Duchenne Muscular Dystrophy Health Article

Duchenne muscular dystrophy

The first symptoms of Duchenne muscular dystrophy are usually noticed in early childhood. Delays in developmental milestones, such as sitting and standing, are common. The affected child's gait is often a characteristic waddle or toe-walk. He often stumbles, and running is difficult. While parents notice these symptoms retrospectively, and may notice them at the time, muscular dystrophy often is not suspected until additional signs are apparent. By the age of four to five years, it is difficult for the child to climb stairs or rise from a sitting position on the floor. It is around this time that the diagnosis is usually made. A particular method, called the Gower sign is used by the child to raise himself from sitting on the floor. These motor problems are caused by weakness in large muscles close to the center of the body (proximal).

Although some muscles, such as the calves, appear to be large and defined, the muscle is actually atrophied and weak. It appears large because deposits of fatty, fibrous tissue are replacing muscle tissue. Enlarged calves are a characteristic sign of Duchenne muscular dystrophy, and are said have pseudohypertrophy. "Pseudo" means false, "hyper" is excessive, and "trophy" is growth or nourishment. Other muscles may also have pseudohypertophy. These muscles feel firm if massaged.

The weakness begins at the center of the body (the pelvis) and progresses outward from the hips and shoulders to the large muscles of the legs, lower trunk, and arms. The weakness is symmetrical; i.e., both sides of the body are equally weak. Early signs of weakness, such as stumbling and difficulty climbing, progress to the point that the affected boy is unable to walk. Boys with Duchenne muscular dystrophy usually require wheelchairs by the age of 12 years. Eventually the muscles that support the neck are affected. The muscles of the digestive tract are affected in some males in the later stages of the disease. Contractures and scoliosis develop. Some boys also have learning disabilities or mild mental retardation.

Definition

The group of conditions called muscular dystrophies are characterized by muscle weakness and degeneration. Duchenne is a relatively common, severe muscular dystrophy. Becker muscular dystrophy is less common and less severe. Becker and Duchenne muscular dystrophy were once considered to be separate conditions. In the 1990s, researchers showed that Duchenne and Becker muscular dystrophy have the same etiology (underlying cause). However, the two disorders remain distinct based on different ages on onset, rates of progression, and some distinct symptoms.

Description

Duchenne muscular dystrophy (DMD) and Becker muscular dystrophy (BMD) are both defined by progressive muscle weakness and atrophy. Both conditions are caused by a mutation in the same gene and usually affect only boys. Symptoms of Duchenne muscular dystrophy usually begin in childhood, and boys with DMD are often in wheelchairs by the age of 12 years. Symptoms of Becker muscular dystrophy begin later, and men with BMD typically do not require wheelchairs until their 20s.

Boys with Duchenne muscular dystrophy are usually diagnosed at a young age. Boys with Becker muscular dystrophy are diagnosed much later. Both conditions are progressive, although DMD progresses more quickly than BMD. Unfortunately, no treatments exist to slow or prevent progression of the disease. Skeletal muscles are affected initially. Eventually the muscles of the heart are also affected, and both conditions are fatal. The life expectancy of males with Duchenne and Becker is 18 years and approximately 45 years, respectively. Both conditions are caused by disorders of the muscle, not of the nerves that control the muscle.

Genetic profile

Duchenne and Becker muscular dystrophy are both caused by mutations in the DMD gene on the X chromosome. This is an exceptionally large gene, and control of its expression is complex.

Humans each have 46 chromosomes, of which 23 are inherited from the mother and 23 are inherited from the father. The sets of 23 chromosomes are complimentary: each contains the same set of genes. Therefore, every human has a pair of every gene. Genes are the sequences of DNA that encode instructions for growth, development, and functioning. One of the 23 pairs of chromosomes may not be complimentary: the sex chromosomes. Boys have an X chromosome and a Y chromosome. Girls have two X chromosomes.

Scientists often say that every person has the same genes, and that the genes on a pair of complimentary chromosomes are the same. It is true that a specific gene at a specific place on each chromosome provides the body with a very specific instruction, i.e. plays a particular functional role. However, most genes have multiple forms. Scientists call the various forms of a gene alleles. A given gene may have multiple alleles that function normally and multiple alleles that lead to physical problems.

Mutations (changes) in the DMD gene cause Duchenne and Becker muscular dystrophy. The DMD gene provides instructions for a protein called dystrophin. Mutations in DMD associated with Duchenne often completely disrupt production of dystrophin, such that no dystrophin is present. Mutations in DMD associated with Becker lead to a reduced amount of dystrophin being made and/or abnormal dystrophin. Certain mutations (alleles) in the DMD gene lead to the symptoms of DMD and other mutations lead to the symptoms of BMD.