Test Code AHUSD Atypical Hemolytic Uremic Syndrome Complement Panel, Serum and Plasma
Useful For
Detecting deficiencies in the alternative pathway that can cause atypical-hemolytic uremic syndrome, dense deposit disease, and C3 glomerulonephritis
A second-tier test that aids in the differential diagnosis of thrombotic microangiopathies
Profile Information
Test ID | Reporting Name | Available Separately | Always Performed |
---|---|---|---|
INTGA | AHUS Interpretation | No | Yes |
COM3 | Complement, Total, S | Yes, (order COM) | Yes |
AH503 | Alternative Complement Path Func, S | Yes, (order AH50) | Yes |
C3HUS | Complement C3, S | Yes, (order C3) | Yes |
C4HUS | Complement C4, S | Yes, (order C4) | Yes |
FBCA | Factor B Complement Antigen, S | No | Yes |
FHCA | Factor H Complement Antigen, S | No | Yes |
C4D | C4d Complement, P | No | Yes |
CBB | CBb Complement, P | No | Yes |
SC5B9 | SC5b-9 Complement, P | Yes, (C5B9) | Yes |
Reflex Tests
Test ID | Reporting Name | Available Separately | Always Performed |
---|---|---|---|
C1Q | Complement C1q, S | Yes | No |
C1QFX | C1Q Complement, Functional, S | Yes | No |
C2FXN | C2 Complement, Functional, S, NR | Yes | No |
C3FX | C3 Complement, Functional, S | Yes | No |
C4FX | C4 Complement, Functional, S | Yes | No |
C5FX | C5 Complement, Functional, S | Yes | No |
C6FX | C6 Complement, Functional, S | Yes | No |
C7FX | C7 Complement, Functional, S | Yes | No |
C8FX | C8 Complement, Functional, S | Yes | No |
C9FX | C9 Complement, Functional, S | Yes | No |
C5AG2 | C5 Complement, Antigen, S | Yes, (order C5AG) | No |
Method Name
C3HUS, C4HUS, FBCA, FHCA: Nephelometry
COM3: Automated Liposome Lysis Assay
AH503, C4D, CBB, SC5B9: Enzyme-Linked Immunosorbent Assay (ELISA)
Reporting Name
aHUS Complement Panel, S and PSpecimen Type
Plasma Na CitSerum Red
Ordering Guidance
This test should be performed prior to treatment initiation and in the absence of therapy with complement inhibitors, such as eculizumab or ravulizumab. Complement inhibitors will affect performance of these assays.
For evaluating patients with possible thrombotic microangiopathies (TMA), the recommended first-tier test is ADM13 / ADAMTS13 Activity and Inhibitor Profile, Plasma. This test should be a second-tier test for TMA.
For patients who have received eculizumab or need to monitor response to eculizumab therapy, the recommended test is ECUMP / Eculizumab Monitoring Panel, Serum. Soluble membrane attack complex (sMAC) should not be used as a standalone assay to monitor eculizumab efficiency.
Specimen Required
Both plasma and serum are required for this test.
Patient Preparation:
1. Fasting preferred.
2. Samples should not be collected earlier than 48 hours following plasma exchange.
Supplies: Sarstedt Aliquot Tube 5 mL (T914)
Specimen Type: Plasma
Collection Container/Tube: Light-blue top (3.2% sodium citrate)
Submission Container/Tube: 3 plastic vials
Specimen Volume: 1.5 mL in 3 plastic vials, each containing 0.5 mL
Collection Instructions:
1. Immediately after specimen collection, place the tube on wet ice.
2. Centrifuge; 1500 x g for 10 minutes at 4° C and aliquot plasma into plastic vial.
3. Freeze specimen within 30 minutes.
Specimen Type: Serum
Collection Container/Tube: Red top (serum gel/SST are not acceptable)
Submission Container/Tube: 3 plastic vials
Specimen Volume: 1.5 mL in 3 plastic vials, each containing 0.5 mL
Collection Instructions:
1. Immediately after specimen collection, place the tube on wet ice.
2. Centrifuge at 4° C and aliquot serum into 5 mL plastic vial.
3. Freeze specimen within 30 minutes.
Specimen Minimum Volume
Serum, Plasma: 1 mL each
Specimen Stability Information
Specimen Type | Temperature | Time | Special Container |
---|---|---|---|
Plasma Na Cit | Frozen | 14 days | |
Serum Red | Frozen | 14 days |
Reject Due To
Gross hemolysis | OK |
Gross lipemia | Reject |
Gross icterus | OK |
Clinical Information
Individuals presenting with thrombotic microangiopathies (TMA) require clinical testing to identify the underlying cause. Thrombotic thrombocytopenic purpura (TTP) and hemolytic uremic syndrome (HUS) are both acute syndromes with many overlapping clinical features. Reduced levels of ADAMTS13 (a disintegrin and metalloproteinase with thrombospondin type 1 motives, member 13) activity is associated with TTP and is one laboratory feature that distinguishes TTP from HUS. HUS can also have a number of causes; one of the rarer forms of disease is caused by defects in the alternative pathway of the complement system, so called atypical-HUS (aHUS). Patients with defective alternative pathway regulation can benefit from biologics that suppress the complement system.
The purpose of this panel is to aid in the differential diagnosis of TMA. The suggested approach is to rule-out other causes of TMA first, since aHUS is one of the rarer causes of TMA. Additionally, the assays can be used in the setting of membranoproliferative glomerulonephritis (MPGN) and can help distinguish between immune-complex mediated or complement-mediated kidney disease. MPGN mediated by immune-complexes are ones resulting from infectious processes, autoimmune diseases, or monoclonal gammopathies; whereas complement-mediated MPGN can be subdivided in C3 glomerulonephritis and dense deposit disease, based on electron microscopy of the kidney biopsy histological findings. Despite phenotypic differences, these glomerular diseases share dysfunction of the alternative pathway as the defining pathophysiology.
Reference Values
FACTOR B COMPLEMENT ANTIGEN
15.2-42.3 mg/dL
SC5b-9 COMPLEMENT
≤250 ng/mL
FACTOR H COMPLEMENT ANTIGEN
18.5 to 40.8 mg/dL
C4d COMPLEMENT ACTIVATION FRAGMENT
≤9.8 mcg/mL
CBb COMPLEMENT ACTIVATION FRAGMENT
≤1.6 mcg/mL
COMPLEMENT C4
14-40 mg/dL
COMPLEMENT C3
75-175 mg/dL
ALTERNATIVE COMPLEMENT, PATHWAY (AH50) FUNCTIONAL
≥46% normal
COMPLEMENT, TOTAL
30-75 U/mL
Interpretation
An interpretive report will be included.
Cautions
As with all complement assays, proper sample handling is of utmost importance to ensure that the complement system is not activated before clinical testing.
Method Description
Complement, Total:
An automated method is performed using liposomes as the target for the serum complement system. The dinitrophenyl (DNP)-labeled liposomes are sensitized with antibody to DNP. Serum complement causes lysis and release of entrapped glucose-6-phosphate dehydrogenase. Glucose-6-phosphate dehydrogenase reacts with glucose-6-phosphate and nicotinamide adenine dinucleotide (NAD[+]). NAD(+) is reduced to NADH and the conversion is measured at 340 nm. The assay correlates with the CH50 assay based on sheep red blood cell lysis, has lower variability, and is simpler to perform.(Package insert: Fujifilm Autokit CH50. Fujifilm Wako Pure Chemical Corporation; 04/01/2018; Yamamoto S, Kubotsu K, Kida M, et al. Automated homogeneous liposome-based assay system for total complement activity. Clin Chem. 1995;41:586-590)
Alternative Complement, Pathway Functional:
The Wieslab enzyme-linked immunosorbent assay complement assay for the alternative pathway combines principles of the hemolytic assay for complement activation with the use of labeled antibodies specific for neoantigens produced as a result of complement activation. The micro titer plate strips are coated with lipopolysaccharide. Patient serum is diluted in diluent containing specific blocker to ensure that only the alternative pathway is activated. During the first incubation, the diluted patient serum in the wells is activated by the coating. The wells are then washed and C5b-9 (membrane attack complex: MAC) is detected with a specific alkaline phosphatase labeled antibody to the neoantigen expressed during MAC formation. After a final wash, an alkaline phosphatase substrate is added. The amount of alternative pathway complement activity correlates with the color intensity of the solution and is measured in terms of absorbance (optical density).(Frazer-Abel A, Sepiashvili L, Mbughuni MM, Willrich MA. Overview of laboratory testing and clinical presentations of complement deficiencies and dysregulation. Adv Clin Chem. 2016;77:1-75. doi:10.1016/bs.acc.2016.06.001)
Complements C3 and C4; Factor B and Factor H Complement Antigens:
In these Siemens Nephelometer II methods, the light scattered onto the antigen-antibody complexes is measured. The intensity of the measured scattered light is proportional to the amount of antigen-antibody complexes in the sample under certain conditions. If the antibody volume is kept constant, the signal behaves proportionally to the antigen volume.
A reference curve is generated by a standard with a known antigen content on which the scattered light signals of the samples can be evaluated and calculated as an antigen concentration. Antigen-antibody complexes are formed when a sample containing antigen and the corresponding antiserum are put into a cuvette. A light beam is generated with a light emitting diode, which is transmitted through the cuvette. The light is scattered onto the immuno-complexes that are present. Antigen and antibody are mixed in the initial measurement, but no complex is formed yet. An antigen-antibody complex is formed in the final measurement.
The result is calculated by subtracting value of the final measurement from the initial measurement. The distribution of intensity of the scattered light depends on the ratio of the particle size of the antigen-antibody complexes to the radiated wavelength.(Instruction manual: Siemens Nephelometer II Operations. Siemens, Inc; Version 2.3, 2008; Addendum to the Instruction Manual 2.3, 08/2017)
C4d Complement Activation Fragment:
Microtiter plates are coated with monoclonal antibody specific to the C4d fragment of the fourth component of the complement cascade. Controls, standards, and patient samples are exposed to the plate. After washing the plate, a horseradish peroxidase-conjugated polyclonal C4d antibody is added followed by a substrate to initiate color change.(Package insert: MicroVue C4d Fragment EIA Kit. Quidel Corporation; A009000EN00 10/2017)
CBb Complement Activation Fragment:
Microtiter plates are coated with monoclonal antibody specific to the complement factor Bb (CBb) fragment of the fourth component of the complement cascade. Controls, standards, and patient samples are exposed to the plate. After washing the plate, a horseradish peroxidase-conjugated polyclonal CBb antibody is added followed by a substrate to initiate color change.(Package insert: MicroVue CBb Plus EIA Kit. Quidel Corporation; 027002EN00 09/2016)
SC5b-9 Complement Activation Complex:
Microtiter plates are coated with monoclonal antibody specific to the C9 ring of the SC5b-9 complex. Controls, standards, and patient samples are exposed to the plate. After washing the plate, a horseradish peroxidase-conjugated anti-SC5b-9 complex antibody is added followed by a substrate to initiate color change.(Package insert: MicroVue SC5b-9 Plus EIA Kit. Quidel Corporation; 020001EN00 05/2017)
Day(s) Performed
Varies
Report Available
12 to 21 daysPerforming Laboratory
Mayo Clinic Laboratories in RochesterCPT Code Information
86160 x 7
86161
86162
LOINC Code Information
Test ID | Test Order Name | Order LOINC Value |
---|---|---|
AHUSD | aHUS Complement Panel, S and P | In Process |
Result ID | Test Result Name | Result LOINC Value |
---|---|---|
62584 | C4d Complement, P | 39565-7 |
62585 | CBb Complement, P | 4517-9 |
FBCA | Factor B Complement Antigen, S | 2269-9 |
FHCA | Factor H Complement Antigen, S | 4519-5 |
62586 | SC5b-9 Complement, P | 93244-2 |
38316 | Alternative Complement Path Func, S | 74520-8 |
COM3 | Complement, Total, S | 4532-8 |
C3HUS | Complement C3, S | 4485-9 |
C4HUS | Complement C4, S | 4498-2 |
39844 | AHUS Interpretation | 69048-7 |
ECPRO | Is Eculizumab or Ravulizumab taken? | 86955-2 |