Institute of Neurological Disorders and Stroke. “Myasthenia Gravis Fact Sheet.” .