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Test Code MISC2MAYOPBORB Lyme Disease, Molecular Detection, PCR, Blood

Reporting Name

Lyme Disease PCR, B

Useful For

Supporting the diagnosis of Lyme disease in conjunction with serologic testing

 

This test should not be used to screen asymptomatic patients.

Performing Laboratory

Mayo Clinic Laboratories in Rochester

Specimen Type

Whole Blood EDTA


Ordering Guidance


This assay does not detect Borrelia miyamotoi. If infection with this organism is suspected, order BMIPB / Borrelia miyamotoi Detection, PCR, Blood or BMIYC / Borrelia miyamotoi Detection, PCR, Spinal Fluid.



Specimen Required


Container/Tube: Lavender top (EDTA)

Specimen Volume: 1 mL

Collection Instructions: Send whole blood specimen in original tube. Do not aliquot.


Specimen Minimum Volume

0.3 mL

Specimen Stability Information

Specimen Type Temperature Time Special Container
Whole Blood EDTA Refrigerated (preferred) 7 days
  Frozen  7 days

Reference Values

Negative

Reference values apply to all ages.

Day(s) Performed

June through November: Monday through Saturday

December through May: Monday through Friday

Test Classification

This test was developed and its performance characteristics determined by Mayo Clinic in a manner consistent with CLIA requirements. It has not been cleared or approved by the US Food and Drug Administration.

CPT Code Information

87476

87798 x 2

87999 (if appropriate for government payers)

LOINC Code Information

Test ID Test Order Name Order LOINC Value
PBORB Lyme Disease PCR, B 90892-1

 

Result ID Test Result Name Result LOINC Value
56080 B. burgdorferi PCR, B 94247-4
38290 B. mayonii PCR, B 94248-2
38291 B. garinii/B. afzelii PCR, B 94249-0
38340 Lyme Disease PCR Comment 59464-8

Clinical Information

Lyme disease is a multisystem and multistage tick-transmitted infection caused by spirochetal bacteria in the Borrelia burgdorferi sensu lato (Bbsl) complex.(1) Nearly all human infections are caused by 3 Bbsl species; B burgdorferi sensu stricto (hereafter referred to as B burgdorferi) is the primary cause of Lyme disease in North America, while Borrelia afzelii and Borrelia garinii are the primary causes of Lyme disease in Europe. In 2012, Borrelia mayonii was identified as a less common cause of Lyme disease in the upper Midwestern United States.(2,3) This organism has only been detected in patients with exposure to ticks in Minnesota and Wisconsin and has not been detected in over 10,000 specimens from patients in other states, including regions of the northeast where Lyme disease is endemic.

 

Lyme disease is the most commonly reported tick-borne infection in Europe and North America, causing an estimated 300,000 cases in the United States each year and 85,000 cases in Europe.(4,5) The clinical features of Lyme disease are broad and may be confused with various immune and inflammatory disorders. The classic presenting sign of early localized Lyme disease caused by B burgdorferi is erythema migrans (EM), which occurs in approximately 80% of individuals. Other early signs and symptoms include malaise, headache, fever, lymphadenopathy, and myalgia. Arthritis, neurological disease, and cardiac disease may be later stage manifestations. EM has also been seen in patients with B mayonii infection, but diffuse rashes are more commonly reported.(2) The chronic skin condition, acrodermatitis chronicum atrophicans, is also associated with B afzelii infection.

 

The presence of EM in the appropriate clinical setting is considered diagnostic for Lyme disease; no confirmatory laboratory testing is needed. In the absence of a characteristic EM lesion, serologic testing is the diagnostic method of choice for Lyme disease.(6) However, serology may not be positive until 1 to 2 weeks after onset of symptoms and may show decreased sensitivity for detection of infection with B mayonii. Therefore, detection of Bbsl DNA using polymerase chain reaction (PCR) may be a useful adjunct to serologic testing for detection of acute disease. PCR has shown utility for detection of Borrelia DNA from skin biopsies of Lyme-associated rashes and can be used to detect Borrelia DNA from synovial fluid and synovium biopsies. Less commonly, Borrelia DNA can be detected in cerebrospinal fluid and blood.(7) In general, blood is not the preferred source for detection of Bbsl DNA by PCR, although it may have increased utility for detection of B mayonii, due to the higher levels of observed peripheral spirochetemia with this organism.(2) Lyme PCR should always be performed in conjunction with US Food and Drug Administration approved serologic tests, and results should be correlated with serologic and epidemiologic data and clinical presentation of the patient.(8) The Mayo Clinic Lyme PCR test detects and differentiates the main causes of Lyme disease in North America (B burgdorferi and B mayonii) and Europe (B afzelii and B garinii).(2,7)

Interpretation

A positive result indicates the presence of DNA from Borrelia burgdorferi, Borrelia mayonii, Borrelia afzelii, or Borrelia garinii, the main agents of Lyme disease.

 

A negative result indicates the absence of detectable target DNA in the specimen. Due to the diagnostic sensitivity limitations of the polymerase chain reaction assay, a negative result does not preclude the presence of the organism or active Lyme disease.

Method Description

Nucleic acid is extracted from clinical specimens using the automated MagNA Pure LC instrument system. The extract is then transferred wells of a 96-well plate for amplification. The LightCycler is an automated instrument that amplifies and monitors the development of target nucleic acid (amplicon) after each cycle of polymerase chain reaction (PCR). The DNA target for PCR assay is the 283-base pairs plasminogen-binding protein gene (OppA2), which is present at a frequency of 1 copy per organism in all 4 confirmed pathogenic species of the Borrelia burgdorferi sensu lato genogroup (B burgdorferi sensu stricto, Borrelia afzelii, Borrelia garinii, and Borrelia mayonii). A specific base pair DNA target sequence is amplified by PCR. The detection of amplicon is based on fluorescence resonance energy transfer, which utilizes 1 hybridization probe with a donor fluorophore, fluorescein, at the 3' end, and a second hybridization probe with an acceptor fluorophore, LC-Red 610, at the 5' end. When the target amplicon is present, the LC-Red 610 emits a measurable and quantifiable light signal at a specific wavelength. Presence of the specific organism nucleic acid may be confirmed by performing a melting curve analysis of the amplicon. Using features of the melting curve analysis, the assay primers and specific hybridization probes are able to detect and differentiate B burgdorferi sensu stricto from B mayonii, B afzelii, and B garinii, although the melting curve analysis cannot differentiate between B afzelii and B garinii. Each assay run can be completed within 60 minutes.(Unpublished Mayo method)

Report Available

1 to 4 days

Reject Due To

Gross hemolysis OK

Method Name

Real-Time Polymerase Chain Reaction (PCR)/DNA Probe Hybridization

Testing Algorithm

For more information see Acute Tick-Borne Disease Testing Algorithm.

Forms

If not ordering electronically, complete, print, and send a Microbiology Test Request (T244) with the specimen.

Secondary ID

87973