Coxiella burnetii: Difference between revisions
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Coxiella burnetii
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==Background== |
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= Coxiella burnetti = |
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===History=== |
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*Originally described in Australia in 1935 among workers at a meatworks |
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== Summary == |
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*Q fever, for query fever, because the doctor suspected a new infection |
|||
===Microbiology=== |
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* |
|||
*Highly pleomorphic, intracellular, spore-forming, Gram-negative coccobacillus that causes Q fever |
|||
== History == |
|||
**Enters cell passively |
|||
*Phase variation, with two phases that differ in their lipopolysaccharides and some other characteristics |
|||
**Phase I: state in nature |
|||
*Related to rickettsiae |
|||
===Epidemiology=== |
|||
* Originally described in Australia in 1935 among workers at a meatworks |
|||
* Q fever, for query fever, because the doctor suspected a new infection |
|||
*Zoonotic disease, most commonly of cattle, sheep, and goats |
|||
== Microbiology == |
|||
**Also infected peripartum cats |
|||
**Maintained in a transmission cycle with ticks or other arthropods |
|||
**Ungulates often asymptomatic |
|||
**Can be detected in air up to 2 weeks post-partum and in soil for 6 months |
|||
*Released by an infected animal during childbirth, though windborne spread can carry it at least 10 km |
|||
**Placenta has an extremely high burden of bacteria |
|||
**Can also be found in stool, urine, and milk |
|||
**Unpasteurized milk |
|||
*Inhaled by humans with an incubation period of [[Usual incubation period::20 days]] ([[Incubation period range::1 to 39 days]]) |
|||
**Dose-dependent incubation period |
|||
**Chronic Q fever can be up to 6 months |
|||
*Worldwide distribution, except New Zealand |
|||
**Hepatitis more in Europe, pneumonia more in US |
|||
===Risk Factors=== |
|||
* Highly pleomorphic, intracellular, spore-forming, Gram-negative coccobacillus that causes Q fever |
|||
** Enters cell passively |
|||
* Phase variation, with two phases that differ in their lipopolysaccharides and some other characteristics |
|||
** Phase I: state in nature |
|||
* Related to rickettsiae |
|||
*Working with or near animals, especially peripartum |
|||
== Epidemiology == |
|||
*Lab exposure |
|||
*Unpasteurized milk |
|||
===Pathophysiology=== |
|||
* Zoonotic disease, most commonly of cattle, sheep, and goats |
|||
** Also infected peripartum cats |
|||
** Maintained in a transmission cycle with ticks or other arthropods |
|||
** Ungulates often asymptomatic |
|||
** Can be detected in air up to 2 weeks post-partum and in soil for 6 months |
|||
* Released by an infected animal during childbirth, though windborne spread can carry it at least 10 km |
|||
** Placenta has an extremely high burden of bacteria |
|||
** Can also be found in stool, urine, and milk |
|||
** Unpasteurized milk |
|||
* Inhaled by humans with an incubation period of 20 days (1 to 39 days) |
|||
** Dose-dependent incubation period |
|||
** Chronic Q fever can be up to 6 months |
|||
* Worldwide distribution, except New Zealand |
|||
** Hepatitis more in Europe, pneumonia more in US |
|||
*Bacteria enter lungs, where they proliferate in the macrophages and invade the bloodstream |
|||
== Risk Factors == |
|||
**Lives in the phagolysosome |
|||
**Can cause graulomas |
|||
*Alternatively, can enter via tick bite or via ingestion |
|||
*Invasion of bloodstream causes systemic symptoms, with severity depending on the dose inhaled |
|||
*QPH1 is a more virulent strain |
|||
==Clinical Manifestations== |
|||
* Working with or near animals, especially peripartum |
|||
* Lab exposure |
|||
* Unpasteurized milk |
|||
*Can present as asymptomatic, self-limited febrile illness lasting 2 to 14 days (most common), pneumonia, or hepatitis |
|||
== Pathophysiology == |
|||
**Asymptomatic more common in pregnant women and children |
|||
*Infective endocarditis, osteomyelitis, CNS infection including aseptic meningitis |
|||
*Q fever in immunocompromised host, Q fever in infancy, Q fever in pregnancy |
|||
*Post-Q fever fatigue syndrome |
|||
===Acute Q fever=== |
|||
* Bacteria enter lungs, where they proliferate in the macrophages and invade the bloodstream |
|||
** Lives in the phagolysosome |
|||
** Can cause graulomas |
|||
* Alternatively, can enter via tick bite or via ingestion |
|||
* Invasion of bloodstream causes systemic symptoms, with severity depending on the dose inhaled |
|||
* QPH1 is a more virulent strain |
|||
*Fever is uniform finding in all syndromes |
|||
== Syndromes == |
|||
*Chills, headache (severe), fatigue, and myalgias that lasts 2-21 days (14) |
|||
*Can present with rash including urticaria |
|||
*Palpable purpura can be seen in chronic Q fever (that is, endocarditis) |
|||
===Pneumonia=== |
|||
* Can present as asymptomatic, self-limited febrile illness lasting 2 to 14 days (most common), pneumonia, or hepatitis |
|||
** Asymptomatic more common in pregnant women and children |
|||
* Infective endocarditis, osteomyelitis, CNS infection including aseptic meningitis |
|||
* Q fever in immunocompromised host, Q fever in infancy, Q fever in pregnancy |
|||
* Post-Q fever fatigue syndrome |
|||
*Can present as an atypical pneumonia, a rapidly-progressing pneumonia, and an incidental pneumonia in a febrile patient (most common) |
|||
=== Acute Q fever === |
|||
*A community-acquired pneumonia that doesn't respond to first-line antibiotics (like Legionella and pneumonic tularemia) |
|||
*Cough, though often not present, can be non-productive, productive, or bloody |
|||
*More common in Americas than Europe |
|||
===Hepatitis=== |
|||
* Fever is uniform finding in all syndromes |
|||
* Chills, headache (severe), fatigue, and myalgias that lasts 2-21 days (14) |
|||
* Can present with rash including urticaria |
|||
* Palpable purpura can be seen in chronic Q fever (that is, endocarditis) |
|||
*Three forms: |
|||
=== Pneumonia === |
|||
**An infectious hepatitisβlike picture |
|||
**Fever of unknown origin, with characteristic granulomas ("donut-like") on liver biopsy |
|||
**An incidental finding in a patient with acute Q fever pneumonia |
|||
*More common in Europe and Americas |
|||
===CNS Infections=== |
|||
* Can present as an atypical pneumonia, a rapidly-progressing pneumonia, and an incidental pneumonia in a febrile patient (most common) |
|||
* A community-acquired pneumonia that doesn't respond to first-line antibiotics (like Legionella and pneumonic tularemia) |
|||
* Cough, though often not present, can be non-productive, productive, or bloody |
|||
* More common in Americas than Europe |
|||
*Can cause Miller-Fischer variant of Guillain-BarrΓ© syndrome |
|||
=== Hepatitis === |
|||
===Endocarditis=== |
|||
* Three forms: |
|||
** An infectious hepatitisβlike picture |
|||
** Fever of unknown origin, with characteristic granulomas ("donut-like") on liver biopsy |
|||
** An incidental finding in a patient with acute Q fever pneumonia |
|||
* More common in Europe and Americas |
|||
*Subacute or chronic febrile illess |
|||
=== CNS infections === |
|||
*Clubbing and hepatosplenomegaly are common |
|||
*Higher titres are more convincing β₯1:6400 |
|||
==Diagnosis== |
|||
* Can cause Miller-Fischer variant of Guillain-BarrΓ© syndrome |
|||
*Not readily culturable (nor should you try), though you can see it with Giemsa stain |
|||
=== Endocarditis === |
|||
*PCR is possible though not common |
|||
*Causes a false-positive RF, APLA |
|||
*Main method of detection is serology |
|||
===Serology=== |
|||
* Subacute or chronic febrile illess |
|||
* Clubbing and hepatosplenomegaly are common |
|||
* Higher titres are more convincing β₯1:6400 |
|||
*Immunofluorescence assay is standard; no need for EIA |
|||
== Diagnosis == |
|||
*Two phases of IgG antibodies (phase I and II) |
|||
**Phase II corresponds more to acute |
|||
***Positive if IgM >50 and IgG >200, or if there's a 4x rise in either titres |
|||
***Detectable by 2 weeks, should be positive by 4 |
|||
***Peak at 2 months, then decrease except the IgG in cases of endocarditis |
|||
***Also IgA, but not clinically relevant |
|||
**Phase I corresponds more to chronic |
|||
***Can test for IgG (useful) and IgA (useless) titres |
|||
***IgG β₯ 800 consistent with chronic infection, and is one of the minor Duke criteria for endocarditis |
|||
***IgG β₯ 6400 is suggestive of endovascular infection or endocarditis (major criteria), |
|||
*Two ways to diagnose acute infection |
|||
**Retrospectively with a fourfold rise in both titres from acute to chronic stage, or |
|||
**One-time phase II IgM >50 and IgG >2000 |
|||
*Chronic infection is diagnosed clinically, with a phase I IgG titre greater than the phase II IgG titre, and both are at least IgG titre >1:1600 |
|||
*IgM antibodies are usually undetectable by 4 months, though IgG may persist for more than a decade |
|||
==Management== |
|||
* Not readily culturable (nor should you try), though you can see it with Giemsa stain |
|||
* PCR is possible though not common |
|||
* Causes a false-positive RF, APLA |
|||
* Main method of detection is serology |
|||
*Acute Q fever |
|||
=== Serology === |
|||
**Consider screening for bicuspid valve with TTE if high risk, or baseline TTE |
|||
**[[Doxycycline]] 100mg po bid x 10-14 days |
|||
**Second-line is [[fluoroquinolones]] or [[macrolides]] |
|||
**Consider monitoring titres for some period afterwards |
|||
**In patients with prosthetic heart valves, consider prolonged treatment as per chronic Q fever (like 1 year) |
|||
*Chronic Q fever |
|||
**Definitely screen for [[endocarditis]] |
|||
**[[Doxycycline]] + [[hydroxychloroquine]] 200mg/d continued until phase I IgG titres have decreased to β€1:800 |
|||
***[[Hydroxychloroquine]] potentiates [[doxycycline]] in the phagolysosomes (makes the doxycycline bactericidal) |
|||
***Monitor for ophthalmologic complications, and both have photosensitivity |
|||
***Can adjust dose of [[hydroxychloroquine]] to target serum level 0.8 to 1.2 mcg/mL |
|||
**Duration 1.5 years for native valve [[endocarditis]], 2 years for [[prosthetic valve endocarditis]] |
|||
**Measure titres every 3-6 months during treatment, then every 3 months for 2 years after completing treatment |
|||
===Pregnancy=== |
|||
* Immunofluorescence assay is standard; no need for EIA |
|||
* Two phases of IgG antibodies (phase I and II) |
|||
** Phase II corresponds more to acute |
|||
*** Positive if IgM >50 and IgG >200, or if there's a 4x rise in either titres |
|||
*** Detectable by 2 weeks, should be positive by 4 |
|||
*** Peak at 2 months, then decrease except the IgG in cases of endocarditis |
|||
*** Also IgA, but not clinically relevant |
|||
** Phase I corresponds more to chronic |
|||
*** Can test for IgG (useful) and IgA (useless) titres |
|||
*** IgG β₯ 800 consistent with chronic infection, and is one of the minor Duke criteria for endocarditis |
|||
*** IgG β₯ 6400 is suggestive of endovascular infection or endocarditis (major criteria), |
|||
* Two ways to diagnose acute infection |
|||
** Retrospectively with a fourfold rise in both titres from acute to chronic stage, or |
|||
** One-time phase II IgM >50 and IgG >2000 |
|||
* Chronic infection is diagnosed clinically, with a phase I IgG titre greater than the phase II IgG titre, and both are at least IgG titre >1:1600 |
|||
* IgM antibodies are usually undetectable by 4 months, though IgG may persist for more than a decade |
|||
*''Coxiella'' loves the placenta |
|||
== Management == |
|||
*It can be a cause of flu-like illness in pregnant women with a potential exposure history |
|||
**This can be associated with first-trimester pregnancy loss |
|||
*[[Doxycycline]] and [[fluoroquinolones]] are contraindicated |
|||
*[[TMP-SMX]] 1600/320 daily, make sure they're on folic acid supplementation |
|||
**Continue it for the duration of pregnancy |
|||
**Theoretic risk of [[hyperbilirubinemia]] in third trimester, so may consider holding it towards the end unless there's documented chronic infection |
|||
*High risk of developing chronic infection, so titres should be monitored for at least 2 years |
|||
**If persistent IgG > 800, consider TEE |
|||
==Prevention== |
|||
* Acute Q fever |
|||
** Consider screening for bicuspid valve with TTE if high risk, or baseline TTE |
|||
** Doxycyxline 100mg po bid x 10-14 days |
|||
** Second-line is fluoroquinolones or macrolides |
|||
** Consider monitoring titres for some period afterwards |
|||
** In patients with prosthetic heart valves, consider prolonged treatment as per chronic Q fever (like 1 year) |
|||
* Chronic Q fever |
|||
** Definitely screen for endocarditis |
|||
** Doxycycline + hydroxychloroquine 200mg/d continued until phase I IgG titres have decreased to β€1:800 |
|||
*** Hydroxychloroquine potentiates doxycycline in the phagolysosomes (makes the doxy bactericidal) |
|||
*** Monitor for ophthalmologic complications, and both have photosensitivity |
|||
*** Can adjust dose of hydroxychloroquine to target serum level 0.8 to 1.2 mcg/mL |
|||
** Duration 1.5 years for native valve endocarditis, 2 years for prosthetic valve endocarditis |
|||
** Measure titres every 3-6 months during treatment, then every 3 months for 2 years after completing treatment |
|||
*Vaccinate high-risk workers |
|||
== Considerations in Pregnancy == |
|||
{{DISPLAYTITLE:''Coxiella burnetii''}} |
|||
[[Category:Rickettsioses]] |
|||
* It can be a cause of flu-like illness in pregnanct women with a potential exposure history |
|||
** This can be associated with first-trimester pregnancy loss |
|||
* Doxycycline and fluoroquinolones are contraindicated |
|||
* Septra 1600/320 daily, make sure they're on folic acid supplementation |
|||
** Continue it for the duration of pregnancy |
|||
** Theoretic risk of hyperbilirubinemia in third trimester, so may consider holding it towards the end unless there's documented chronic infection |
|||
* High risk of developing chronic infection, so titres should be monitored for at least 2 years |
|||
** If persistent IgG > 800, consider TEE |
|||
== Prevention == |
|||
* Vaccinate high-risk workers |
Latest revision as of 19:05, 13 July 2022
Background
History
- Originally described in Australia in 1935 among workers at a meatworks
- Q fever, for query fever, because the doctor suspected a new infection
Microbiology
- Highly pleomorphic, intracellular, spore-forming, Gram-negative coccobacillus that causes Q fever
- Enters cell passively
- Phase variation, with two phases that differ in their lipopolysaccharides and some other characteristics
- Phase I: state in nature
- Related to rickettsiae
Epidemiology
- Zoonotic disease, most commonly of cattle, sheep, and goats
- Also infected peripartum cats
- Maintained in a transmission cycle with ticks or other arthropods
- Ungulates often asymptomatic
- Can be detected in air up to 2 weeks post-partum and in soil for 6 months
- Released by an infected animal during childbirth, though windborne spread can carry it at least 10 km
- Placenta has an extremely high burden of bacteria
- Can also be found in stool, urine, and milk
- Unpasteurized milk
- Inhaled by humans with an incubation period of 20 days (1 to 39 days)
- Dose-dependent incubation period
- Chronic Q fever can be up to 6 months
- Worldwide distribution, except New Zealand
- Hepatitis more in Europe, pneumonia more in US
Risk Factors
- Working with or near animals, especially peripartum
- Lab exposure
- Unpasteurized milk
Pathophysiology
- Bacteria enter lungs, where they proliferate in the macrophages and invade the bloodstream
- Lives in the phagolysosome
- Can cause graulomas
- Alternatively, can enter via tick bite or via ingestion
- Invasion of bloodstream causes systemic symptoms, with severity depending on the dose inhaled
- QPH1 is a more virulent strain
Clinical Manifestations
- Can present as asymptomatic, self-limited febrile illness lasting 2 to 14 days (most common), pneumonia, or hepatitis
- Asymptomatic more common in pregnant women and children
- Infective endocarditis, osteomyelitis, CNS infection including aseptic meningitis
- Q fever in immunocompromised host, Q fever in infancy, Q fever in pregnancy
- Post-Q fever fatigue syndrome
Acute Q fever
- Fever is uniform finding in all syndromes
- Chills, headache (severe), fatigue, and myalgias that lasts 2-21 days (14)
- Can present with rash including urticaria
- Palpable purpura can be seen in chronic Q fever (that is, endocarditis)
Pneumonia
- Can present as an atypical pneumonia, a rapidly-progressing pneumonia, and an incidental pneumonia in a febrile patient (most common)
- A community-acquired pneumonia that doesn't respond to first-line antibiotics (like Legionella and pneumonic tularemia)
- Cough, though often not present, can be non-productive, productive, or bloody
- More common in Americas than Europe
Hepatitis
- Three forms:
- An infectious hepatitisβlike picture
- Fever of unknown origin, with characteristic granulomas ("donut-like") on liver biopsy
- An incidental finding in a patient with acute Q fever pneumonia
- More common in Europe and Americas
CNS Infections
- Can cause Miller-Fischer variant of Guillain-BarrΓ© syndrome
Endocarditis
- Subacute or chronic febrile illess
- Clubbing and hepatosplenomegaly are common
- Higher titres are more convincing β₯1:6400
Diagnosis
- Not readily culturable (nor should you try), though you can see it with Giemsa stain
- PCR is possible though not common
- Causes a false-positive RF, APLA
- Main method of detection is serology
Serology
- Immunofluorescence assay is standard; no need for EIA
- Two phases of IgG antibodies (phase I and II)
- Phase II corresponds more to acute
- Positive if IgM >50 and IgG >200, or if there's a 4x rise in either titres
- Detectable by 2 weeks, should be positive by 4
- Peak at 2 months, then decrease except the IgG in cases of endocarditis
- Also IgA, but not clinically relevant
- Phase I corresponds more to chronic
- Can test for IgG (useful) and IgA (useless) titres
- IgG β₯ 800 consistent with chronic infection, and is one of the minor Duke criteria for endocarditis
- IgG β₯ 6400 is suggestive of endovascular infection or endocarditis (major criteria),
- Phase II corresponds more to acute
- Two ways to diagnose acute infection
- Retrospectively with a fourfold rise in both titres from acute to chronic stage, or
- One-time phase II IgM >50 and IgG >2000
- Chronic infection is diagnosed clinically, with a phase I IgG titre greater than the phase II IgG titre, and both are at least IgG titre >1:1600
- IgM antibodies are usually undetectable by 4 months, though IgG may persist for more than a decade
Management
- Acute Q fever
- Consider screening for bicuspid valve with TTE if high risk, or baseline TTE
- Doxycycline 100mg po bid x 10-14 days
- Second-line is fluoroquinolones or macrolides
- Consider monitoring titres for some period afterwards
- In patients with prosthetic heart valves, consider prolonged treatment as per chronic Q fever (like 1 year)
- Chronic Q fever
- Definitely screen for endocarditis
- Doxycycline + hydroxychloroquine 200mg/d continued until phase I IgG titres have decreased to β€1:800
- Hydroxychloroquine potentiates doxycycline in the phagolysosomes (makes the doxycycline bactericidal)
- Monitor for ophthalmologic complications, and both have photosensitivity
- Can adjust dose of hydroxychloroquine to target serum level 0.8 to 1.2 mcg/mL
- Duration 1.5 years for native valve endocarditis, 2 years for prosthetic valve endocarditis
- Measure titres every 3-6 months during treatment, then every 3 months for 2 years after completing treatment
Pregnancy
- Coxiella loves the placenta
- It can be a cause of flu-like illness in pregnant women with a potential exposure history
- This can be associated with first-trimester pregnancy loss
- Doxycycline and fluoroquinolones are contraindicated
- TMP-SMX 1600/320 daily, make sure they're on folic acid supplementation
- Continue it for the duration of pregnancy
- Theoretic risk of hyperbilirubinemia in third trimester, so may consider holding it towards the end unless there's documented chronic infection
- High risk of developing chronic infection, so titres should be monitored for at least 2 years
- If persistent IgG > 800, consider TEE
Prevention
- Vaccinate high-risk workers