Difference between revisions of "Francisella tularensis"
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===Overview=== | ===Overview=== | ||
− | *Causes tularaemia in animals and humans | + | *Causes tularaemia in wildlife, domestic animals and humans |
− | *Wildlife reservoir of infection | + | *Wildlife reservoir of infection, including rabbits, rodents, galliform birds and deer |
*Survives in the soil for up to 4 months | *Survives in the soil for up to 4 months | ||
− | * | + | *Type A strains associated with terrestrial animal reservoirs; type B strains with water-borne infections and aquatic animals |
+ | *Ticks and deerfly act as vectors | ||
+ | *Fatal infection in humans, with ulers and lymphadenopathy; vaccine available | ||
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*No growth on MacConkey | *No growth on MacConkey | ||
*Facultative intracellular pathogen | *Facultative intracellular pathogen | ||
+ | |||
+ | |||
+ | ===Pathogenesis and pathogenicity=== | ||
+ | |||
+ | *High lipid content; virulent isolates produce capsules | ||
+ | *Highly virulent type A stains, ''F. tularensis'' subspecies ''tularensis'' in North America; less virulent type B strains, ''F. tularensis'' subspecies ''holarctica'' in Eurasia and North America | ||
+ | *Infection through skin abrasions or arthropod bites, inhalation or ingestion | ||
+ | *Organism survives and replicates in acidic environment of macrophages by inhibiting phagosome/lysosome fusion | ||
+ | *Acidic environment required for release of iron, required for growth, from tranferin | ||
+ | *Lymphadenitis and septicaemia | ||
+ | *Enlarged lymph nodes with pale necrotic foci | ||
+ | *Miliary lesions in [[Spleen - Anatomy & Physiology|spleen]] and liver | ||
+ | *Pulmonary consolidation; primary pulmonary lesions due to aerosol inhalation in dogs | ||
+ | |||
+ | |||
+ | ===Clinical infections=== | ||
+ | |||
+ | *Fulminant disease in immunosuppressed | ||
+ | *Septicaemia with fever, depression, inappetence, stiffness | ||
+ | *Chronic granulomatous or subclinical infections | ||
+ | *Type A strains cause most infections in domestic animals; type B strains cause mild disease | ||
+ | *Rare outbreaks of tularaemia in sheep, horses and young pigs | ||
+ | *Adult pigs and cattle resistant | ||
+ | *Dogs and cats seroconvert without clinical signs | ||
+ | |||
+ | |||
+ | ===Diagnosis=== | ||
+ | |||
+ | *Heavy tick infestation in severely infected animals in an endemic area indicate tularaemia | ||
+ | *Blood serology - high agglutinating antibody titres or rising antibody titre | ||
+ | *Scraping from ulcers, lymph node aspirates and biopsy material | ||
+ | *Post mortem | ||
+ | *Fluorescent antibody technique on tissues, exudates or culture | ||
+ | *Glucose-cysteine-blood agar used for culture | ||
+ | *Small, grey, mucoid colonies, surrounded by narrow zone of incomplete haemolysis, after 3-4 days incubation | ||
+ | *Immunofluorescence confirms presence in smears | ||
+ | *Slide agglutination test on cultures | ||
+ | *Biochemical tests to distinguish type A from type B strains | ||
+ | *PCR for detection in blood | ||
+ | *Isolation in embryonated eggs or lab animals | ||
+ | |||
+ | |||
+ | ===Treatment=== | ||
+ | |||
+ | *Antibiotics including amikacin, streptomycin, fluoroquinolones | ||
+ | |||
+ | |||
+ | ===Control=== | ||
+ | |||
+ | *Ectoparasite control | ||
+ | *Daily removal of ticks from dogs and cats | ||
+ | *Prevent dogs and cats hunting wildlife | ||
+ | [[Category:Bacteria miscellaneous]][[Category:Gram_negative_bacteria]][[Category:Coccobacilli]] | ||
+ | [[Category:Rods]] | ||
+ | [[Category:To_Do_-_Bacteria]] |
Latest revision as of 10:23, 25 June 2010
This article has been peer reviewed but is awaiting expert review. If you would like to help with this, please see more information about expert reviewing. |
Overview
- Causes tularaemia in wildlife, domestic animals and humans
- Wildlife reservoir of infection, including rabbits, rodents, galliform birds and deer
- Survives in the soil for up to 4 months
- Type A strains associated with terrestrial animal reservoirs; type B strains with water-borne infections and aquatic animals
- Ticks and deerfly act as vectors
- Fatal infection in humans, with ulers and lymphadenopathy; vaccine available
Characteristics
- Gram negative rod with coccobacillary appearance
- Non-moltile, obligate aerobe
- Oxidase negative, weakly catalase positive
- Fastidious, requiring cysteine for growth on blood agar
- No growth on MacConkey
- Facultative intracellular pathogen
Pathogenesis and pathogenicity
- High lipid content; virulent isolates produce capsules
- Highly virulent type A stains, F. tularensis subspecies tularensis in North America; less virulent type B strains, F. tularensis subspecies holarctica in Eurasia and North America
- Infection through skin abrasions or arthropod bites, inhalation or ingestion
- Organism survives and replicates in acidic environment of macrophages by inhibiting phagosome/lysosome fusion
- Acidic environment required for release of iron, required for growth, from tranferin
- Lymphadenitis and septicaemia
- Enlarged lymph nodes with pale necrotic foci
- Miliary lesions in spleen and liver
- Pulmonary consolidation; primary pulmonary lesions due to aerosol inhalation in dogs
Clinical infections
- Fulminant disease in immunosuppressed
- Septicaemia with fever, depression, inappetence, stiffness
- Chronic granulomatous or subclinical infections
- Type A strains cause most infections in domestic animals; type B strains cause mild disease
- Rare outbreaks of tularaemia in sheep, horses and young pigs
- Adult pigs and cattle resistant
- Dogs and cats seroconvert without clinical signs
Diagnosis
- Heavy tick infestation in severely infected animals in an endemic area indicate tularaemia
- Blood serology - high agglutinating antibody titres or rising antibody titre
- Scraping from ulcers, lymph node aspirates and biopsy material
- Post mortem
- Fluorescent antibody technique on tissues, exudates or culture
- Glucose-cysteine-blood agar used for culture
- Small, grey, mucoid colonies, surrounded by narrow zone of incomplete haemolysis, after 3-4 days incubation
- Immunofluorescence confirms presence in smears
- Slide agglutination test on cultures
- Biochemical tests to distinguish type A from type B strains
- PCR for detection in blood
- Isolation in embryonated eggs or lab animals
Treatment
- Antibiotics including amikacin, streptomycin, fluoroquinolones
Control
- Ectoparasite control
- Daily removal of ticks from dogs and cats
- Prevent dogs and cats hunting wildlife