Complement Component C4c

The Complement Component C4c test contains 1 test with 1 biomarker.

Brief Description: The Complement Component C4c test measures the levels of Complement Component C4c in the blood. Complement proteins are an integral part of the immune system, aiding in the body's defense against infections and contributing to inflammation regulation. C4c is a fragment of Complement Component C4 and plays a role in several immune responses.

Also Known As: C4 Test, Complement C4 Test, Complement Test

Collection Method: Blood Draw

Specimen Type: Serum

Test Preparation: Overnight fasting is preferred

When is a Complement Component C4c test ordered?

When a person exhibits inexplicable edema, inflammation, or indications of an autoimmune condition like SLE, complement testing may be mandated. It may also be requested when a medical professional wants to assess the complement system of a patient who they suspect may have an immune complex-related disease.

When the total complement activity is abnormal, individual complement components may be ordered to help identify which ones are lacking or defective. The most usually prescribed levels are C3 and C4, however when additional shortages are detected, other levels, such C1 inhibitor, may also be required. Because the relative levels are frequently significant, C3 and C4 are frequently ordered together.

Complement testing may be used to provide a general assessment of the severity of an acute or chronic ailment after a diagnosis, with the underlying supposition that the severity is related to the decline in complement levels. When a doctor wishes to track the progression of a problem, they could occasionally order complement testing.

What does a Complement Component C4c blood test check for?

More than 30 circulating blood proteins make up the intricate complement system, which functions to support inflammatory and immunological responses. Its main function is to eliminate invading infections like viruses and bacteria. When the body produces antibodies against its own tissues that it misinterprets as foreign, the complement system can also be activated. The amount or activity of complement proteins in the blood is measured by complement assays.

A component of the body's innate immune system is the complement system. The innate immune system is non-specific and rapid to react to external molecules, in contrast to the acquired immune system, which generates antibodies that target and defend against specific threats. It does not require prior exposure to an invasive drug or bacterium and does not keep track of prior interactions.

The primary complement proteins are numbered C1 through C9. There are nine of them. Together with the remaining proteins, these elements form complexes that react to infections, non-self tissues, dead cells, and inflammation by activating, amplifying, breaking apart, and generating cascades.

There are numerous strategies to start complement activation. These are known as lectin, alternative, or classical routes. However, the development of the membrane attack complex is the common result of all activation mechanisms. Several things happen as a result of complement activation:

  • Each pathogen or aberrant cell that has been selected for eradication adheres to the surface thanks to the MAC. It produces lysis, or the demise of the cell by letting the contents out, much like puncturing a water-filled balloon, by creating a lesion in the membrane wall.
  • It makes blood arteries more permeable, enabling white blood cells to go from the bloodstream and into the tissues to fight infections.
  • WBCs are drawn to the infection site by it.
  • It promotes the killing of germs by macrophages and neutrophils during phagocytosis, a process.
  • It makes immune complexes more soluble and aids in their removal from the circulation.

The amount or activity of complement proteins in the blood is measured by complement assays. To ascertain whether the system is operating normally, complement components might be examined individually or collectively. The two complement proteins that are most routinely tested are C3 and C4. If a medical professional suspects a shortfall that cannot be detected by C3 or C4, total complement activity can be assessed. The function of the entire C1–C9 classical complement pathway is evaluated by CH50. Each of the nine complement levels can be measured separately to check for inherited or acquired deficits if this reading is outside the usual range.

Lab tests often ordered with a Complement Component C4c test:

When a C4c test is ordered, it's often part of a broader evaluation of immune function and autoimmune diseases. Here are some tests commonly ordered alongside it:

  1. Complement Component C3:

    • Purpose: To measure the level of C3, another key protein in the complement system.
    • Why Is It Ordered: Abnormalities in C3, often in conjunction with changes in C4, can indicate complement activation and consumption in autoimmune diseases.
  2. Complement Total (CH50):

    • Purpose: To assess the overall functionality of the classical complement pathway.
    • Why Is It Ordered: To provide a broader view of the complement system's integrity and function.
  3. Antinuclear Antibodies (ANA) Test:

    • Purpose: To screen for antibodies often present in autoimmune disorders.
    • Why Is It Ordered: To indicate the presence of an autoimmune process, especially in diseases like systemic lupus erythematosus (SLE).
  4. Anti-dsDNA (Double-Stranded DNA) Antibodies:

    • Purpose: To detect specific antibodies against double-stranded DNA.
    • Why Is It Ordered: These antibodies are highly specific for SLE and can correlate with disease activity.
  5. Rheumatoid Factor (RF) and Anti-CCP (Cyclic Citrullinated Peptide) Antibodies:

    • Purpose: To test for markers associated with rheumatoid arthritis.
    • Why Is It Ordered: To differentiate between various autoimmune diseases, including rheumatoid arthritis and lupus.
  6. Erythrocyte Sedimentation Rate (ESR) and C-Reactive Protein (CRP):

    • Purpose: To measure markers of inflammation in the body.
    • Why Is It Ordered: To assess the level of inflammation, which can be elevated in autoimmune diseases.
  7. Kidney Function Tests and Urinalysis:

    • Purpose: To evaluate kidney function and detect abnormalities in the urine.
    • Why Is It Ordered: Kidney involvement is common in autoimmune diseases, particularly lupus, and can be monitored through these tests.

These tests, when ordered alongside a Complement Component C4c test, provide a comprehensive assessment of immune function and are crucial for diagnosing and managing autoimmune conditions. They help in identifying the underlying cause of complement abnormalities and in monitoring disease activity and organ involvement. The specific combination of tests will depend on the individual’s symptoms, medical history, and preliminary test results.

Conditions where a Complement Component C4c test is recommended:

  • Systemic Lupus Erythematosus (SLE): SLE is an autoimmune disorder where the immune system mistakenly attacks healthy tissues. Low C4 levels, including C4c, are commonly seen.
  • Other Autoimmune Diseases: Conditions like rheumatoid arthritis, glomerulonephritis, and vasculitis can also lead to complement activation and reduced C4c levels.

How does my health care provider use a Complement Component C4c test?

To ascertain whether shortages or anomalies in the complement system are the root cause of, or contribute to, a person's sickness or condition, complement assays, most frequently C3 and C4, are utilized.

What do my Complement Component C4c test results mean?

Increased consumption or, less frequently, a congenital deficit, can cause complement levels to drop. A high incidence of recurrent microbial infections is typically caused by a hereditary defect in one of the complement proteins. Reduced complement levels are linked to a higher risk of autoimmune disease development. While C3 alone is often low in septicemia and diseases brought on by fungus or parasites, like malaria, C3 and C4 levels are typically both decreased in SLE.

Complement levels will typically return to normal if the underlying acute or chronic ailment can be treated if the deficiency is brought on by one of these.

Complement activity may be reduced with:

  • Hepatitis
  • Cirrhosis
  • Malnutrition
  • Septicemia
  • Kidney Disease
  • Lupus
  • Angioedema
  • Rheumatoid Arthritis

During acute or chronic inflammation, complement protein levels typically rise together with those of other unrelated proteins known as acute phase reactants. When the underlying illness is treated, all of these often return to normal. Comparatively to the frequently ordered C-reactive protein, complement proteins are less frequently measured in these circumstances, hence the value of their measurement in these circumstances is not discussed here.

Increased complement activity include can be seen with:

  • Juvenile Rheumatoid Arthritis
  • Thyroiditis
  • Sarcoidosis
  • Cancer
  • Ulcerative Colitis
  • Acute Myocardial Infarction

Most Common Questions About the Complement Component C4c test:

Clinical Utility and Interpretation of the Complement Component C4c Test

What is the Complement Component C4c test, and what is its clinical significance?

The Complement Component C4c test measures the levels of C4c, a fragment of the complement protein C4. This test aids in the diagnosis and monitoring of autoimmune and inflammatory conditions, as C4c is a marker for activation of the classical complement pathway.

What conditions might lead to a healthcare provider ordering the Complement Component C4c test?

The Complement Component C4c test may be ordered in the evaluation of suspected autoimmune disorders such as systemic lupus erythematosus (SLE) or rheumatoid arthritis, inflammatory conditions, or complement system deficiencies.

How are the results of the Complement Component C4c test interpreted?

Increased levels of C4c may indicate active inflammation or autoimmune disease, while decreased levels may suggest complement consumption or inherited deficiency. The interpretation should be done in conjunction with other clinical findings and laboratory data.

Complement Component C4c Test in Autoimmune Disorders

How is the Complement Component C4c test used in diagnosing systemic lupus erythematosus (SLE)?

The Complement Component C4c test can be helpful in diagnosing SLE as the levels may be decreased during active disease due to consumption of the complement. It is often used with other complement tests and antibodies to establish the diagnosis.

How can the Complement Component C4c test help in monitoring rheumatoid arthritis?

The Complement Component C4c test may be used to monitor disease activity in rheumatoid arthritis. Elevated levels might reflect active joint inflammation and can help guide treatment adjustments.

Complement Component C4c Test in Infectious Diseases

What is the role of the Complement Component C4c test in diagnosing infectious diseases?

The Complement Component C4c test may be used in diagnosing infectious diseases that trigger the complement system. Elevated levels can indicate active infection, especially when accompanied by other signs and symptoms.

How can the Complement Component C4c test be utilized in the context of sepsis?

In sepsis, the Complement Component C4c test can provide insights into the immune response and severity of the condition. Altered levels may suggest a dysregulated immune response and could influence management strategies.

Interactions with Other Diagnostic Tools

How does the Complement Component C4c test complement other tests in evaluating the complement system?

The Complement Component C4c test is often used alongside other complement component tests, such as C3, C4, and CH50, to provide a comprehensive view of the complement system's functionality and involvement in a particular disease process.

Can the Complement Component C4c test be used with imaging studies in diagnosing inflammatory conditions?

Yes, the Complement Component C4c test can be used in conjunction with imaging studies to assess inflammatory conditions. The test results may guide the selection of appropriate imaging and enhance diagnostic accuracy.

Challenges and Considerations in Complement Component C4c Testing

What challenges may arise in interpreting the Complement Component C4c test results?

Challenges in interpreting the Complement Component C4c test results may include variations in normal ranges between laboratories, transient changes in levels due to infection or medication, and the presence of multiple underlying conditions that can affect the results.

How do other underlying health conditions affect the interpretation of the Complement Component C4c test?

Other underlying health conditions, such as liver disease, malignancy, or chronic inflammation, can affect C4c levels. Understanding the patient's complete medical picture is essential for accurate interpretation.

Complement Component C4c Test in Treatment and Follow-up

How is the Complement Component C4c test used in monitoring treatment for autoimmune disorders?

The Complement Component C4c test may be utilized to monitor the response to treatment in autoimmune disorders. Changes in C4c levels can reflect improvement or worsening of the condition and may guide treatment modifications.

Can the Complement Component C4c test be used for follow-up in patients with inflammatory conditions?

Yes, the Complement Component C4c test can be an essential tool in the follow-up of patients with inflammatory conditions. Regular monitoring of C4c levels can help in assessing disease activity and response to therapy, and aid in early detection of flares or complications.

We advise having your results reviewed by a licensed medical healthcare professional for proper interpretation of your results.

The following is a list of what is included in the item above. Click the test(s) below to view what biomarkers are measured along with an explanation of what the biomarker is measuring.

Complement Component C4c

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