Hemophilia A is the most common coagulation factor disorder in humans and dogs. The disease is characterized by the lack or diminished activity of Factor VIII (FVIII), caused by variants in the F8 gene and inherited as an X chromosomal trait. Two related male Rhodesian Ridgebacks were diagnosed with Hemophilia A due to reduced FVIII activity. The purpose of the study was to determine the genetic cause and give breeding advice for the remaining family members in order to eradicate the variant. By Sanger sequencing a short interspersed nuclear element (SINE) insertion in exon 14 of the F8 gene was found. Perfect correlation of this genetic variant with clinical signs of hemophilia A in the family tree, and the lack of this genetic variant in more than 500 unrelated dogs of the same and other breeds, confirms the hypothesis of this SINE being the underlying genetic cause of Hemophilia A in this family. The identification of clinically unaffected female carriers allows subsequent exclusion of these animals from breeding, to avoid future production of clinically affected male offspring and more subclinical female carriers.
An outbreak investigation was initiated in September 2019, following a notification to the Norwegian Food Safety Authority (NFSA) of an unusually high number of dogs with acute haemorrhagic diarrhoea (AHD) in Oslo. Diagnostic testing by reporting veterinarians had not detected a cause. The official investigation sought to identify a possible common cause, the extent of the outbreak and prevent spread. Epidemiological data were collected through a survey to veterinarians and interviews with dog owners. Diagnostic investigations included necropsies and microbiological, parasitological and toxicological analysis of faecal samples and food. In total, 511 dogs with acute haemorrhagic diarrhoea were registered between 1 August and 1 October. Results indicated a common point source for affected dogs, but were inconclusive with regard to common exposures. A notable finding was that 134 of 325 faecal samples (41%) cultured positive for Providencia alcalifaciens. Whole genome sequencing (WGS) of 75 P. alcalifaciens isolates from 73 dogs revealed that strains from 51 dogs belonged to the same WGS clone. Findings point to P. alcalifaciens as implicated in the outbreak, but investigations are needed to reveal the pathogenic potential of P. alcalifaciens in dogs and its epidemiology.
Dogs with methicillin-resistant Staphylococcus spp. (MRS) infections often undergo treatment in their homes, interacting with their owners and surroundings. This close contact between dogs and owners may facilitate the interspecies transmission of MRS. Therefore, this study aimed to investigate the transmission of MRS from infected dogs to their owners and home environments. Seven households with dogs that had been diagnosed with methicillin-resistant S. pseudintermedius (MRSP) and one household with a dog with methicillin-resistant S. epidermidis (MRSE) participated in the study. Dogs, owners, and the home environments were screened for the presence of clinical MRS. A selection of 36 staphylococcal isolates were whole-genome sequenced and screened for resistance genes and virulence genes. Clinical MRS were primarily identified from the dogs and their immediate surroundings, but these were also detected in locations that were out of reach for the dogs, indicating indirect transmission. Two of eight owners carried clinical MRS in their nostrils, while one owner carried methicillin-susceptible S. pseudintermedius (MSSP). All clinical MRS were multi-resistant, and several possessed resistance genes that were not expressed phenotypically. Clinical MRSP persisted in the home environment for a prolonged period, despite infection recovery and one dog being euthanized. Regardless of the stable presence of MRSP in the surroundings, the owners in these homes remained negative, but tested positive for MSSP on three occasions.
Gastrointestinal side effects caused by naproxen and oxindanac (a developmental non-steroidal anti-inflammatory drug) were compared by combined endoscopy and determination of faecal blood loss in 16 healthy male volunteers in a randomized, double-blind, crossover study. Individual daily faecal blood loss was determined by means of 51Cr-labelled erythrocytes. Gastroduodenoscopy was performed before and after administration of naproxen, 750 mg/day, and oxindanac, 600 mg/day, for 1 week each. A washout period of at least 3 weeks was inserted between drug periods. Visual analogue scales (VAS) were used for endoscopic assessment of lesions and subjective complaints. Mean faecal blood loss increased from a base line 0.48 ml/24 h to 1.59 ml/24 h with naproxen (p less than 0.01) and from 0.56 ml/24 h to 1.31 ml/24 h with oxindanac (p less than 0.01). VAS scores for gastroduodenal lesions increased significantly with both drugs. Naproxen caused a significantly greater increase than oxindanac (p less than 0.05). There was no correlation between gastrointestinal blood loss and endoscopic findings. Subjective symptoms were correlated to faecal blood loss with naproxen, but not to endoscopic findings. No such correlations were observed for oxindanac. Naproxen caused a significant prolongation of bleeding time (p less than 0.01), whereas the increase caused by oxindanac was not significant (p = 0.09).
Background A severe form of acute hemorrhagic diarrhea syndrome (AHDS) occurred in dogs in the Oslo region of Norway during autumn 2019. Objectives To characterize the fecal microbiota of dogs with AHDS during the outbreak and compare it to that of healthy dogs from the same period and before the outbreak. Animals Dogs with AHDS (n = 50), dogs with nonhemorrhagic diarrhea (n = 3), and healthy dogs (n = 11) were sampled during the outbreak. In addition, 78 healthy dogs from the same region were sampled before the outbreak between 2017 and 2018. Methods Retrospective case‐control study. The fecal microbiotas were characterized using 16S rRNA gene amplicon sequencing. Results Dogs with AHDS had significantly different microbiota composition (R2 = .07, P < .001) and decreased intestinal diversity relative to healthy dogs from the outbreak period (median, 2.7; range, 0.9‐3.5 vs median, 3.2; range, 2.6‐4.0; P < .001). The microbiota in dogs with AHDS was characterized by a decrease of Firmicutes and an outgrowth of Proteobacteria, with increased numbers of Clostridium perfringens and Providencia spp. Among the Providencia spp., 1 showed 100% sequence identity with a Providencia alcalifaciens strain that was cultivated and isolated from the same outbreak. No Providencia spp. was found in healthy dogs sampled before the outbreak. Conclusions and Clinical Importance Dogs with AHDS had marked changes in fecal microbiota including increased numbers of Providencia spp. and C. perfringens, which may have contributed to the severity of this illness.
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