Francisella tularensis: Difference between revisions
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Francisella tularensis
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===Microbiology=== |
===Microbiology=== |
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*A fastidious [[Stain::Gram-negative]] [[ |
*A fastidious [[Stain::Gram-negative]] [[Shape::coccobacillus]] |
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**Very small on Gram stain, giving a "pink sand" appearance |
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**Do not stain well; fuchsine dye can help |
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**Needs cysteine to grow, so doesn't grow well on normal media |
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*Weakly catalase [[Oxidase::positive]], usually oxidase [[Oxidase::negative]], and urease [[Urease::negative]] |
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*Multiple subspecies, including ''tularensis'', ''holarctica'', ''novocida'', ''mediasiatica'', which are further subdivided into clades, and related species ''Francisella philomiragia'' and ''Francisella hispaniensis'' |
*Multiple subspecies, including ''tularensis'', ''holarctica'', ''novocida'', ''mediasiatica'', which are further subdivided into clades, and related species ''Francisella philomiragia'' and ''Francisella hispaniensis'' |
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*Subspecies of importance to humans include: |
*Subspecies of importance to humans include: |
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*Discovered in 1911 in Tulare county, California |
*Discovered in 1911 in Tulare county, California |
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*Many names: deer fly fever, rabbit fever, etc... |
*Many names: deer fly fever, rabbit fever, water rat trappers disease, etc... |
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===Epidemiology=== |
===Epidemiology=== |
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*Zoonotic infection whose main animal reservoirs are rodents and rabbits |
*Zoonotic infection whose main animal reservoirs are rodents and rabbits |
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**In North America, the most important reservoirs are [[Sylvilagus |
**In North America, the most important reservoirs are [[Sylvilagus]] (especially [[Sylvilagus nuttalii]], the cottontail rabbit) and [[Lepus]] lagomorphs (rabbits), and a number of rodents including voles, squirrels, muskrats (especially in Canada), and beavers |
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**In Europe, the reservoirs include voles, hamsters, mice, and hares |
**In Europe, the reservoirs include voles, hamsters, mice, and hares |
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*Essentially worldwide Northern Hemisphere distribution, especially in the US, Japan, Russia, and Scandinavian countries |
*Essentially worldwide Northern Hemisphere distribution, especially in the US, Japan, Russia, and Scandinavian countries |
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**In Canada, occurs mostly in the Prairies |
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*Transmission: |
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*Transmission through a number of mechanisms |
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**Vector-borne |
**Vector-borne |
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***In North America, by [[Vector::Amblyomma americanum]] ticks, [[Vector::Dermacentor variabilis]] ticks, [[Vector::Dermacentor andersoni]] ticks, [[Vector::Chrysops discalis]] deer flies |
***In North America, by [[Vector::Amblyomma americanum]] ticks, [[Vector::Dermacentor variabilis]] ticks, [[Vector::Dermacentor andersoni]] ticks, [[Vector::Chrysops discalis]] deer flies |
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***In Europe, [[Vector::Aedes cinereus]] and [[Vector::Ochlerotatus exrucians]] mosquitoes are more important, as well as [[Vector::Chrysops relictus]] deer flies and [[Vector::Haematopota pluvialis]] horse flies |
***In Europe, [[Vector::Aedes cinereus]] and [[Vector::Ochlerotatus exrucians]] mosquitoes are more important, as well as [[Vector::Chrysops relictus]] deer flies and [[Vector::Haematopota pluvialis]] horse flies |
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***Requires a minimum of 24 hours of tick attachment to transmit to the host |
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**Direct contact with animal products, including skinning, dressing, and eating wild game |
**Direct contact with animal products, including skinning, dressing, and eating wild game |
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***Viable in carcasses and dust for up to 136 days |
***Viable in carcasses and dust for up to 136 days |
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**Inhalation of aerosolized vectors (e.g. lawn-mowing), contact with contaminated water or mud, and animal bites of animals that have killed infected reservoir hosts (e.g. cats killing rodents) |
**Inhalation of aerosolized vectors (e.g. lawn-mowing), contact with contaminated water or mud, and animal bites of animals that have killed infected reservoir hosts (e.g. cats killing rodents) |
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**Potential for [[Bioterrorism agents|bioterrorism]], especially with waterborne or aerosol transmission |
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===Pathophysiology=== |
===Pathophysiology=== |
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*Facultative intracellular growth |
*Facultative intracellular growth |
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**Can infect and persist within erythrocytes, providing protection against [[aminoglycosides]] |
**Can infect and persist within erythrocytes, providing protection against [[aminoglycosides]] |
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=== Virulence Factors === |
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* Lipopolysaccharide is not well-recognized by TLR4 |
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* Capsule |
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* Type IV pili binds to epithelial cells |
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* Facultatively intracellular |
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==Clinical Manifestations== |
==Clinical Manifestations== |
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**May have a [[Causes::relative bradycardia]] (more common in US than Europe) |
**May have a [[Causes::relative bradycardia]] (more common in US than Europe) |
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*These symptoms may remit and relapse, presenting as a subacute [[Causes::relapsing fever]] over weeks, with associated weight loss, deconditioning, and lymphadenopathy |
*These symptoms may remit and relapse, presenting as a subacute [[Causes::relapsing fever]] over weeks, with associated weight loss, deconditioning, and lymphadenopathy |
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*Bloodwork may show [[leukocytosis]] and elevated ESR, as well as occasional [[thrombocytopenia]], [[hyponatremia]], elevated liver enzymes, elevated CK, myoglobinuria, and |
*Bloodwork may show [[leukocytosis]] and elevated ESR, as well as occasional [[thrombocytopenia]], [[hyponatremia]], elevated liver enzymes, elevated CK, myoglobinuria, and sterile pyuria |
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===Ulceroglandular Tularemia=== |
===Ulceroglandular Tularemia=== |
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*Most common |
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*Ulcer develops at site of inoculation with tender lymphadenopathy and systemic symptoms |
*Ulcer develops at site of inoculation with tender lymphadenopathy and systemic symptoms |
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*Ulcer can be red papule or vesicular (similar to HSV), then either heals or becomes necrotic |
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===Glandular Tularemia=== |
===Glandular Tularemia=== |
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*Febrile illness without lymphadenopathy or ulcer, sometimes with diarrhea |
*Febrile illness without lymphadenopathy or ulcer, sometimes with diarrhea |
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*May involve [[endocarditis]] |
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*Patient often has an underlying chronic disease |
*Patient often has an underlying chronic disease |
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*Often rapidly-progressive and fatal |
*Often rapidly-progressive and fatal |
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*Acquired by direct inhalation, often from sheep shearing, landscaping, and microbiology laboratory work |
*Acquired by direct inhalation, often from sheep shearing, landscaping, and microbiology laboratory work |
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*Can also develop secondary to one of the other syndromes |
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*Chest x-ray is non-specific |
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===Complications and Prognosis=== |
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*Suppurative lymphadenopathy is the most common complication despite antibiotics, and may require drainage |
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*Severe disease may cause DIC, renal failure, rhabdomyolysis, jaundice, and hepatitis |
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*Without treatment, complications include meningitis, encephalitis, pericarditis, peritonitis, osteomyelitis, splenic rupture, and thrombophlebitis |
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*Rarely, [[Guillain-Barré syndrome]] following ulceroglandular tularemia |
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*Symptoms, especially neuropsychiatric symptoms, may persist for weeks after treatment |
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*Mortality is 60% without treatment, and decreases to 2 to 4% with antibiotics |
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==Diagnosis== |
==Diagnosis== |
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*Diagnosis is primarily clinical, and treatment should be given while attempting to confirm with diagnostic testing |
*Diagnosis is primarily clinical, and treatment should be given while attempting to confirm with diagnostic testing |
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=== Culture === |
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=== Serology === |
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=== Other === |
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*DFA and PCR are available at reference labs |
*DFA and PCR are available at reference labs |
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*Slide agglutination of a colony as a rapid test to identify |
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*Automated methods should not be used, due to the risk of aerosolization, and may also misindentify as [[Haemophilus]] or [[Aggregatibacter]] species |
*Automated methods should not be used, due to the risk of aerosolization, and may also misindentify as [[Haemophilus]] or [[Aggregatibacter]] species |
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==Management== |
==Management== |
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*Due to the presence of a β-lactamase and the fact that it's facultatively intracellular, it is not treated with any β-lactam antibiotics |
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*For severe disease, [[Is treated by::streptomycin]] 10 mg/kg (max 1 g) IM q12h for 7 to 10 days |
*For severe disease, [[Is treated by::streptomycin]] 10 mg/kg (max 1 g) IM q12h for 7 to 10 days |
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**Alternatives include [[Is treated by::gentamicin]] or [[Is treated by::amikacin]] |
**Alternatives include [[Is treated by::gentamicin]] 2.5 mg/kg IM/IV q8h or [[Is treated by::amikacin]] |
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*For mild to moderate disease, alternatives include: |
*For mild to moderate disease, alternatives include: |
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**[[Is treated by::Doxycycline]] 100 mg po bid for 14 to 21 days |
**[[Is treated by::Doxycycline]] 100 mg po bid for 14 to 21 days |
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**[[Is treated by::Ciprofloxacin]] 500 mg po bid for 10 to 14 days |
**[[Is treated by::Ciprofloxacin]] 500 mg po bid for 10 to 14 days |
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*For meningitis, use an aminoglycoside (as above) plus either IV ciprofloxacin, doxycycline, or chloramphenicol for 14 to 21 days |
*For meningitis, use an [[Aminoglycosides|aminoglycoside]] (as above) plus either IV [[ciprofloxacin]], [[doxycycline]], or [[chloramphenicol]] for 14 to 21 days |
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**Aminoglycosides have poor CNS penetration |
**[[Aminoglycosides]] have poor CNS penetration |
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*Pregnant women or children are usually treated with [[ciprofloxacin]] |
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==Prevention== |
==Prevention== |
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*Live attenuated vaccine derived from ''holarctica'' |
*Live attenuated vaccine derived from ''holarctica'' |
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=== Post-Exposure Prophylaxis === |
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* Only given after aerosolized exposure |
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* [[Doxycycline]] or [[ciprofloxacin]] for 14 days |
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===Lab Safety=== |
===Lab Safety=== |
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*Should be suspected with any slowly-growing, small, and poorly-staining Gram-negative coccobacillus is isolated on chocolate agar but not blood agar |
*Should be suspected with any slowly-growing, small, and poorly-staining Gram-negative coccobacillus is isolated on chocolate agar but not blood agar |
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*Automated laboratory identification systems should ''not'' be used, because the risk of aerosol generation |
*Automated laboratory identification systems should ''not'' be used, because the risk of aerosol generation |
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*Commonly misidentified by automated methods as [[Haemophilus species|Haemophilus]] or [[Aggregatibacter]] species |
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{{DISPLAYTITLE:''Francisella tularensis''}} |
{{DISPLAYTITLE:''Francisella tularensis''}} |
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[[Category:Gram-negative bacilli]] |
[[Category:Gram-negative bacilli]] |
Latest revision as of 16:25, 8 July 2023
- Zoonontic infection carried on rodents and rabbits and transmitted by biting insects
- Presentation depends on route of entry: (ulcero)glandular, oculoglandular, pharyngeal, typhoidal, or pneumonic
- Treatment is streptomycin
Background
Microbiology
- A fastidious Gram-negative coccobacillus
- Very small on Gram stain, giving a "pink sand" appearance
- Do not stain well; fuchsine dye can help
- Needs cysteine to grow, so doesn't grow well on normal media
- Weakly catalase positive, usually oxidase negative, and urease negative
- Multiple subspecies, including tularensis, holarctica, novocida, mediasiatica, which are further subdivided into clades, and related species Francisella philomiragia and Francisella hispaniensis
- Subspecies of importance to humans include:
- Subspecies tularensis (type A strains)
- Found in North America and rarely Europe
- Two major clades (AI and AII) and four subclades (AIa, AIb, AIIa, and AIIb)
- Overall the subspecies is the most virulent subspecies, and specifically the AIb subclade is the most virulent strain
- Subspecies holarctica (type B strains)
- Found in the entire northern hemisphere as well as Australia
- Four major clades (B4 in North America, B6 in Western Europe, B12 in Eastern Europe and Central Asia, and B16 in Japan and other areas in Eastern Asia) and a number of subclades
- Subspecies novicida
- Rare cause of disease in humans, usually in immunocompromised hosts, and presents with bacteremia rather than tularemia
- Subspecies mediasiatica does not cause disease in humans
- Subspecies tularensis (type A strains)
History
- Discovered in 1911 in Tulare county, California
- Many names: deer fly fever, rabbit fever, water rat trappers disease, etc...
Epidemiology
- Zoonotic infection whose main animal reservoirs are rodents and rabbits
- In North America, the most important reservoirs are Sylvilagus (especially Sylvilagus nuttalii, the cottontail rabbit) and Lepus lagomorphs (rabbits), and a number of rodents including voles, squirrels, muskrats (especially in Canada), and beavers
- In Europe, the reservoirs include voles, hamsters, mice, and hares
- Essentially worldwide Northern Hemisphere distribution, especially in the US, Japan, Russia, and Scandinavian countries
- In Canada, occurs mostly in the Prairies
- Transmission through a number of mechanisms
- Vector-borne
- In North America, by Amblyomma americanum ticks, Dermacentor variabilis ticks, Dermacentor andersoni ticks, Chrysops discalis deer flies
- In Europe, Aedes cinereus and Ochlerotatus exrucians mosquitoes are more important, as well as Chrysops relictus deer flies and Haematopota pluvialis horse flies
- Requires a minimum of 24 hours of tick attachment to transmit to the host
- Direct contact with animal products, including skinning, dressing, and eating wild game
- Viable in carcasses and dust for up to 136 days
- Inhalation of aerosolized vectors (e.g. lawn-mowing), contact with contaminated water or mud, and animal bites of animals that have killed infected reservoir hosts (e.g. cats killing rodents)
- Potential for bioterrorism, especially with waterborne or aerosol transmission
- Vector-borne
Pathophysiology
- Infectious dose depends on route, but is as low as 10 to 50 organisms when injected intradermally or inhaled (or several orders of magnitude higher if ingested)
- TLR4 has less affinity for its LPS compared to other bacteria
- Capsule inhibits IgM and complement C3
- Capsule-deficient strains are both less immunogenic and less virulent
- Facultative intracellular growth
- Can infect and persist within erythrocytes, providing protection against aminoglycosides
Virulence Factors
- Lipopolysaccharide is not well-recognized by TLR4
- Capsule
- Type IV pili binds to epithelial cells
- Facultatively intracellular
Clinical Manifestations
- Incubation period of 3 to 5 days (range 1 to 21 days)
- The first symptom is usually a papule at the site of inoculation that develops into an ulcer over 1 to 2 days, but this may go unnoticed
- This is followed by fever which likely corresponds to initial lymphohematogenous dissemination
- Other common symptoms include chills, headache, malaise, anorexia, and fatigue
- May also have cough, myalgias, chest discomfort, vomiting, sore throat, abdominal pain, and diarrhea
- May have a relative bradycardia (more common in US than Europe)
- These symptoms may remit and relapse, presenting as a subacute relapsing fever over weeks, with associated weight loss, deconditioning, and lymphadenopathy
- Bloodwork may show leukocytosis and elevated ESR, as well as occasional thrombocytopenia, hyponatremia, elevated liver enzymes, elevated CK, myoglobinuria, and sterile pyuria
Ulceroglandular Tularemia
- Most common
- Ulcer develops at site of inoculation with tender lymphadenopathy and systemic symptoms
- Ulcer can be red papule or vesicular (similar to HSV), then either heals or becomes necrotic
Glandular Tularemia
- Ulcer is undetectable or healed, only lymphadenopathy and systemic illness remains
Oculoglandular Tularemia
- Entry through the conjuctiva
- Rare
Pharyngeal Tularemia
- Entry through the oropharynx, with exudative pharyngitis/tonsillitis
- May be difficult to distinguish from other forms of tularemia that also may have sore throat
Typhoidal Tularemia
- Febrile illness without lymphadenopathy or ulcer, sometimes with diarrhea
- May involve endocarditis
- Patient often has an underlying chronic disease
- Often rapidly-progressive and fatal
Pneumonic Tularemia
- Acquired by direct inhalation, often from sheep shearing, landscaping, and microbiology laboratory work
- Can also develop secondary to one of the other syndromes
- Chest x-ray is non-specific
Complications and Prognosis
- Suppurative lymphadenopathy is the most common complication despite antibiotics, and may require drainage
- Severe disease may cause DIC, renal failure, rhabdomyolysis, jaundice, and hepatitis
- Without treatment, complications include meningitis, encephalitis, pericarditis, peritonitis, osteomyelitis, splenic rupture, and thrombophlebitis
- Rarely, Guillain-Barré syndrome following ulceroglandular tularemia
- Symptoms, especially neuropsychiatric symptoms, may persist for weeks after treatment
- Mortality is 60% without treatment, and decreases to 2 to 4% with antibiotics
Diagnosis
- Diagnosis is primarily clinical, and treatment should be given while attempting to confirm with diagnostic testing
Culture
- Notify lab that tularemia is suspected before sending samples
- Gram stain is very rarely positive
- May be isolated from blood, pleural fluid, lymph nodes, wounds, sputum, and gastric aspirates
- Grows slowly on standard culture media, needs cystine-rich media (e.g. chocolate agar, BHI, or cystine media)
- Looks bacillary in logarithmic growth phase (small Gram-negative rod), slow-growing only on chocolate agar
Serology
- The most common test used to diagnose
- Can use tube agglutination (used in Ontario and the US), microagglutination, hemagglutination, enzyme-linked immunosorbent assay (used in Europe), or immunochromatographic assay
- IgM and IgG appear together, usually after 2 weeks and peak at 4 to 5 weeks
- Can persist for at least 10 years
- Presumptive positive with a single titre ≥1:160 (tube agglutination) or ≥1:128 (microagglutination), but this can also be compatible with remote infection
- Definitive diagnosis is made with a four-fold rise in acute and convalescent serology collected 2 to 3 weeks apart, with at least one test being above the threshold for presumptive positive
- May cross-react with Brucella, Proteus OX19, Legionella, and Yersinia, but titres normally aren't particularly high, as well as with environmental, non-pathogenic Francisella
Other
- DFA and PCR are available at reference labs
- Slide agglutination of a colony as a rapid test to identify
- Automated methods should not be used, due to the risk of aerosolization, and may also misindentify as Haemophilus or Aggregatibacter species
Management
- Due to the presence of a β-lactamase and the fact that it's facultatively intracellular, it is not treated with any β-lactam antibiotics
- For severe disease, streptomycin 10 mg/kg (max 1 g) IM q12h for 7 to 10 days
- Alternatives include gentamicin 2.5 mg/kg IM/IV q8h or amikacin
- For mild to moderate disease, alternatives include:
- Doxycycline 100 mg po bid for 14 to 21 days
- Ciprofloxacin 500 mg po bid for 10 to 14 days
- For meningitis, use an aminoglycoside (as above) plus either IV ciprofloxacin, doxycycline, or chloramphenicol for 14 to 21 days
- Aminoglycosides have poor CNS penetration
- Pregnant women or children are usually treated with ciprofloxacin
Prevention
Vaccination
- Live attenuated vaccine derived from holarctica
Post-Exposure Prophylaxis
- Only given after aerosolized exposure
- Doxycycline or ciprofloxacin for 14 days
Lab Safety
- This is a biosafety risk group 3 organism
- Should be suspected with any slowly-growing, small, and poorly-staining Gram-negative coccobacillus is isolated on chocolate agar but not blood agar
- Automated laboratory identification systems should not be used, because the risk of aerosol generation