The changing face of the henipaviruses.

The Henipavirus genus represents a group of paramyxoviruses that are some of the deadliest of known human and veterinary pathogens. Hendra and Nipah viruses are zoonotic pathogens that can cause respiratory and encephalitic illness in humans with mortality rates that exceed 70%. Over the past several years, we have seen an increase in the number of cases and an altered clinical presentation of Hendra virus in naturally infected horses. Recent increase in the number of cases has also been reported with human Nipah virus infections in Bangladesh. These factors, along with the recent discovery of henipa and henipa-like viruses in Africa, Asia and South and Central America adds, a truly global perspective to this group of emerging viruses.

Molecular diagnosis of sparganosis associated with pneumothorax in a dog.

Pneumothorax was diagnosed in a dog presenting with progressive exercise intolerance and tachypnoea. Needle thoracocentesis failed to resolve the pneumothorax, and an exploratomy thoracotomy was performed. Upon inspection of the thoracic cavity, numerous white nodules (2 to 4mm) were present throughout the mediastinum, parietal pleura and the lung lobes. The owners of the dog elected intra-operative euthanasia, and a post mortem examination was performed. At necropsy, structures consistent with the plerocercoid (larval) stage of a tapeworm were identified in association with inflammation of the pleural cavity. Molecular methods were used to identify the parasite as Spirometra erinacei. Molecular diagnosis, along with the clinical presentation and pathological findings, allowed the diagnosis of proliferative sparganosis.

Fluorescence in situ hybridization analysis of hindgut bacteria associated with the development of equine laminitis.

Carbohydrate-induced laminitis in horses is characterized by marked changes in the composition of the hindgut microbiota, from a predominantly Gram-negative population to one dominated by Gram-positive bacteria. The objective of this study was to monitor changes in the relative abundance of selected hindgut bacteria that have previously been implicated in the pathophysiology of equine laminitis using fluorescence in situ hybridization (FISH). Caecal cannulae were surgically implanted in five Standardbred horses and laminitis induced by oral administration of a bolus dose of oligofructose. Caecal fluid and faecal specimens were collected over a 48 h period at 2 to 4 h intervals post-oligofructose administration and subjected to FISH using probes specific for nine bacterial groups to determine changes in their relative abundance compared with total bacteria hybridizing to the generic EUBMIX probe. Additionally, hoof biopsies were taken over the course of the experiment at 6 h intervals and evaluated for histopathological changes consistent with laminitis, allowing changes in hindgut microbiota to be correlated with the onset of lesions in the foot. Of the microorganisms specifically targeted, streptococci of the Streptococcus bovis/equinus complex were the only bacteria that consistently proliferated in both caecal fluid and faeces immediately before the onset of histological signs of laminitis. Furthermore, lactobacilli, Enterobacteriaceae, Allisonella histaminiformans, enterococci, Bacteroides fragilis, Mitsuokella jalaludinii and Clostridium difficile did not establish significant populations in the hindgut before the onset of equine laminitis.