Guillain-Barré Syndrome
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El Síndrome de Guillain-Barré
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What is Guillain-Barré syndrome?What is Guillain-Barré syndrome? Guillain-Barré syndrome is a disorder in which the body's immune system attacks part of the peripheral nervous system. The
first symptoms of this disorder include varying degrees of weakness or tingling sensations in the legs. In many instances
the weakness and abnormal sensations spread to the arms and upper body. These symptoms can increase in intensity until certain
muscles cannot be used at all and, when severe, the patient is almost totally paralyzed. In these cases the disorder is life
threatening - potentially interfering with breathing and, at times, with blood pressure or heart rate - and is considered
a medical emergency. Such a patient is often put on a respirator to assist with breathing and is watched closely for problems
such as an abnormal heart beat, infections, blood clots, and high or low blood pressure. Most patients, however, recover from
even the most severe cases of Guillain-Barré syndrome, although some continue to have a certain degree of weakness.
Guillain-Barré syndrome can affect anybody. It can strike at any age and both sexes are equally prone to the disorder. The
syndrome is rare, however, afflicting only about one person in 100,000. Usually Guillain-Barré occurs a few days or weeks
after the patient has had symptoms of a respiratory or gastrointestinal viral infection. Occasionally surgery or vaccinations
will trigger the syndrome.
After the first clinical manifestations of the disease, the symptoms can progress over the course of hours, days, or weeks.
Most people reach the stage of greatest weakness within the first 2 weeks after symptoms appear, and by the third week of
the illness 90 percent of all patients are at their weakest.
What causes Guillain-Barré syndrome? No one yet knows why Guillain-Barré—which is not contagious—strikes some people and not others. Nor does anyone know exactly
what sets the disease in motion.
What scientists do know is that the body's immune system begins to attack the body itself, causing what is known as an autoimmune
disease. Usually the cells of the immune system attack only foreign material and invading organisms. In Guillain-Barré syndrome,
however, the immune system starts to destroy the myelin sheath that surrounds the axons of many peripheral nerves, or even
the axons themselves (axons are long, thin extensions of the nerve cells; they carry nerve signals). The myelin sheath surrounding
the axon speeds up the transmission of nerve signals and allows the transmission of signals over long distances.
In diseases in which the peripheral nerves' myelin sheaths are injured or degraded, the nerves cannot transmit signals efficiently.
That is why the muscles begin to lose their ability to respond to the brain's commands, commands that must be carried through
the nerve network. The brain also receives fewer sensory signals from the rest of the body, resulting in an inability to feel
textures, heat, pain, and other sensations. Alternately, the brain may receive inappropriate signals that result in tingling,
"crawling-skin," or painful sensations. Because the signals to and from the arms and legs must travel the longest distances
they are most vulnerable to interruption. Therefore, muscle weakness and tingling sensations usually first appear in the hands
and feet and progress upwards.
When Guillain-Barré is preceded by a viral or bacterial infection, it is possible that the virus has changed the nature of
cells in the nervous system so that the immune system treats them as foreign cells. It is also possible that the virus makes
the immune system itself less discriminating about what cells it recognizes as its own, allowing some of the immune cells,
such as certain kinds of lymphocytes and macrophages, to attack the myelin. Sensitized T lymphocytes cooperate with B lymphocytes
to produce antibodies against components of the myelin sheath and may contribute to destruction of the myelin. Scientists
are investigating these and other possibilities to find why the immune system goes awry in Guillain-Barré syndrome and other
autoimmune diseases. The cause and course of Guillain-Barré syndrome is an active area of neurological investigation, incorporating
the cooperative efforts of neurological scientists, immunologists, and virologists.
How is Guillain-Barré syndrome diagnosed? Guillain-Barré is called a syndrome rather than a disease because it is not clear that a specific disease-causing agent is
involved. A syndrome is a medical condition characterized by a collection of symptoms (what the patient feels) and signs (what
a doctor can observe or measure). The signs and symptoms of the syndrome can be quite varied, so doctors may, on rare occasions,
find it difficult to diagnose Guillain-Barré in its earliest stages.
Several disorders have symptoms similar to those found in Guillain-Barré, so doctors examine and question patients carefully
before making a diagnosis. Collectively, the signs and symptoms form a certain pattern that helps doctors differentiate Guillain-Barré
from other disorders. For example, physicians will note whether the symptoms appear on both sides of the body (most common
in Guillain-Barré) and the quickness with which the symptoms appear (in other disorders, muscle weakness may progress over
months rather than days or weeks). In Guillain-Barré, reflexes such as knee jerks are usually lost. Because the signals traveling
along the nerve are slower, a nerve conduction velocity (NCV) test can give a doctor clues to aid the diagnosis. In Guillain-Barré
patients, the cerebrospinal fluid that bathes the spinal cord and brain contains more protein than usual. Therefore a physician
may decide to perform a spinal tap, a procedure in which the doctor inserts a needle into the patient's lower back to draw
cerebrospinal fluid from the spinal column.
How is Guillain-Barré treated? There is no known cure for Guillain-Barré syndrome. However, there are therapies that lessen the severity of the illness and
accelerate the recovery in most patients. There are also a number of ways to treat the complications of the disease.
Currently, plasma exchange (sometimes called plasmapheresis) and high-dose immunoglobulin therapy are used. Both of them are
equally effective, but immunoglobulin is easier to administer. Plasma exchange is a method by which whole blood is removed
from the body and processed so that the red and white blood cells are separated from the plasma, or liquid portion of the
blood. The blood cells are then returned to the patient without the plasma, which the body quickly replaces. Scientists still
don't know exactly why plasma exchange works, but the technique seems to reduce the severity and duration of the Guillain-Barré
episode. This may be because the plasma portion of the blood contains elements of the immune system that may be toxic to the
myelin.
In high-dose immunoglobulin therapy, doctors give intravenous injections of the proteins that, in small quantities, the immune
system uses naturally to attack invading organisms. Investigators have found that giving high doses of these immunoglobulins,
derived from a pool of thousands of normal donors, to Guillain-Barré patients can lessen the immune attack on the nervous
system. Investigators don't know why or how this works, although several hypotheses have been proposed.
The use of steroid hormones has also been tried as a way to reduce the severity of Guillain-Barré, but controlled clinical
trials have demonstrated that this treatment not only is not effective but may even have a deleterious effect on the disease.
The most critical part of the treatment for this syndrome consists of keeping the patient's body functioning during recovery
of the nervous system. This can sometimes require placing the patient on a respirator, a heart monitor, or other machines
that assist body function. The need for this sophisticated machinery is one reason why Guillain-Barré syndrome patients are
usually treated in hospitals, often in an intensive care ward. In the hospital, doctors can also look for and treat the many
problems that can afflict any paralyzed patient - complications such as pneumonia or bed sores.
Often, even before recovery begins, caregivers may be instructed to manually move the patient's limbs to help keep the muscles
flexible and strong. Later, as the patient begins to recover limb control, physical therapy begins. Carefully planned clinical
trials of new and experimental therapies are the key to improving the treatment of patients with Guillain-Barré syndrome.
Such clinical trials begin with the research of basic and clinical scientists who, working with clinicians, identify new approaches
to treating patients with the disease.
What is the long-term outlook for those with Guillain-Barré syndrome? Guillain-Barré syndrome can be a devastating disorder because of its sudden and unexpected onset. In addition, recovery is
not necessarily quick. As noted above, patients usually reach the point of greatest weakness or paralysis days or weeks after
the first symptoms occur. Symptoms then stabilize at this level for a period of days, weeks, or, sometimes, months. The recovery
period may be as little as a few weeks or as long as a few years. About 30 percent of those with Guillain-Barré still have
a residual weakness after 3 years. About 3 percent may suffer a relapse of muscle weakness and tingling sensations many years
after the initial attack.
Guillain-Barré syndrome patients face not only physical difficulties, but emotionally painful periods as well. It is often
extremely difficult for patients to adjust to sudden paralysis and dependence on others for help with routine daily activities.
Patients sometimes need psychological counseling to help them adapt.
What research is being done? Scientists are concentrating on finding new treatments and refining existing ones. Scientists are also looking at the workings
of the immune system to find which cells are responsible for beginning and carrying out the attack on the nervous system.
The fact that so many cases of Guillain-Barré begin after a viral or bacterial infection suggests that certain characteristics
of some viruses and bacteria may activate the immune system inappropriately. Investigators are searching for those characteristics.
Certain proteins or peptides in viruses and bacteria may be the same as those found in myelin, and the generation of antibodies
to neutralize the invading viruses or bacteria could trigger the attack on the myelin sheath. As noted previously, neurological
scientists, immunologists, virologists, and pharmacologists are all working collaboratively to learn how to prevent this disorder
and to make better therapies available when it strikes.
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:
BRAIN
P.O. Box 5801
Bethesda, MD 20824
(800) 352-9424
http://www.ninds.nih.gov
Information also is available from the following organizations:
GBS/CIDP Foundation International The Holly Building 104 1/2 Forrest Ave. Narberth, PA 19072 info@gbsfi.com http://www.gbsfi.com Tel: 610-667-0131 866-224-3301 Fax: 610-667-7036 |
NIH Publication No. 05-2902
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Last updated July 30, 2008