The genetic factors that cause
hemophilia are passed down through the X
chromosome. Every male has one X chromosome and one Y
chromosome. Every female has two X chromosomes. Males inherit a Y chromosome
from their father and an X chromosome from their mother; females inherit an X
chromosome from each parent.
The chance that a child will inherit hemophilia depends upon whether
he or she inherits an affected gene from one or both parents. Hemophilia
affects men almost exclusively. Females may be a
carrier of the gene that causes hemophilia but will
not usually have any signs or symptoms of the disease. A female who is a
carrier usually has one defective gene on the X chromosome and one normal gene
on the X chromosome. When she has a normal working chromosome, she won't have
symptoms. She has a 50% chance of passing on the defective gene to her
children. If a woman who is a carrier is affected by hemophilia, the symptoms
are usually very mild. In rare cases, a woman gets a defective gene from both
her mother and her father and is born with hemophilia.
Hemophilia can also develop when the gene that is responsible for
producing clotting factors changes (mutates). In this case, hemophilia is not
inherited; the person in whom the gene changes will be the first person in a
family to have hemophilia or will be a carrier. The person may pass this gene
down to any children that he or she has.
Here are some examples of the genetics of hemophilia. The chance of having hemophilia depends on whether the parents have hemophilia or are carriers.
If the father has hemophilia and the mother is a
carrier, sons will have a 50% chance of having hemophilia. Daughters will have
a 50% chance of having hemophilia and a 50% chance of being a carrier. It is
very rare for both parents to have these defective genes.
father does not have hemophilia and the mother is a carrier, sons will have a
50% chance of having hemophilia. Daughters will have a 50% chance of being
If the father has hemophilia and the mother has normal
blood, all sons will be normal and all daughters will be carriers.
How this information was developed to help you make better health decisions.