Bleeding Disorders

What is it?

A bleeding disorder is an acquired or inherited tendency to bleed excessively. Normally, blood remains in the circulatory system inside the blood vessels. However, if veins or arteries are injured, they will begin to leak blood, either externally or into body tissues. The body stops the blood loss through a complex clotting process called haemostasis. During haemostasis, the injured blood vessel constricts to reduce blood flow, platelets adhere to the injury site and clump together to form a loose platelet plug, and a process of clot formation called the coagulation cascade is initiated.

Once the coagulation cascade has been initiated, coagulation factors are activated one after the other in a sequential process. As the cascade nears completion, soluble fibrinogen (fibrinogen dissolved in fluid) is changed into insoluble fibrin threads. These threads crosslink together to form a fibrin net that then stabilises at the injury site. The fibrin net adheres to the site of injury along with aggregated cell fragments called platelets to form a stable blood clot. This barrier prevents additional blood loss and remains in place until the injured area has healed. Haemostasis is a dynamic process, though, so once a clot is formed, other factors are activated to slow the clotting process. They eventually begin to dissolve the clot in a process called fibrinolysis so that the clot is removed when the injury site is healed. In normal, healthy individuals, this balance between clot formation and dissolution ensures that bleeding does not become excessive and that clots are removed once they are no longer needed.

Bleeding disorders occur when something goes wrong with the clotting process. If a component is missing, deficient, or dysfunctional, excessive bleeding may occur. Such bleeding may be severe, with bleeding episodes beginning in early childhood, or mild, involving bleeding for an extended period of time following surgery, dental procedures, or trauma. Bleeding disorders may cause symptoms that range from nosebleeds, bleeding gums, bruising, heavy menstrual periods, blood in the stool and/or urine to arthritic-type symptoms (damage from bleeding into joints), loss of vision, and chronic anaemia.

Abnormalities may involve: the structure of the blood vessels, the production or function of one or more of the coagulation factors, the development of antibodies against one or more of the factors, the production or function of the platelets, and/or the integrity and stability of the blood clot. Inherited bleeding disorders are rare and tend to be caused by a deficiency or dysfunction of a single coagulation factor or clotting component. The most common are Haemophilia A (factor VIII deficiency) and von Willebrand’s disease (von Willebrand factor is a protein that helps platelets adhere to the injury site). Acquired bleeding disorders are varied and occur more frequently than inherited disorders. Common ones include multiple factor deficiencies caused by liver disease or vitamin K deficiency (since many coagulation factors are produced in the liver and several are vitamin K dependent) and factor inhibitors (especially factor VIII inhibitor, an antibody against factor VIII).

Structural problems with blood vessels

Inherited
Hemorrhagic Telangiectasia -- blood vessels are more fragile than usual leading to recurrent bleeding episodes

Ehlers-Danlos syndrome --collagen that supports blood vessels is unusually weak and elastic, making blood vessels less protected and more prone to injury

Acquired
Henoch-Schonlein purpura --small blood vessels are inflamed and prone to leakage, a condition thought to be an autoimmune response and may be acute or chronic

Platelet deficiency (thrombocytopenia) or dysfunction

Inherited

A variety of rare inherited conditions may cause platelet disorders. The most severe are called Glanzmann's Trombasthenia and Bernard Soulier Syndrome.

Acquired

Bone marrow not producing enough platelets (e.g. leukaemia, aplastic anaemia)

Immune thrombocytopenic purpura (ITP), autoimmune disease; may go away on its own.

Drugs such as quinine, sulfa antibiotics, and gold salts may decrease number of platelets.

Drugs such as aspirin and other non-steroidal anti-inflammatory drugs will affect platelets functions.

Disease-related: HIV, liver disease, kidney failure, cirrhosis of the liver, and systemic lupus erythematosus may all cause decreased platelet counts

Massive blood transfusion (platelet survival is limited in stored blood)

Cardiopulmonary bypass surgery (platelets are activated and become deficient and dysfunctional)

Coagulation Factor deficiency or dysfunction

Inherited

Haemophilia A (Factor VIII deficiency) - X-chromosome linked bleeding disorder that occurs in males and is carried in females. The first bleeding episode may be with circumcision or other procedures as an infant. The severity of the bleeding caused by a factor VIII deficiency depends on its activity level. If it is very low, it may cause spontaneous or severe life-threatening bleeding; if it is moderate, it may only cause mild to moderate bleeding, becoming an issue primarily when having surgery or dental procedures.

von Willebrand’s disease -resulting from defective or decreased von Willebrand factor. Symptoms include bruising, prolonged bleeding from cuts, nosebleeds, heavy periods and bleeding after tooth extration or surgery. Von Willebrand factor is a protein that attaches platelets to the site of a blood vessel injury.

Other factor deficiencies – fibrinogen, II, V, VII, X, IX, (Haemophilia B, also called Christmas disease), XI.

Acquired:

Liver dysfunction or disease
Vitamin K deficiency
Fat malabsorption
Some snake venoms
Therapy for malignancies
Factor inhibitors (antibodies that target a specific clotting factor, such as factor VIII, decreasing its activity and making factor replacement more of a challenge)
Anticoagulant drugs: such as coumadin (warfarin) or heparin; these drugs are used to treat clotting disorders but in excessive amounts may cause bleeding.
Some bacterial infections
Disseminated intravascular coagulation (DIC), may cause both bleeding and clotting. It is usually an acute condition, may be from a complicated childbirth, from an endotoxin produced during a severe infection, with massive tissue damage due to burns or trauma, or due to certain cancers such as leukaemia. DIC causes tiny clot formation throughout the body, using up clotting factors at an accelerated rate, leading to excessive bleeding.

Treatments

There is no cure for most bleeding disorders. Typically, they are identified, monitored, and controlled both to prevent excessive blood loss and to prevent complications that may arise. The degree and frequency of treatment needed will depend on the severity of the deficiency or condition, whether or not there is a stimulus for bleeding – such as surgery or trauma, and whether or not the condition progresses or worsens over time.

Simply avoiding injury, limiting physical contact sports for instance, and setting up the daily environment to avoid cuts, bruises, and trauma may be enough to minimize bleeding episodes in those with mild conditions, and under most circumstances, in those with moderate bleeding tendencies. Someone with severe deficiencies, such as Haemophilia A (factor VIII deficiency), and/or someone who is having an acute bleeding episode will need to have one or more of their coagulation factors replaced. Factor VIII and other individual factors are usually available in a concentrated form that is expensive but effective. Single and multiple factor deficiencies are sometimes treated with transfusions of fresh frozen plasma or plasma concentrates that contain multiple coagulation factors. These concentrates and replacements can be given during a bleeding episode and as a preventative measure before necessary surgeries and dental procedures to control excessive bleeding.

If the bleeding disorder is due to dysfunctional or deficient platelets, they may also be transfused. If the disorder is due to von Willebrand’s disease or a mild form of Haemophilia A, a drug called desmopressin (DDAVP) may be given to improve clotting temporarily. It causes the release of stored factor VIII and VWF, and may temporarily raise levels high enough and long enough to allow procedures to be performed without transfusions.

If a bleeding disorder is due to an acquired condition, it may improve or worsen as the underlying condition is resolved or progresses. If, for instance, factor deficiencies are due to a lack of Vitamin K, they may return to normal with vitamin supplementation. If they are due to liver disease or to a cancer, they will likely follow the course of the disease. If a bleeding disorder is due to or exacerbated by the development of factor antibodies, such as antibodies to factors VIII or IX, alternative factor replacements may need to be given, and/or patients may need to take corticosteroids or other immune-suppressive drugs to reduce their antibody levels.

With an acute condition, such as DIC, immediate treatment may be crucial and complicated. Since DIC involves both clotting and bleeding throughout the body, treatment may involve platelet and clotting factor transfusions as well as heparin or other anticoagulant therapy.