Hemophilia: Causes, Symptoms & Diagnosis

Hemophilia is a rare condition that affects the body’s ability to clot blood, leading to excessive bleeding even from minor injuries. Although it is usually inherited, the severity varies depending on the body’s deficiency in essential blood-clotting proteins.

Hemophilia primarily affects males, though females can be carriers and may also show symptoms. Approximately 400 male babies are born each year with hemophilia A. Understanding the genetic basis, symptoms, and treatments for hemophilia is crucial for effective management and improving the quality of life for those affected.

Understanding Blood Clotting Factors

Understanding blood clotting factors is crucial as they are specialized proteins in the blood that form clots to stop bleeding after an injury. The clotting process involves a series of steps activating these factors in sequence, creating a stable clot to prevent excessive blood loss.

When a clotting factor is missing or deficient due to hemophilia, it disrupts the normal clotting process. This deficiency impedes proper wound healing, causing prolonged bleeding and an increased risk of severe hemorrhages, even from minor injuries or surgeries.

Types of Hemophilia

Hemophilia A, or classic hemophilia, is the most common form caused by a Factor VIII deficiency. It affects 80% of individuals with hemophilia, varying severity by Factor VIII levels. It is inherited in an X-linked recessive pattern, primarily affecting males, while females can be carriers.

Hemophilia B, or Christmas disease, results from a Factor IX deficiency, accounting for 20% of hemophilia cases. It shares similar inheritance patterns and symptoms with Hemophilia A, both of which are X-linked recessive disorders.

A Factor XI deficiency causes Hemophilia C and is much rarer than Hemophilia A and B. It affects males and females equally due to its autosomal recessive inheritance. It usually doesn’t cause spontaneous bleeding but can lead to increased bleeding after surgery or trauma.

Causes of Hemophilia

Each cause has a unique occurrence; understanding these is essential for effective management and treatment. Identifying the specific factors contributing to the condition ensures accurate diagnosis and timely personalized treatment plans.

Inherited Hemophilia

Congenital hemophilia is caused by inherited genetic mutations affecting the production of clotting factors, primarily Factor VIII (Hemophilia A) or Factor IX (Hemophilia B). It follows an X-linked recessive pattern, predominantly affecting males, while females can be carriers and occasionally show mild symptoms.

As a congenital condition, hemophilia is present from birth and affects individuals throughout their lifetime. Babies may exhibit signs of excessive bruising or bleeding from essential medical procedures done at an early stage, like newborn screening, circumcision, or blood sample extraction.

Acquired Hemophilia

Acquired hemophilia occurs when the body’s immune system mistakenly attacks its clotting factors, usually Factor VIII. This rare condition is not inherited and often develops in association with autoimmune diseases, cancers, pregnancy, or certain medications.

Acquired hemophilia can be challenging to diagnose due to the lack of family history. The immune system spontaneously produces antibodies that attack clotting factors, causing abnormal bleeding patterns. Prompt medical attention should be sought at an instance when prolonged bleeding is observed to determine if hemophilia has developed.

Signs and Symptoms of Hemophilia

Being unable to form blood clots leads to several signs and symptoms that affect one’s quality of life. Recognizing the symptoms of hemophilia is critical to managing the condition and seeking timely medical intervention.

Excessive Bleeding

Excessive bleeding is a hallmark of hemophilia due to insufficient clotting factors. Injuries or surgeries cause prolonged bleeding because the blood does not clot properly. Even minor cuts, vaccinations, or a simple blood extraction can lead to significant blood loss, posing severe health risks.

In hemophilia patients, the impaired clotting process leads to frequent, prolonged bleeding, significantly affecting daily life. Routine medical procedures required to diagnose or address other health conditions become dangerous, requiring careful planning and immediate intervention to prevent unintended effects.

Frequent Nosebleeds

Frequent nosebleeds occur in hemophilia due to clotting factor deficiency. These nosebleeds can occur spontaneously after sneezing, clearing your nose, or temperature changes and may be hard to stop. Fragile blood vessels in the nasal passages are prone to bleeding, and the lack of clotting factors exacerbates the issue.

The recurrent nature of these nosebleeds can be particularly troublesome, leading to significant risks over time. This symptom highlights the importance of the clotting process in maintaining vascular integrity and preventing excessive blood loss from even minor sources of bleeding.

Easy Bruising

Bruising easily is common in hemophilia due to a deficiency of clotting factors. These bruises, or hematomas, appear larger or more intense than expected for the injury that caused them. Sometimes, bruises appear without any contributing event, known as spontaneous bruising.

Even minor impacts can cause significant bleeding under the skin when deficient clotting factors. A lack of adequate clotting factors makes blood vessels more prone to leaking blood into surrounding tissues. Spontaneous bruising can affect physical activities, causing discomfort and visible skin marks, which cause concern for the individual. 

Pain and Swelling

Pain and swelling can be symptoms of internal bleeding, even when there is no apparent injury. This often occurs when blood leaks into joints and muscles. The accumulation of blood puts pressure on joints and tissues, causing discomfort and swelling.

In hemophilia, repeated bleeding episodes can lead to chronic joint damage and arthritis. Over time, continuous bleeding in the same joints causes synovial inflammation and destruction, severely affecting mobility and quality of life.

Blood in Urine or Stool

In hemophilia, blood in the urine, known as hematuria, results from internal bleeding related to the urinary tract. Deficient clotting factors cause bleeding in the kidneys, bladder, or ureters, leading to pink, red, or brown-colored urine, which can be triggered by minor trauma or infections.

In the gastrointestinal tract, inadequate clotting factors result in blood vessel leakage, causing bleeding from the stomach lining, intestines, or rectum. This appears as melena, leading to bright red or dark, tarry stools, depending on the origin of the bleeding, requiring immediate medical attention.

Heavy Menstruation Flow

Heavy menstrual flow, or menorrhagia, is a symptom of hemophilia due to a deficiency of clotting factors needed to regulate menstrual bleeding. In women with hemophilia or carriers of the gene, reduced levels of clotting factors impair the body’s ability to control bleeding.

During menstruation, the endometrial lining sheds, exposing uterine blood vessels. Typically, clotting factors limit blood loss by forming clots. In hemophilia, insufficient clotting factors cause prolonged and excessive menstrual bleeding, leading to heavy periods, anemia, and fatigue, significantly impacting quality of life.

Spontaneous Bleeding

Spontaneous bleeding is a severe complication of hemophilia, often occurring in joints and deep muscle tissues without apparent injury. This leads to pain, swelling, and limited mobility. Knees, elbows, and ankles are commonly affected, and if not properly managed, it can cause chronic joint damage.

In addition to joint bleeding, spontaneous bleeding in deep muscle tissues can cause significant, painful hematomas. These internal bleeds can compress nerves and blood vessels, leading to complications such as muscle weakness, numbness, and reduced limb function.

Complications Associated with Hemophilia

Due to its impact on the body’s clotting factors, hemophilia can lead to various complications, some of which can have long-term consequences. These can significantly affect one’s quality of life and require careful management.

Anemia

Anemia can occur in individuals with hemophilia due to significant blood loss from frequent or severe bleeding episodes. Hemophilia impairs clotting, so even minor injuries cause prolonged bleeding, reducing red blood cell count and leading to fatigue, weakness, and pale skin.

The ongoing effort to replenish lost blood continuously strains the body, worsening tiredness and malaise. Untreated anemia can severely impact energy levels and health over time. Chronic fatigue and weakness can interfere with daily activities and reduce the quality of life.

Joint Damage

Repeated bleeding into the joints, known as hemarthrosis, is a common and debilitating complication of hemophilia. These bleeding episodes cause severe pain, swelling, and decreased joint mobility due to the localized injury to the joints.

Over time, recurrent joint bleeds can lead to chronic damage, arthritis, and deformities. Commonly affected joints like knees, elbows, and ankles become functionally impaired, making movement and daily tasks difficult and significantly impacting activities.

Internal Bleeding

Internal bleeding in hemophilia affects muscles, organs, and tissues. The blood doesn’t clot properly, and internal injuries can lead to significant blood loss and damage. Symptoms include severe pain, swelling, and signs of shock like low blood pressure and rapid heart rate.

Bleeding into joints, muscles, or other tissues causes significant pain, which infants cannot verbally express. This pain leads to increased crying, fussiness, and general irritability. The risk of unnoticed blood loss can lead to organ damage and severe health complications, necessitating vigilant monitoring and swift medical response.

Brain Hemorrhages

Intracranial hemorrhages, or bleeding within the skull, are among the most dangerous hemophilia complications, potentially causing severe brain damage, neurological issues, or death. Symptoms like severe headaches, vomiting, seizures, and loss of consciousness indicate a medical emergency requiring immediate attention.

Immediate treatment is crucial to manage intracranial hemorrhages and reduce the risk of long-term neurological damage or fatality. The bleeding increases pressure within the skull, potentially causing irreversible brain injury and severe consequences.

When to Seek Medical Help

Knowing when to see your doctor is crucial for managing hemophilia. Spontaneous bleeding, unusual bruising, and severe pain and swelling, particularly in joints or muscles, are signs that your clotting factor levels may be deficient and need adjustment.

Immediately address any head injury, even minor ones, due to the risk of intracranial hemorrhage. Reassess your treatment plan if symptoms worsen or fail to respond to current treatments.

Confirming Hemophilia

When diagnosing hemophilia, various procedures are employed to determine the presence and type of this bleeding disorder accurately. These diagnostic methods are designed to assess risk, identify specific deficiencies in clotting factors, and guide effective treatment strategies.

Physical Exam and History Review

The first steps in diagnosing hemophilia are a physical exam and a history review. The healthcare provider examines for excessive bruising, joint swelling, and prolonged bleeding. They also check for reduced range of motion, particularly in the knees, elbows, and ankles.

A detailed family and personal medical history help identify any history of bleeding disorders. This context is crucial for diagnosing hemophilia, involving questions about family members with bleeding disorders, frequency and severity of bleeding episodes, and any previous diagnoses or treatments.

Blood Tests

The activated partial thromboplastin time (aPTT) test measures clotting time to identify deficiencies in factors VIII and IX. The prothrombin time (PT) test assesses overall clotting, helping to rule out other disorders. A factor assay measures individual clotting factors, confirming the type and severity.

A Complete Blood Count (CBC) evaluates blood health, including red and white blood cells and platelets, to exclude other conditions. This helps differentiate hemophilia from similar disorders and detects secondary complications such as anemia or infection, further guiding the diagnostic process.

Genetic Testing

Genetic testing identifies mutations in the genes responsible for producing clotting factors. It confirms a diagnosis of hemophilia, identifies carriers, and determines the specific type and severity. This testing provides precise information about the genetic basis of hemophilia.

This information is valuable for families planning to have children. It helps assess the risk of passing the condition to future generations. Knowing carrier status and specific genetic mutations aids in making informed reproductive decisions and preparing for potential medical interventions.

Newborn Screening

Umbilical cord blood testing is performed immediately after birth for families with a history of hemophilia. This test measures clotting factor levels in the newborn’s blood, providing an early diagnosis and identifying hemophilia’s specific type and severity.

Early diagnosis through cord blood testing enables prompt intervention and management, helping prevent complications. Timely detection allows healthcare providers to develop a tailored care plan, ensuring the newborn receives appropriate medical attention at the earliest possible time.

Management of Hemophilia

Effective management of hemophilia requires a comprehensive approach tailored to the individual’s condition and lifestyle. Treatment strategies aim to prevent bleeding episodes, manage symptoms, and maintain a high quality of life.

Replacement Therapy

Replacement therapy is a cornerstone in managing hemophilia. It involves infusing the missing clotting factor into the bloodstream using plasma-derived or recombinant clotting factors. Regular infusions prevent spontaneous bleeding episodes and treat uncontrolled bleeding when it occurs.

Replacement therapy can also be administered on a schedule to prevent bleeds (prophylaxis) or on-demand to treat acute bleeding episodes for those who are at greater risk due to activity or occupation. This proactive approach maintains adequate clotting factor levels, preventing complications and improving the life of individuals with hemophilia.

Medications

Various medications can be prescribed to manage hemophilia or its symptoms. For instance, antifibrinolytic medicines can prevent blood clots from breaking down too quickly, which is particularly useful during dental procedures or after surgery.

Desmopressin may be used in mild Hemophilia A to stimulate the release of stored factor VIII, temporarily increasing levels to control bleeding. Concentrated FVIII or FIX products can be administered to increase clotting factor levels, effectively managing bleeding episodes directly.

Physical Therapy

Physical therapy is essential in managing hemophilia, particularly for those with joint damage from repeated bleeding episodes. A licensed physical therapist can create a safe program to strengthen muscles around joints, improve range of motion, and reduce pain while reducing injury or further bleeding risks.

This approach not only aids recovery from bleeding episodes but also helps prevent future bleeds by maintaining joint health and function. Regular physical therapy can significantly improve mobility and reduce the risk of long-term joint complications associated with hemophilia.

Regular Check-ups and Monitoring

Regular visits to a hematologist or specialized hemophilia treatment center are essential for effective management. These appointments help monitor the patient’s condition, ensure safe clotting factor levels, and refer to a different healthcare team member to promptly address new symptoms or complications.

Continuous care allows healthcare providers to adjust treatments based on the patient’s health status and response to therapy. This proactive approach helps manage complications early, prevent severe bleeding episodes, and improve the overall quality of life for individuals with hemophilia.

Preventing Hemophilia Complications

While hemophilia itself cannot be prevented entirely as it is a genetic disorder, various strategies can help avoid triggering events, minimize its complications, and improve the quality of life of those affected.

Testing During Pregnancy

Prenatal testing is an option for expecting parents with a family history of hemophilia or those known to be carriers of the condition. This testing helps determine if the fetus has inherited the genetic mutations linked to hemophilia.

Procedures like amniocentesis or chorionic villus sampling (CVS) analyze the fetus’s DNA for hemophilia mutations. These tests provide early pregnancy information, enabling informed decisions and preparation for medical needs. Knowing the baby’s hemophilia status helps healthcare providers plan a safe delivery and immediate postnatal care.

Administering Prevention Doses

Prophylaxis involves regularly administering clotting factor concentrates to maintain sufficient blood levels and prevent bleeding episodes. While it does not treat active bleeds, prophylaxis significantly reduces the risk and frequency of spontaneous bleeding, helping prevent long-term complications associated with hemophilia.

Prophylaxis protects joints and muscles from repeated bleeding episodes by maintaining adequate clotting factor levels, preventing chronic pain and mobility issues. This approach improves the overall quality of life for individuals with hemophilia and reduces the need for emergency treatments.

Vaccination Against Related Diseases

Vaccination doesn’t directly treat hemophilia but prevents infections that could complicate the condition. Despite reduced modern treatment risks, individuals with hemophilia are encouraged to receive hepatitis A and B vaccinations due to the potential risk of blood-borne infections through factor concentrate products.

Ensuring all vaccinations are up-to-date prevents illnesses that could exacerbate bleeding problems or lead to complications requiring interventions with bleeding risks. Staying current with vaccinations supports overall health and reduces additional health challenges for those with hemophilia.

Frequently Asked Questions

What is the inheritance pattern of hemophilia?

Hemophilia is typically inherited in an X-linked recessive pattern, with the defective gene on the X chromosome. Since males have only one X chromosome, they are more likely to be affected if they inherit the faulty gene.

Females with two X chromosomes can be carriers if they inherit one affected X chromosome but rarely exhibit severe symptoms. Carriers have a 50% chance of passing the defective gene to their sons with hemophilia and daughters who may be carriers.

How is hemophilia diagnosed?

Hemophilia is diagnosed through assessment, blood tests, and genetic testing. Healthcare providers initially inquire about any known cases of bleeding disorders in the family, as hemophilia is often inherited, and conduct a physical assessment for signs of excessive bleeding or bruising.

Blood tests, including Complete Blood Count (CBC), activated partial thromboplastin time (aPTT), prothrombin time (PT), and factor assays, evaluate blood clotting and identify deficiencies. Genetic and prenatal testing detect hemophilia mutations and assess inheritance risk. Newborn screening confirms hemophilia at birth in families with a history of the condition.

What happens if hemophilia is left untreated?

If hemophilia is left untreated, it can lead to severe complications and significantly impact quality of life. Individuals may experience frequent and prolonged bleeding episodes, even from minor injuries, which can result in substantial blood loss and anemia.

Repeated bleeding into joints, known as hemarthrosis, causes severe pain and swelling and can lead to chronic joint damage and arthritis. Untreated hemophilia increases the risk of life-threatening internal bleeding, such as intracranial hemorrhages, which can result in brain damage, neurological issues, or death.

What are the available treatments for hemophilia?

The primary treatment for hemophilia involves replacement therapy, which includes infusing the missing clotting factor into the bloodstream to prevent and control bleeding episodes. Medications like antifibrinolytics and desmopressin also manage symptoms and avoid clot breakdown.

Additionally, physical therapy is crucial for individuals with joint damage. It helps strengthen muscles, improve range of motion, and reduce pain. Regular visits to a hematologist or specialized hemophilia treatment center are essential for effectively managing this lifelong condition.