Leptospirosis laboratory findings

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Kidney tissue, using a silver staining technique, revealing the presence of Leptospira bacteria

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Editor-In-Chief: C. Michael Gibson, M.S., M.D. [1];Associate Editor(s)-in-Chief: Venkata Sivakrishna Kumar Pulivarthi M.B.B.S [2]

Overview

The diagnosis of leptospirosis is based upon clinical suspicion and lab findings, so lab tests should be considered in a patient with a history of contact with potentially infected animals, soil or surface waters contaminated by animal urine.[1] Leptospires can be found in blood and CSF for the first 7 to 10 days and then in the urine. Hence, in the early diagnosis, specimen of choice should be blood or CSF for culture. From the second week onwards serological tests are useful in the diagnosis.

Laboratory findings

Laboratory Findings

As the clinical manifestations of the disease are non specific, the clinical diagnosis is difficult. The laboratory investigations for leptospirosis should be considered in patient with an abrupt onset of fever, chills, conjunctival suffusion, headache, myalgia and jaundice with history of occupational exposure to infected animals or contaminated with animal urine.[2]

Laboratory investigations useful in the diagnosis of leptospirosis include:

Laboratory criteria for the diagnosis of leptospirosis are presence of one or more of the following:[1]

Presumptive diagnosis:

  • A positive result in IgM serological tests, slide agglutination test or latex agglutination test or immunochromatographic test.
  • A microscopic agglutination test (MAT) titre of 100/200/400 or above in single sample based on test.
  • Identification of leptospires directly or by staining methods.

Confirmatory diagnosis:

  • Culture positivity
  • Antibody titre of ≥1 in 320 by Microscopic Agglutination test (MAT) in a single serum sample
  • Seroconversion in paired sera collected in the acute and convalescent phase established by ELISA IgM and/or MAT methods
  • Evidence of leptospira antigen by molecular methods.
     
     
     
     
     
     
     
    Laboratory investigations for leptospirosis
     
     
     
     
     
     
     
     
     
     
     
     
     
     
     
     
     
     
     
     
     
     
     
     
     
     
     
     
     
     
     
     
     
     
     
     
     
     
     
     
     
     
     
     
     
     
     
    Culture
     
    Microscopic
     
     
     
    Immunological
     
    Molecular
     
     
     
     
     
     
     
     
     
     
     
     
     
     
     
     
     
     
     
     
     
     
     
    • Isolation
     
    Dark field microscopy
    • Immunofluoroscence microscopy
     
     
     
    • Microscopic agglutination test
    • ELISA test
    Latex agglutination test
     
    Polymerase chain reaction

    Blood Tests

    Blood tests in leptospirosis include:[3]

    Urinalysis

    CSF Analysis

    CSF findings are common in first or second week of illness.[5]

    • Opening pressure: normal or slightly elevated
    • Cells: Lymphocyte predominance[5]
    • Protein: Normal to elevated[3]
    • Glucose: Normal
    • Xanthochromasia is seen in severe Icteric leptospirosis[6]

    Isolation of Leptospires

    Isolation of leptospires from clinical specimens is the strongest evidence for confirmation of leptospirosis. Leptospira can be cultured in Ellinghausen-McCullough-Johnson-Harris medium, which is incubated at 28 to 30ºC.[7] The median time to positivity is three weeks with a maximum of 3 months. This makes culture techniques useless for diagnostic purposes, but is commonly used in research.

    Blood culture:

    • Should be done before starting of antibiotics
    • Useful if done with in 10days after the initial presentation.[8]

    Urine culture:

    • Should be tested between 10-30days of initial presentaion
    • Sample should be tested within 2hours of collection

    CSF culture:

    • Should be tested between 5-10days of initial presentaion

    Identification of Leptospires

    Dark field microscopy: In order to detect under dark field microscopy 104 leptospires/ml are necessary for one cell per field.

    • Specimen: Blood, urine, CSF
    • Disadvantages: Test is insensitive and lacks specificity
    Leptospira Dark field microscopy finding - By bluuurgh - Own work, Public Domain, https://commons.wikimedia.org/w/index.php?curid=1534679

    Other microscopic techniques: Immunofluoroscence, Light microscopy

    Leptospira Electron microscopy finding - By CDC/ Rob Weyant - http://phil.cdc.gov/PHIL_Images/20050308/22ad4ce53a1648feb011a7d6dd26fbb6/138_lores.jpg, Public Domain, https://commons.wikimedia.org/w/index.php?curid=611941

    Detection of specic antibodies of leptospires or Serological tests

    Serological test are useful to detect leptospira-specific IgM antibodies in the early acute phase of illness, especially after first week of clinical symptoms. Antibodies production start 5-7 days after the onset of the initial presentation. Serological test in the 1st week will give false negative results.
    Screening tests

    • Enzyme-linked immunosorbent assay (ELISA): sensitivity of 90% and specificity of 94%.[9] Positive test results shows high IgM titre in a single serum sample or a 4-fold rise in titre in a paired tests is consistent with current or recent infection.
      • Advantages: Single antigenic preparation can be used. Allows rapid processing of large number of samples.
    • Rapid diagnostic tests: Latex based agglutination test, Immunochromatography.

    Confirmatory tests

    • Microscopic agglutination test (MAT): Specificity of 94%. All positive screening tests should be confirmed by the MAT. Agglutinating antibodies can detects both IgM and IgG classes and are detectable from about days 7 to 10 after onset of symptoms.
      • Advantages : It is serovar specific test. Once infected the person stays MAT positive for several years so the test is useful for epidemiological purpose.

    Molecular Diagnosis

    Polymerase Chain Reaction

    Polymerase chain reaction will give quick results in the early stage of the disease when antibodies have not yet developed in detectable levels (<7 days)

    References

    1. 1.0 1.1 Forbes AE, Zochowski WJ, Dubrey SW, Sivaprakasam V (2012). "Leptospirosis and Weil's disease in the UK". QJM. 105 (12): 1151–62. doi:10.1093/qjmed/hcs145. PMID 22843698.
    2. LastName, FirstName (2003). Human leptospirosis : guidance for diagnosis, surveillance and control. Geneva: World Health Organization. ISBN 9241545895.
    3. 3.0 3.1 EDWARDS GA, DOMM BM (1960). "Human leptospirosis". Medicine (Baltimore). 39: 117–56. PMID 13819407.
    4. Bharti AR, Nally JE, Ricaldi JN, Matthias MA, Diaz MM, Lovett MA; et al. (2003). "Leptospirosis: a zoonotic disease of global importance". Lancet Infect Dis. 3 (12): 757–71. PMID 14652202.
    5. 5.0 5.1 BEESON PB, HANKEY DD (1952). "Leptospiral meningitis". AMA Arch Intern Med. 89 (4): 575–83. PMID 14902167.
    6. CARGILL WH, BEESON PB (1947). "The value of spinal fluid examination as a diagnostic procedure in Weil's disease". Ann Intern Med. 27 (3): 396–400. PMID 20263193.
    7. Rule PL, Alexander AD (1986). "Gellan gum as a substitute for agar in leptospiral media". J Clin Microbiol. 23 (3): 500–4. PMC 268682. PMID 3754265.
    8. Bal AE, Gravekamp C, Hartskeerl RA, De Meza-Brewster J, Korver H, Terpstra WJ (1994). "Detection of leptospires in urine by PCR for early diagnosis of leptospirosis". J Clin Microbiol. 32 (8): 1894–8. PMC 263898. PMID 7989538.
    9. Zochowski WJ, Palmer MF, Coleman TJ (2001). "An evaluation of three commercial kits for use as screening methods for the detection of leptospiral antibodies in the UK". J Clin Pathol. 54 (1): 25–30. PMC 1731274. PMID 11271784.