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Hemophilia B
(Factor IX Deficiency)
What Is It?
Hemophilia is a bleeding disorder caused by a deficiency in one of the
blood clotting factors. Hemophilia B (also called "Christmas disease" after
Stephen Christmas, a British boy in the 20th century who was first diagnosed
with
it) is a deficiency in clotting factor IX.
Hemophilia A is seven times more common than hemophilia B. The incidence
of hemophilia B is one in 34,500 men.
Hemophilia B is a hereditary disorder in which the clotting ability of the
blood is impaired and prolonged bleeding results. Small wounds and punctures
are usually not a problem. But uncontrolled internal bleeding can result
in pain, swelling and permanent damage, especially to joints and muscles.
The outcome is good with treatment and management. Most people with hemophilia
B are able to lead relatively normal lives.
Inheritance Pattern
Hemophilia B is caused by an inherited sex-linked recessive trait with the
defective gene located on the X chromosome. Females are carriers of this
trait. Fifty percent of the male offspring of female carriers will have
the disease, and 50% of their female offspring will be carriers. All female
children of a male with hemophilia will be carriers of the trait.
One fifth of all cases of hemophilia B occur when there is no family history
of the disorder. In these cases, hemophilia develops as the result of a
new or spontaneous gene mutation.
Genetic counseling may be advised for carriers. Female carriers can be identified
by testing.
A woman is definitely a hemophilia carrier if she
is:
• the biological daughter of a man with hemophilia;
• the biological mother of more than one son with hemophilia; • the
biological mother of one son with hemophilia and has at least one other blood
relative with hemophilia.
A woman may or may not be a hemophilia carrier if
she is:
• the biological mother of one son with hemophilia;
• the sister of a male with hemophilia;
• an aunt, cousin or niece of an affected male related through maternal
ties;
• the biological grandmother of one grandson with hemophilia.
Symptoms and Diagnosis
Hemophilia is caused by several different gene abnormalities. The severity
of hemophilia B symptoms depends on how a particular gene abnormality affects
the activity of factor IX. When the activity is less than 1% of normal,
episodes of prolonged bleeding may occur for no apparent reason.
Severity of symptoms can vary, but severe forms become apparent early on.
Prolonged bleeding is the disease's hallmark and typically manifests itself
when an infant is circumcised. Additional bleeding manifestations make their
appearance when the infant becomes mobile. Mild cases may go unnoticed until
later in life, when they occur in response to surgery or trauma. Internal
bleeding may occur anywhere and bleeding into joints is common.
Risk factors are a family history of bleeding and being male. The incidence
of hemophilia B is one in 34,500 men.
Symptoms include:
• nosebleeds
• bruising
• dpontaneous bleeding
• bleeding into joints and associated pain and swelling
• gastrointestinal tract and urinary tract hemorrhage
• blood in the urine or stool
• prolonged bleeding from cuts, tooth extraction and surgery
• prolonged bleeding following circumcision
People whose clotting activity is 5% of normal may have only mild hemophilia.
They rarely have unprovoked bleeding episodes, but surgery or injury may
cause uncontrolled bleeding, which can be fatal. Milder hemophilia may not
be diagnosed at all, although some people whose clotting activity is 10%
to 25% of normal may bleed excessively after surgery, dental extractions
or a major injury.
Generally, the first bleeding episode occurs before 18 months of age, often
after a minor injury. A child who has hemophilia bruises easily. Even an
injection into a muscle can cause bleeding that results in a large bruise
(hematoma). Continuous bleeding into the joints and muscles can ultimately
lead to crippling deformities. Bleeding can swell the base of the tongue
until it blocks the airway, making breathing difficult. A slight bump on
the head can trigger substantial bleeding in the skull, causing brain damage
and death.
A doctor may suspect hemophilia in a child whose bleeding is unusual. A
laboratory analysis of blood samples can determine whether the child's clotting
is abnormally slow. If it is, the doctor can confirm the diagnosis of hemophilia
and determine the severity by testing the activity of factor IX.
Coagulation studies involving many tests are performed if the person tested
is the first one in the family to have the bleeding disorder. Once the defect
has been identified, other family members will need less testing to diagnose
the disorder.
Treatments
Like hemophilia A, hemophilia B is typically treated by infusing the missing
clotting factor. The amount infused depends upon the severity of bleeding,
the site of the bleeding and the size of the patient. A hepatitis B vaccine
is recommended for individuals with hemophilia B because they are at increased
risk of developing hepatitis due to exposure to blood products.
Clotting factors are found in plasma and, to a greater extent, in plasma
concentrates. Some plasma concentrates are intended for home use and can
be self-administered, either on a regular basis to prevent bleeding or at
the first sign of bleeding. More often, they are administered three times
a week (prophylaxis), but both the dose and frequency depend on the severity
of the bleeding problem. The dose is adjusted according to the results of
periodic blood tests. During a bleeding episode, more clotting factors are
needed. Treatment should be coordinated by a healthcare practitioner who
is an expert on the disease.
To prevent a bleeding crisis, people with hemophilia and their families
can be taught to administer factor IX concentrates at home at the first
signs of bleeding. People with severe forms of the disease may need regular
prophylaxis infusions two to three times a week. Depending on the severity
of the disease, factor IX concentrate may be given prior to dental extractions
and surgery to prevent bleeding.
Gene therapy and fetal tissue implant techniques are under study as possible
treatments.
People who have hemophilia should avoid situations that might provoke bleeding.
They should be conscientious about dental care so they won't need to have
teeth extracted. If people who have milder forms of hemophilia need to have
dental or other surgery, the drug desmopressin acetate (DDAVP) may be given
to improve clotting temporarily so that transfusions can be avoided.
People who have hemophilia should also avoid certain drugs that can aggravate
bleeding problems:
• aspirin
• heparin
• warfarin
• certain analgesics, such as nonsteroidal antiinflammatory drugs
The National Hemophilia Foundation's Medical and Scientific Advisory Council
(MASAC) made recommendations for treatment of hemophilia B in November of
1999. They include:
• Recombinant factor IX products for patients who are HIV seronegative,
especially for young and newly diagnosed patients who have not received
any blood or plasma-derived products.
• Today, plasma-derived factor IX products offer greatly reduced risk
for HIV and hepatitis B and C transmission, but there is still some risk.
Dry heating, solvent-detergent treatment, vapor treatment and sodium thiocyanate
plus ultrafiltration and are all effective purification steps, but there
remains a slight possibility of viral transmission.
• Patients who are HIV-seropositive should also be treated with high
purity products such as immunoaffinity purified and recombinant factor
VIII products.
• For patients with inhibitors to factors VIII and IX, there is Recombinant
Factor VIIa (NovoSeven). Produced by baby hamster kidney cells, no human
albumin or other proteins are used in its production, reducing virus risk.
There is also Porcine factor VIII (Hyate C) and activated prothrombin complex
concentrates.
Complications
• Chronic joint deformities, caused by recurrent bleeding into the
joint, may be managed by an orthopedic specialist.
• Intracerebral hemorrhage may also occur.
• Thrombosis may occur following use of factor IX concentrate.
Some persons with hemophilia develop antibodies to transfused factor IX.
As a result, transfusions become ineffective. If antibodies are detected
in blood samples, the dosage of the plasma concentrates may be increased,
or different types of clotting factors or drugs to reduce the antibody levels
may be used.
In the past, plasma concentrates carried the risk of transmitting blood-borne
diseases such as hepatitis and AIDS. About 60% of persons with hemophilia
who were treated with plasma concentrates in the early 1980s were infected
with HIV. However, the risk of transmitting HIV infection through plasma
concentrates has been virtually eliminated by today's use of screened and
processed blood.
Disclaimer
The information contained on the NHF web site is provided for your general
information only. NHF does not give medical advice or engage in the practice
of medicine. NHF under no circumstances recommends particular treatment
for specific individuals and in all cases recommends that you consult your
physician or local treatment center before pursuing any course of treatment.
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