Kim Willoughby

Prevalence of Pasteurella multocida and other respiratory pathogens in the nasal tract of Scottish calves.

The prevalence of Pasteurella multocida, a cause of bovine respiratory disease, was studied in a random sample of beef suckler and dairy farms throughout Scotland, by means of a cross-sectional survey. A total of 637 calves from 68 farms from six geographical regions of Scotland were sampled between February and June 2008. Deep nasal swabs were taken, and samples that were culture-positive for P multocida were confirmed by PCR. Prevalence of P multocida was 17 per cent (105 of 616 calves); 47 per cent of farms had at least one positive animal. A higher prevalence was detected in dairy calves than beef calves (P=0.04). It was found that P multocida was associated with Mycoplasma-like organisms (P=0.06) and bovine parainfluenza type 3 virus (BPI-3) (P=0.04), detected by culture and quantitative PCR of nasal swabs, respectively. Detection of P multocida was not associated with bovine respiratory syncytial virus (BRSV), bovine herpesvirus type 1 (BoHV-1) or bovine viral diarrhoea virus (BVDV). Mycoplasma-like organisms, BPI-3, BRSV, BoHV-1 and BVDV were detected in 58, 17, four, 0 and eight calves, on 25, five, two, 0 and five of the 68 farms, respectively.

Lack of evidence for circovirus involvement in bovine neonatal pancytopenia

THE newly described syndrome of bovine neonatal pancytopenia (BNP) (previously known as idiopathic haemorrhagic diathesis or bleeding calf syndrome), reported in the UK by [Penny and others (2009)][1], has caused considerable animal health and welfare interest across Europe. The detection in calves

Idiopathic bovine neonatal pancytopenia in a Scottish beef herd

PANCYTOPENIA, due to hypoplastic or aplastic bone marrow, has historically been uncommon in cattle. Fatal haemorrhagic pancytopenia has been reported in cattle due to the ingestion of trichloroethylene-extracted soya oil meal (TCESOM) ([Rundles 1958][1]), bracken fern ( Pteridium species) ([Hirono

Factors Associated with Bovine Neonatal Pancytopenia (BNP) in Calves: A Case-Control Study

Bovine neonatal pancytopenia (BNP; previously known as idiopathic haemorrhagic diathesis and commonly known as bleeding calf syndrome) is a novel haemorrhagic disease of young calves which has emerged in a number of European countries during recent years. Data were retrospectively collected during June to November 2010 for 56 case calves diagnosed with BNP between 17 March and 7 June of the same year. These were compared with 58 control calves randomly recruited from herds with no history of BNP. Multivariable logistic regression analysis showed that increased odds of a calf being a BNP case were associated with its dam having received PregSure® BVD (Pfizer Animal Health) vaccination prior to the birth of the calf (odds ratio (OR) 40.78, p<0.001) and its herd of origin being located in Scotland (OR 9.71, p = 0.006). Decreased odds of a calf being a BNP case were associated with the calf having been kept outside (OR 0.11, p = 0.006). The longer that a cattle herd had been established on the farm was also associated with decreased odds of a calf in that herd being a BNP case (OR 0.97, p = 0.011).

Tick-Borne Encephalitis Virus and Louping-Ill Virus May Co-Circulate in Southern Norway

The European subtype of tick-borne encephalitis virus (TBEV-Eu) and louping-ill virus (LIV) are two closely related tick-borne flaviviruses. However, whereas the first is the cause of one of Europes most important zoonoses, the latter most often only causes disease in sheep and grouse. TBEV-Eu is typically found in the forests of central and northeastern Europe, and LIV typically is found in sheep pastures in the British Isles. In the 1980s, however, LIV was isolated from sheep with encephalomyelitis in Norway. In the 1990s, the first cases of human TBEV were also detected in this country, but while Louping-ill in sheep is very rare, the number of human TBEV cases is increasing. No larger investigations of TBEV and/or LIV seroprevalence and distribution in Norway have been published. However, before such studies are initiated, it is pertinent to know if LIV and TBEV are potentially co-circulating. In the current study, we examined if antibodies against LIV and TBEV were found in wild cervids in one location (Farsund) in southern and one location (Molde) in northwestern Norway using a commercially available enzyme-linked immunosorbent assay for detection of anti-TBEV immunoglobulin G (IgG) and a hemagglutination inhibition test for anti-LIV IgG. Positive results were confirmed by serum neutralization tests. In Farsund, 22 of 54 cervids had antibodies against TBEV and 8 antibodies against LIV. In Molde, 1 of 64 cervids was confirmed positive for TBEV, whereas none were positive for LIV. This shows that TBEV and LIV may co-circulate in southern Norway and that virus(es) antigenetically very similar to TBEV may be found in northwestern Norway. The latter is intriguing, because the climatic conditions typical of TBEV locations should not be expected this far north.

Lack of evidence for an association between MHC diversity and the development of bovine neonatal pancytopenia in Holstein dairy cattle.

Bovine neonatal pancytopenia (BNP), a disease of neonatal calves, has been described in a number of European countries since 2006. The disease results in high mortality of calves aged 1-4 weeks and is characterised by severe bone marrow pathology resulting in profound thrombocytopenia and consequent haemorrhagic diathesis. A number of hypotheses including a novel virus infection, plant toxins, a vaccine associated isoimmune disease, or a genetic defect have been suggested to explain the aetiology of this disease. However, as the number of cases in affected herds remains small, it is hypothesised that the genetic background of the calf may influence disease susceptibility. To test this we focused on the class II region of the major histocompatibility complex (MHC) which is often associated with variations in immune response and susceptibility to antibody mediated autoimmune disease. Forty-three cases of BNP and sixty-eight controls were genotyped at the polymorphic class II MHC-DRB3 locus. Twenty DRB3 alleles were identified with seven appearing at frequencies ≥ 0.05. A comparison of the allelic frequencies between diseased and control groups showed that there was no evidence for any significant differences, suggesting that the MHC does not appear to be a predisposing risk factor in the development of BNP in Holstein dairy cattle.

Reproduction of bovine neonatal pancytopenia (BNP) by feeding pooled colostrum reveals variable alloantibody damage to different haematopoietic lineages

Bovine neonatal pancytopenia (BNP) is a recently described haemorrhagic disease of calves characterised by thrombocytopenia, leucopenia and bone marrow depletion. Feeding colostrum from cows that have previously produced a BNP affected calf has been shown to induce the disease in some calves, leading to the hypothesis that alloantibodies in colostrum from dams of affected calves mediate destruction of blood and bone marrow cells in the recipient calves. The aims of the current experimental study were first to confirm the role of colostrum-derived antibody in mediating the disease and second to investigate the haematopoietic cell lineages and maturation stages depleted by the causative antibodies. Clinical, haematological and pathological changes were examined in 5 calves given a standardised pool of colostrum from known BNP dams, and 5 control calves given an equivalent pool of colostrum from non-BNP dams. All calves fed challenge colostrum showed progressive depletion of bone marrow haematopoietic cells and haematological changes consistent with the development of BNP. Administration of a standardised dose of the same colostrum pool to each calf resulted in a consistent response within the groups, allowing detailed interpretation of the cellular changes not previously described. Analyses of blood and serial bone marrow changes revealed evidence of differential effects on different blood cell lineages. Peripheral blood cell depletion was confined to leucocytes and platelets, while bone marrow damage occurred to the primitive precursors and lineage committed cells of the thrombocyte, lymphocyte and monocyte lineages, but only to the more primitive precursors in the neutrophil, erythrocyte and eosinophil lineages. Such differences between lineages may reflect cell type-dependent differences in levels of expression or conformational nature of the target antigens.

Chlamydia in cases of cattle pneumonia in Scotland

WE wish to report the findings of a preliminary investigation into chlamydial involvement in cases of cattle pneumonia. Chlamydia species have long been identified as causative agents of both acute and chronic lung infections in cattle, yet the prevalence of these organisms in cases of pneumonia in UK cattle remains undefined. The study group comprised 98 diagnostic lung samples, obtained from cases of bovine pneumonia. These were originally submitted by veterinary laboratories in the UK to the Moredun …

Possible preventive strategy for bovine neonatal pancytopenia.

WE wish to report our preliminary findings in developing a management tool for the prevention of bovine neonatal pancytopenia (BNP) (also known as bleeding calf syndrome), an emerging disease of calves of, as yet, unknown aetiology. It has been reported that the dams of BNP-affected calves can

Evidence of land-sea transfer of the zoonotic pathogen Campylobacter to a wildlife marine sentinel species

Environmental pollution often accompanies the expansion and urbanization of human populations where sewage and wastewaters commonly have an impact on the marine environments. Here, we explored the potential for faecal bacterial pathogens, of anthropic origin, to spread to marine wildlife in coastal areas. The common zoonotic bacterium Campylobacter was isolated from grey seals (Halichoerus grypus), an important sentinel species for environmental pollution, and compared to isolates from wild birds, agricultural sources and clinical samples to characterize possible transmission routes. Campylobacter jejuni was present in half of all grey seal pups sampled (24/50 dead and 46/90 live pups) in the breeding colony on the Isle of May (Scotland), where it was frequently associated with histological evidence of disease. Returning yearling animals (19/19) were negative for C. jejuni suggesting clearance of infection while away from the localized colony infection source. The genomes of 90 isolates from seals were sequenced and characterized using a whole‐genome multilocus sequence typing (MLST) approach and compared to 192 published genomes from multiple sources using population genetic approaches and a probabilistic genetic attribution model to infer the source of infection from MLST data. The strong genotype‐host association has enabled the application of source attribution models in epidemiological studies of human campylobacteriosis, and here assignment analyses consistently grouped seal isolates with those from human clinical samples. These findings are consistent with either a common infection source or direct transmission of human campylobacter to grey seals, raising concerns about the spread of human pathogens to wildlife marine sentinel species in coastal areas.