Coxiella burnetii
Phylum Proteobacteria
Class Zymobacteria
Sub-class Alphaproteobacteria
Order Legionellales
Family Coxiellaceae
Genus Coxiella
Species C. burnetii

Also Known As: Abattoir Fever — Australian Q Fever — Coxiellosis — Derrick-Burnet Disease — Balkan grippe — Nine mile fever — Quadrilateral fever — Pneumorickettsiosis — Hibernovernal bronchopneumonia

Caused By: Coxiella burnetii

Introduction

Goat placenta from Q fever abortion. Note the thickened intracotyledonary areas and tan exudate. The cotyledons have tan necrotic margins and congested, red centres. Copyright CFSPH Iowa State.

Q fever is caused by the gram negative, intracellular rickettsial bacterium, Coxiella burnetii. It causes respiratory and reproductive disease in animals and is an important zoonosis. The organism targets the macrophages of the host.

It is a highly infectious disease affecting a wide range of species, but most importantly, humans and livestock. Wild animals are the natural reservoir for infection.

Q fever in humans manifests as acute, severe flu-like illness, particularly in abattoir and farm workers.

This disease is notifiable to the World Organisation for Animal Health (OIE)

Distribution

Worldwide except for New Zealand.

C. burnetii is transmitted by many species of tick, including Amblyomma spp, Ixodes spp. and Dermacentor spp. It has two interacting cycles of development involving small and large cell variants. Both are infectious.

The organisms can survive for long periods outside of a host; >586 days in tick faeces and months or years in the environment.

Most humans acquire the disease by inhalation. Cats, rabbits and birds along with other species may play roles in transmission to humans, on top of the main ruminant hosts. Humans rarely acquire the first, ectoparasite dependent cycle of disease, almost always being infected from domestic animals.

Sexual transmission of Q fever has also been reported.

Signalment

Cattle, goats and sheep are the primary domestic reservoir for Q fever.

Infected animals shed the pathogen in their urine, faeces, milk and birth materials. Infected cattle may become carriers of infection, with the agent localised in the mammary glands.

In Europe, Q fever cases are more frequent in Spring and Summer, thought to be due to the lambing season.

5/6 human cases of Q fever are in adult males between 20 and 50 years old.

Clinical Signs

Chronic Q fever is characterised by pneumonia, abortion, rhinitis and poor offspring viability in animals. Abortion usually occurs in the third trimester of gestation and may occur in storms over 2-4 weeks involving up to 50% of the flock/herd.

Anorexia, depression and fever usually accompany respiratory and reproductive disease.

In man, it causes severe headaches, chills, remittent fever, cough, photosensitivity, fatigue and malaise. Pneumonia and hepatitis may occur in acute disease, while chronic infection often causes endocarditis. Existing heart disease or valvular grafts etc are important predisposing factors in people. Q fever can cause abortion and premature birth in pregnant women. Approximately ¼ deveop pronounced respiratory signs and pneumonia.

Diagnosis

On gross examination, the placenta of Q fever abortions is red-brown with light brown/tan exudates and soft, necrotic cotyledons. The aborted foetus may show hepatomegaly, subcutaneous oedema and reddish fluid accumulation.

On histopathology, the placenta is infiltrated by mononuclear cells and chorionic trophoblasts are necrotic. The exudate contains fibrin and neutrophils. The liver displays histological vascular endothelial proliferation and diffuse leucocytic inflammation. Lymph follicles in the spleen and bronchial lymph nodes may be hyperplastic. Renal epithelial cells show vascular dystrophy and proliferation of fibroblasts.

C. burnetii can be confirmed by visualisation of smears from placenta, lung, liver and abomasum from the foetus or vaginal discharge, with Gimenez staining.

Serological antibody detection via Phase I antibodies indicate acute disease whereas Phase II are suggestive of prolonged, chronic infection. There are many methods of detecting antibodies including microagglutination, ELISA, IFAT, Radioimmunoassays, Complement fixation and Western blot.

PCR is available from a range of clinical samples including milk and vaginal swabs and blood.

On post-mortem examination', granulomatous lesions most commonly involve the lungs, liver and bone marrow. Typical “doughnut granulomas” form in the liver in acute cases. The liver is oedematous and fragile and spleen enlarged and hyperaemic. Consolidation, alveolar exudates and interstitial inflammatory exudates containing predominantly macrophages are consequences of the respiratory manifestation of disease.

Treatment

Doxycycline or a fluoroquinolone are the first line treatments for acute Q fever. Treatment is required for 2-3 weeks minimum.

In chronic infection, a combination of doxycycline and hydroxychloroquine is preferred.

At least 18 months of therapy is required for endocarditis.

Control

Reducing environmental contamination is part of control of Q fever in humans. The pasteurisation of milk and good hygiene measures are also very valuable.

Vaccination is also available for high risk individuals such as veterinarians and their staff, laboratory personnel and abattoir workers. These are based upon whole cell Phase I types of C. burnetii. Safe use of vaccines requires screening by skin tests, serology or lymphocyte proliferation assays.

The dangers of vaccinating pre-infected animals means that widespread vaccination of domestic stock is not currently used.



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References

Animal Health & Production Compendium, Coxiella burnetii datasheet, accessed 08/06/2011 @ http://www.cabi.org/ahpc/

Animal Health & Production Compendium, Q Fever datasheet, accessed 08/06/2011 @ http://www.cabi.org/ahpc/