Leptospira: Difference between revisions

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===Microbiology===
===Microbiology===


*Thin, flagellated [[Cellular shape::spirochete]]
*Thin, flagellated [[Shape::spirochete]]
*Best viewed with darkfield microscopy
*Best viewed with darkfield microscopy
*Species and serovars are divided into three broad categories within the genus ''Leptospira''
*Species and serovars are divided into three broad categories within the genus ''Leptospira''
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===Serology===
===Serology===


*Detects IgM antibodies, which appear around day 5 to 7
*Detects IgM antibodies, which appear around day 5 to 7 and likely last for years to decades[[CiteRef::grassmann2022es]]
*IgM ELISA, needs confirmation by MAT (Sn 90%, Sp 90%)
**In Canada, this is done at the NML with a turnaround time of up to 30 days
**NML information about [https://cnphi.canada.ca/gts/reference-diagnostic-test/4925?labId=1019 ELISA] and [https://cnphi.canada.ca/gts/reference-diagnostic-test/4927?labId=1019 MAT]
*Microscopic agglutination test (MAT) for antigen detection (Sn 90%, Sp 90%)
*Microscopic agglutination test (MAT) for antigen detection (Sn 90%, Sp 90%)
**''Leptospira'' antigens are mixed with serum and monitored for agglutination
**''Leptospira'' antigens are mixed with serum and monitored for agglutination
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**May cross-react with [[syphilis]], [[relapsing fever]], [[Lyme disease]], [[viral hepatitis]], HIV, [[Legionella]], and autoimmune diseases
**May cross-react with [[syphilis]], [[relapsing fever]], [[Lyme disease]], [[viral hepatitis]], HIV, [[Legionella]], and autoimmune diseases
**Cross-reacts between different serogroups
**Cross-reacts between different serogroups
*IgM ELISA, needs confirmation by MAT (Sn 90%, Sp 90%) (this is the test in Canada)
*Latex agglutination test, needs confirmation by MAT (Sn 80%, Sp 95%)
*Latex agglutination test, needs confirmation by MAT (Sn 80%, Sp 95%)
*Lateral flow test, needs confirmation by MAT (Sn 80%, Sp 95%)
*Lateral flow test, needs confirmation by MAT (Sn 80%, Sp 95%)
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*Unclear sensitivity and specificity, but has the potential to diagnose disease before antibodies develop
*Unclear sensitivity and specificity, but has the potential to diagnose disease before antibodies develop
*Usually done from blood, but can try in urine as well
*Usually done from blood, but can try in urine as well
*In Canada, [https://cnphi.canada.ca/gts/reference-diagnostic-test/4923?labId=1019 available through the NML] with a turnaround time of 21 days


===Faine's Criteria===
===Faine's Criteria===
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*Usual treatment is [[Is treated by::penicillin]] G 1.5 MU IV q6h, if severe, or [[Is treated by::doxycycline]] 100 mg po bid, if mild
*Usual treatment is [[Is treated by::penicillin]] G 1.5 MU IV q6h, if severe, or [[Is treated by::doxycycline]] 100 mg po bid, if mild
**May be able to use [[Is treated by::amoxicillin]], [[Is treated by::ampicillin]], [[Is treated by::ceftriaxone]], or [[Is treated by::azithromycin]] as alternatives
**May be able to use [[Is treated by::amoxicillin]], [[Is treated by::ampicillin]], [[Is treated by::ceftriaxone]], or [[Is treated by::azithromycin]] as alternatives
***It is also likely that [[ertapenem]], [[cefepime]], and [[norfloxacin]] are also effective[[CiteRef::zhang2014ef]]
**May develop a [[Jarisch-Herxheimer reaction]] during treatment (only with [[β-lactams]])
**May develop a [[Jarisch-Herxheimer reaction]] during treatment (only with [[β-lactams]])
**Duration is 5 to 7 days (except 3 days for [[azithromycin]])
**Duration is 5 to 7 days (except 3 days for [[azithromycin]])
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*Can do chemoprophylaxis of high risk occupations with [[doxycycline]] 200 mg PO once weekly
*Can do chemoprophylaxis of high risk occupations with [[doxycycline]] 200 mg PO once weekly


{{DISPLAYTITLE:''Leptospira'' species}}
{{DISPLAYTITLE:''Leptospira''}}
[[Category:Spirochetes]]
[[Category:Spirochetes]]

Latest revision as of 17:04, 27 September 2024

Background

Microbiology

  • Thin, flagellated spirochete
  • Best viewed with darkfield microscopy
  • Species and serovars are divided into three broad categories within the genus Leptospira
    • Pathogens: L. interrogans (multiple serovars, most common), L. noguchii, L. borgpetersenii, L. santarosai, L. kirschneri, L. weilii, L. alexanderi, L. alstonii, L. meyeri, L. wolffi, and L. kmetyi
    • Non-pathogenic saprophytes: L. biflexa, L. wolbachii, L. vanthielii, L. terpstrae, L. yanagawae, and L. idonii
    • Species of indeterminate pathogenicity: L. inadai, L. fainei, L. broomii, and L. licerasiae
  • Within each species, there may be multiple serovars that are defined based on lipopolysaccharide (LPS) O-antigens
    • A single species may have pathogenic and non-pathogenic serovars

Epidemiology

  • Endemic worldwide
    • More common during rainy seasons in tropical regions and late summer to fall in temperate regions
    • More common after flooding, typhoons, or hurricanes
    • In US, more common in Hawaii
  • Major reservoir is as a chronic kidney infection in animals, especially rodents
    • Also other small mammals, but livestock and companion animals
    • Among livestock, may cause spontaneous abortions
  • Most common risk factor is exposure to water or soil contaminated with animal urine
    • Includes occupational exposures and direct contact
    • High-risk occupations include farmers, slaughterhouse workers, pet traders, veterinarians, rodent catchers and sewer workers
  • Leptospires can survive in water or soil for months, depending on the conditions

Pathophysiology

  • Bacteria enter through cuts and abrasions, mucous membranes, conjunctivae, and inhalation
  • After entering, it undergoes widespread hematogenous dissemination
    • Essentially causes a vasculitis
  • Human TLR 4 cannot bind leptospiral LPS
  • Leptospirosis can non-specifically bind and activate T cells in some people
  • Virulence factors
    • Sphingomyelinase and hemolysin
    • Also spirochete motility
    • Also hooked ends

Clinical Manifestations

  • Spectrum of severity, from asymptomatic seroconversion (most common) to nonspecific febrile illness to severe, life-threating multiorgan failure
    • Asymptomatic disease is likely frequent, given high seroprevalence in some populations
  • Incubation period 10 days (range 5 to 14 days)
  • Acute febrile phase
    • Acute phase lasts 5 to 7 days
    • Starts with high fever, headache, chills, rigors, and myalgias
    • Conjunctival injection is an identifying feature
    • Muscle tenderness, especially in the calf and lumbar areas, is also characteristic
    • Occasionally have a pretibial papular eruption
    • Can also have lymphadenopathy, splenomegaly, and hepatomegaly
    • Mild leukocytosis and neutrophilia, with thrombocytopenia and occasionally anemia
    • Spirochetes detectable in blood and CSF, possibly urine
  • Immune phase
  • Weil disease (liver and renal failure) may develop during or directly following the acute phase
    • Liver injury is predominantly jaundice with elevated bilirubin and only mild liver enzyme rise
    • Acute renal failure
      • Nonoliguric hypokalemia with impaired sodium reabsorption and increased distal sodium delivery
      • Selective loss of ENaC channels in proximal ubule
      • Biopsy shows AIN
  • Severe pulmonary hemorrhage syndrome (SPHS)
    • May have frank hemoptysis, but not always
    • Can show up as CXR lower lobe "snowflake-like" densities
  • Arrhythmias, including atrial fibrillation and ventricular tachycardia
  • Circulatory shock
  • Severe disease has high mortality from 5 to 40%

Differential Diagnosis

Diagnosis

  • In general, use PCR if early in disease (<7 days) and ELISA IgM followed by confirmatory MAT if further in disease (≥7 days)
Method Sens Spec
Culture 5-50% 100%
Darkfield microscopy 40% 60%
Microscopic agglutination test (MAT) 90% >90%
ELISA IgM >90% 88-95%
Latex agglutination 92% 95%
Lateral flow assay 81% 96%
PCR 100% 93%

Microscopy

  • Leptospires can be seen directly under darkfield microscopy
  • Low sensitivity and specificity of blood and urine samples, even if spirochetes are seen (as spirochetes can also be normal flora)

Culture

  • Can get positive cultures from blood and CSF, ideally when collected while febrile and before antibiotics
  • Can inoculate one to blood drops directly into culture at bedside
  • Urine can be cultured after the first week of illness, but need to be processed quickly
  • Use Fletcher's medium (commercial version)
  • Not very sensitive, and cultures can take weeks

Serology

  • Detects IgM antibodies, which appear around day 5 to 7 and likely last for years to decades1
  • IgM ELISA, needs confirmation by MAT (Sn 90%, Sp 90%)
    • In Canada, this is done at the NML with a turnaround time of up to 30 days
    • NML information about ELISA and MAT
  • Microscopic agglutination test (MAT) for antigen detection (Sn 90%, Sp 90%)
    • Leptospira antigens are mixed with serum and monitored for agglutination
    • Monitor for a four-fold rise in titres from acute-phase to convalescent phase (repeat 4 to 6 weeks), or a single titre of at least 1:800
    • May cross-react with syphilis, relapsing fever, Lyme disease, viral hepatitis, HIV, Legionella, and autoimmune diseases
    • Cross-reacts between different serogroups
  • Latex agglutination test, needs confirmation by MAT (Sn 80%, Sp 95%)
  • Lateral flow test, needs confirmation by MAT (Sn 80%, Sp 95%)

PCR

  • Loop-mediated isothermal amplification (LAMP) assays and other PCR assays exist
  • Unclear sensitivity and specificity, but has the potential to diagnose disease before antibodies develop
  • Usually done from blood, but can try in urine as well
  • In Canada, available through the NML with a turnaround time of 21 days

Faine's Criteria

  • Faine's criteria use clinical, epidemiological, and laboratory findings to diagnose leptospirosis

Management

Prevention

  • Mostly avoidance of high-risk exposures
  • Immunization is possible but rarely done, and covers only specific serovars
    • Even if immunizing animals, it prevents disease but not asymptomatic carriage
  • Can do chemoprophylaxis of high risk occupations with doxycycline 200 mg PO once weekly

References

  1. ^  Eleanor M. Rees, Colleen L. Lau, Mike Kama, Simon Reid, Rachel Lowe, Adam J. Kucharski. Andre Alex Grassmann. Estimating the duration of antibody positivity and likely time of Leptospira infection using data from a cross-sectional serological study in Fiji. PLOS Neglected Tropical Diseases. 2022;16(6):e0010506. doi:10.1371/journal.pntd.0010506.
  2. ^  Wenlong Zhang, Naisheng Zhang, Wei Wang, Fei Wang, Yue Gong, Haichao Jiang, Zecai Zhang, Xiaofei Liu, Xiaojing Song, Tiancheng Wang, Zhuang Ding, Yongguo Cao. Efficacy of cefepime, ertapenem and norfloxacin against leptospirosis and for the clearance of pathogens in a hamster model. Microbial Pathogenesis. 2014;77:78-83. doi:10.1016/j.micpath.2014.11.006.