Duchenne/Becker
Muscular Dystrophy Deletion Detection
Duchenne and Becker
muscular dystrophies (DMD and BMD) are progressive neuromuscular disorders
caused by mutations in the dystrophin gene at Xp21. The more severe Duchenne is
the result of absence of detectable dystrophin while the milder Becker results
when a partially functional protein is still being produced. DMD affects
approximately 1 in 3,500 male births.
Clinical features:
DMD most commonly presents in early childhood with the inability to run normally
and a tendency to walk on the toes.
It can occasionally
present at birth as hypotonia or later as failure to thrive or delayed walking.
The most distinct clinical features are progressive proximal muscular
dysfunction and pseudohypertrophy of the calves. Although the cardiac muscle is
involved, death in most boys is primarily the result of respiratory problems.
The onset is usually before 3 years, with wheelchair dependency by age 12 and
death in the late teens or 20s. The onset of BMD is often in the 20s or 30s and
survival to a relatively advanced age is common.
Inheritance: X-linked recessive. A carrier female has a 25%
chance to have an affected son with each pregnancy (50% chance the child is a
boy and a 50% chance the boy is affected). Each daughter of a carrier female
has a 50% chance to be a carrier herself. However, approximately 1/4 of DMD
cases are thought to be the result of new mutation. Gonadal mosaicism is also
known to exist in DMD/BMD, further complicating risk assessment in families with
a single affected male.
Mutation
information: Deletions in the
dystrophin gene are detected in approximately 60-65% of affected individuals.
Of these deletions, approximately 98% can be detected by polymerase chain
reaction (PCR) using five sets of primers specific for exons within the
dystrophin gene. Since approximately 35% of affected males will not have a
detectable deletion, a negative deletion result does not rule out DMD or BMD.
Indications and
benefits: Testing may be considered
in males with suspicious clinical symptoms. The assay is designed to confirm
the
clinical diagnosis of
Duchenne or Becker Muscular Dystrophy in males. It is not be able to test
heterozygous carriers (females). If a deletion is identified in an affected
male, prenatal diagnosis of DMD/BMD is available for male fetuses in future at
risk pregnancies in the family.
Test methodology: Multiplex
polymerase chain reaction assay is used to test a total of 19 exons of the
dystrophin gene, which will detect 98% of deletions in the dystrophin gene. The
accuracy of this assay is felt to exceed 99%.
Turnaround: Routine 2-3 weeks; Rush 7-10 days Additional
resources: DMD/BMD has many complex genetic issues. We recommend consultation
with a Genetic Counselor in your area to: The
address