Description

Apergillosis is a disease of the respiratory system caused by several Aspergillus spp.. Aspergillus fumigatus is the most frequently reported species in domestic animals but Aspergillus tereus has also been implicated. Aspergillus is a ubiquitous saprophyte and is found worldwide. It is also a component of normal hair, skin and mucosal flora in both humans and animals. Commonly affected species include birds, dogs, cats, horses and cattle but the disease has been reported in many other wild and domestic species.

Pathogenesis

Spores are inhaled from the environment leading to fungal colonisation of the nasal cavities. Following their deposition in tissue and recognition by phagocytes an inflammatory response is triggered. Haemolytic and dermonecrotic toxins as well as fungal protease and elastase are released leading to tissue damage.

Clinical signs and features

Birds

Three forms of the disease have been reported in avian species; a diffuse infection of the air sacs; a diffuse pneumonic form and a nodular form involving the lungs. In chicks and poults the disease is known as 'brooder pneumonia' and may affect many birds in a flock. Animals become infected due to inhalation of spores from contaminated feed or litter. Clinical signs include dyspnoea, diarrhoes, listlessness, pyrexia, loss of appetite and loss of condition. Seizures and torticollis may occasionally occur if infection disseminates to the brain.

Cattle

Aspergillosis has a number of clinical manifestations in the cow including mastitis, placentitis, diarrhoea, ocular infection and mycotic pneumonia. Abortion in the second or third trimester of pregnancy has also been described. In the case of pulmonic disease, clinical signs may include pyrexia, cough, dyspnoea and tachypnoea but may be limited to vague signs such as weight loss or mild respiratory disease. In aborting cattle, the foetus and placenta are retained and foetal lesions such as bronchopneumonia and dermatitis may be seen. Mastitic cows may display depression, weight loss and pyrexia with purulent mammary secretions and a hot, swollen udder.

Horses

In the horse, Aspergillus most commonly affects the guttural pouches but infection may also lead to abortion, keratomycosis and rarely pulmonary aspergillosis. Guttural pouch mycosis is characterised by spontaneous epistaxis (often in a resting horse) as a result of fungal erosion of the internal carotid artery. Other clinical signs include nasal discharge and dysphagia. Mycotic plaques are usually located on the caudodorsal aspect of the medial guttural pouch.

Dogs

Aspergillosis is a common cause of nasal disease in dogs. Cases occur most commonly in young to middle aged male dogs, but there is no apparent age or sex predilection. A higher prevalence of disease has been reported in doliocephalic breeds and outdoor/farm dogs. Clinical signs are those seens with any chronic nasal disease and include sneezing, unilateral or bilateral serosanguinous nasal discharge, ulceration of the nares, nasal pain and epistaxis. Neurological signs may be displayed if there is involvement of the cribiform plate. The disease is usually localised to the paranasal sinuses and nasal cavity but a disseminated form with granulomas and infarcts has been reported, particularly in German Shephards. This form of disease often involves multiple organ systems including the spleen and kidneys. Clinical signs include lethargy, anorexia, haematuria, urinary incontinence and haematuria. The vertebrae are frequently affected and osteomyelitis and discospondlylitis are common features. Dermatological signs of disseminated Aspergillosis include abscesses, draining tracts, oral ulcers and cutaneous nodules.

Diagnosis

In dogs, radiology is often peformed in the diagnostic work up of an animal with suspected Aspergillosis. Open-mouth ventro-dorsal views often reveal generalised radiolucency and lysis of the turbinate bones. Additionally, cytological examination of aspirates often reveals presence of fungal hyphae with granulomatous to suppurative inflammation and necrosis. Rhinoscopy may also be used to directly visualise the lesions, revealing characteristic white-green fungal plaques and destruction of the nasal turbinates. It also allows collection of material for fungal culture. This may be achieved using Sabouraud's dextrose agar in order to demonstrate the organism but should not be used as the sole means of diagnosis due to the ubiquitous nature of Aspergillus in the environment. White colonies form intitially which turn dark green, flat and velvet-like in appearance. Serological findings such as immunoelectophoresis, ELISA and agar gel diffusion may provide additional diagnostic information.

In the horse, diagnosis is obtained following endoscopic examination of the guttural pouches and observation of white-yellow-black mycotic plaques on the mucosal surface of the guttural pouches. Care must be taken whilst performing endoscopy due to the risk of dislodgement of a thrombus on the affected artery.

Treatment

In dogs, the treatment of choice is topical application of the anti-fungal agent Clotrimazole. It is admnistered for one hour under general anaesthetic via indwelling catheters placed in the frontal sinus. Several treatments may be required. For cases that are non-responsive to Clotrimazole, treatment with Enilconazole may be attempted but this is associated with a higher complication rate. In cattle, antifungal agents are currently unlicensed and management of the disease usually relies on prevention. In the horse, trans-arterial coil embolisation under fluoroscopic guidance is performed in order to cause internal occlusion of the affected arteries.

References

  • Barr, S. C., Bowman, D. D. (2006) The 5-minute Veterinary Consult Clinical Companion: canine and feline infectious diseases and parasitology Wiley-Blackwell
  • Carter, G. R., Wise, D. J. (2004) Essentials of Veterinary Bacteriology and Mycology Wiley-Blackwell
  • Ettinger, S. J. (2000) Pocket Companion to Textbook of Veterinary Internal Medicine Elsevier Health Sciences
  • Muller, G. H., Scott, D. W., Kirk, R. W., Miller, W. H., Griffin, C. E. (2001) Muller and Kirk's Small Animal Dermatology Elsevier Health Sciences


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Image:Aspergillus sporing heads.jpg|

Aspergillus sporing heads

Copyright Professor Andrew N. Rycroft, BSc, PHD, C. Biol.F.I.Biol., FRCPath

Image:Mycelium aspergillus quink.jpg|

Aspergillus mycelium stained with blue/black Quink

Copyright Professor Andrew N. Rycroft, BSc, PHD, C. Biol.F.I.Biol., FRCPath

Image:Mycotic abortion asper 1.jpg|

Mycotic Abortion caused by Aspergillus

Copyright Professor Andrew N. Rycroft, BSc, PHD, C. Biol.F.I.Biol., FRCPath

Image:Mycotic abortion asper 2.jpg|

Mycotic Abortion caused by Aspergillus

Copyright Professor Andrew N. Rycroft, BSc, PHD, C. Biol.F.I.Biol., FRCPath

Image:Mycotic abortion asper 3.jpg|

Mycotic Abortion caused by Aspergillus

Copyright Professor Andrew N. Rycroft, BSc, PHD, C. Biol.F.I.Biol., FRCPath

Image:Nasal Aspergillus.jpg|

Nasal Aspergillus

Copyright Professor Andrew N. Rycroft, BSc, PHD, C. Biol.F.I.Biol., FRCPath


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