Muscular dystrophy (MD) is a genetic disorder that gradually weakens the body's muscles. It's caused by incorrect or missing genetic information that prevents the body from making the proteins needed to build and maintain healthy muscles.
A child who is diagnosed with MD gradually loses the ability to do things like walk, sit upright, breathe easily, and move the arms and hands. This increasing weakness can lead to other health problems.
There are several major forms of muscular dystrophy, which can affect the muscles to varying degrees. In some cases, MD starts causing muscle problems in infancy; in others, symptoms don't appear until adulthood.
There is no cure for MD, but researchers are quickly learning more about how to prevent and treat it. Doctors are also working on improving muscle and joint function and slowing muscle deterioration so that those with MD can live as actively and independently as possible.
Many kids with muscular dystrophy follow a normal pattern of development during their first few years of life. But in time common symptoms begin to appear. A child who has MD may start to stumble, waddle, have difficulty going up stairs, and toe walk (walk on the toes without the heels hitting the floor). A child may start to struggle to get up from a sitting position or have a hard time pushing things, like a wagon or a tricycle.
Kids with MD often develop enlarged calf muscles (called calf pseudohypertrophy) as muscle tissue is destroyed and replaced by fat.
When first suspecting that a child has muscular dystrophy, a doctor will do a physical exam, take a family history, and ask about any problems — particularly those affecting the muscles — that the child might be having.
In addition, the doctor may perform tests to determine what type of MD is involved and to rule out other diseases that could cause the problem. These might include a blood test to measure levels of serum creatine kinase, an enzyme that's released into the bloodstream when muscle fibers are deteriorating. Elevated levels indicate that something is causing muscle damage.
The doctor also may do a blood test to check the DNA for gene abnormalities or a muscle biopsy to look for patterns of deterioration and abnormal levels of dystrophin, a protein that helps muscle cells keep their shape and length.
The different types of muscular dystrophy affect different sets of muscles and result in different degrees of muscle weakness.
Duchenne muscular dystrophy is the most common and the most severe form of MD. It affects about 1 out of every 3,500 boys. (Girls can carry the gene that causes the disease, but they usually have no symptoms.) This form occurs because of a problem with the gene that makes dystrophin. Without this protein, the muscles break down and a child becomes weaker.
In cases of Duchenne MD, symptoms usually appear around age 5, as the pelvic muscles begin to weaken. Most kids with this form need to use a wheelchair by age 12. Over time, their muscles weaken in the shoulders, back, arms, and legs.
Eventually, the respiratory muscles are affected, and a ventilator is required to assist breathing. Kids who have Duchenne MD typically have a life span of about 20 years.
Although most kids with Duchenne MD have average intelligence, about a third experience learning disabilities and a small number are intellectually disabled.
While the incidence of Duchenne is known, it's unclear how common other forms of MD are because the symptoms can vary so widely between individuals. In fact, in some people the symptoms are so mild that the disease goes undiagnosed.
Becker muscular dystrophy is similar to Duchenne, but is less common and progresses more slowly. This form of MD, which affects approximately 1 in 30,000 boys, is caused by insufficient production of dystrophin, too.
Symptoms begin during the teen years, then follow a pattern similar to Duchenne MD. Muscle weakness first begins in the pelvic muscles, then moves into the shoulders and back. Many children with Becker MD have a normal life span and can lead long, active lives without the use of a wheelchair.
Myotonic dystrophy, also known as Steinert's disease, is the most common adult form of MD, although half of all cases are diagnosed in people under 20 years old. It is caused by a portion of a particular gene that is larger than it should be. The symptoms can appear at any time during a child's life.
The main symptoms include muscle weakness, myotonia (in which the muscles have trouble relaxing once they contract), and muscle wasting (when the muscles shrink over time). Kids with myotonic dystrophy also can experience cataracts and heart problems.
Limb-girdle muscular dystrophy affects boys and girls equally. Symptoms usually start when kids are between 8 and 15 years old. This form progresses slowly, affecting the pelvic, shoulder, and back muscles. The severity of muscle weakness varies — some kids have only mild weakness while others develop severe disabilities and as adults need to use a wheelchair.
Facioscapulohumeral muscular dystrophy can affect both boys and girls, and the symptoms usually first appear during the teen years. It tends to progress slowly.
Muscle weakness first develops in the face, making it difficult for a child to close the eyes, whistle, or puff out the cheeks. The shoulder and back muscles gradually become weak, and kids have difficulty lifting objects or raising their hands overhead. Over time, the legs and pelvic muscles also may lose strength.
Other types of MD, which are rare, include distal, ocular, oculopharyngeal, and Emery-Dreifuss.
Though there's no cure for MD yet, doctors are working to improve muscle and joint function, and slow muscle deterioration.
If your child is diagnosed with MD, a team of medical specialists will work with you and your family, including: a neurologist, orthopedist, pulmonologist, physical and occupational therapist, nurse practitioner, cardiologist, registered dietician, and a social worker.
Muscular dystrophy is often degenerative, so kids may pass through different stages as it progresses and require different kinds of treatment. During the early stages, physical therapy, joint bracing, and medications are often used.
During the later stages, doctors may use assistive devices such as:
physical therapy and bracing to improve flexibility
power wheelchairs and scooters to improve mobility
a ventilator to support breathing
robotics to help your child perform routine daily tasks
Physical Therapy and Bracing
Physical therapy can help a child maintain muscle tone and reduce the severity of joint contractures with exercises that keep the muscles strong and the joints flexible.
A physical therapist also uses bracing to help prevent joint contractures, a stiffening of the muscles near the joints that can make it harder to move and can lock the joints in painful positions. By providing extra support in just the right places, bracing can extend the time that a child with MD can walk independently.
If a child has Duchenne muscular dystrophy, the doctor may prescribe the steroid prednisone to help slow the rate of muscle deterioration. By doing so, the child may be able to walk longer and live a more active life.
There is some debate over the best time to begin prednisone treatment, but most doctors prescribe it when a child is 5 or 6 years old or when the child's strength begins to significantly decline. Prednisone does have side effects, though. It can cause weight gain, which can put even greater strain on already weak muscles. It also can cause a loss of bone density and, possibly, lead to fractures. If prescribing prednisone, your doctor will closely monitor your child.
Many children with the Duchenne and Becker forms of MD develop severe scoliosis — an S- or C-shaped curvature of the spine caused by back muscles that are too weak to hold the spine erect.
Some kids with severe cases undergo spinal fusion, a surgery that can reduce pain, lessen the severity of the curvature so that a child can sit upright and comfortably in a chair, and ensure that the spine curvature doesn't have an effect on breathing. Usually, spinal fusion surgery only requires a short hospital stay.
Many kids with MD also have weakened heart and respiratory muscles. As a result, they can't cough out phlegm and sometimes develop respiratory infections that can quickly become serious. Good general health care and regular vaccinations are especially important for children with muscular dystrophy to help prevent these infections.
A variety of new technologies can provide independence and mobility for kids with muscular dystrophy.
Some kids with Duchenne MD might use a manual wheelchair once it becomes difficult to walk. Others go directly to a motorized wheelchair, which can be equipped to meet their needs as muscle deterioration advances.
Robotic technologies also are under development to help kids move their arms and perform activities of daily living.
If your child would benefit from an assistive technological device, contact your local chapter of the Muscular Dystrophy Association to ask about financial assistance that might be available. In some cases, health insurers cover the cost of these devices.
The Search for a Cure
Researchers are quickly learning more about what causes the genetic disorder that leads to muscular dystrophy, and about possible treatments for the disease.
To learn more about the most current research on MD, contact the local chapter of the Muscular Dystrophy Association or talk to your doctor, who also can tell you about clinical trials on MD.