Rene Mandelik scite author profile

Angiostrongylus vasorum is a metastrongyloid nematode that may cause cardiopulmonary disease, neurological signs and coagulopathies in dogs. The parasite has an indirect life cycle with molluscs as intermediate hosts, in which the infective third larval stage develops. Recently, A. vasorum has been repeatedly reported in dogs outside the endemic areas, indicating that this parasite is widely distributed over Europe. This is the first record of an autochthonous infection in a dog from Slovakia that was casually diagnosed during routine preventive parasitological examination. A. vasorum first-stage larvae were recovered using the Baermann technique and identified by length and characteristic tail morphology. The animal originated from Slovakia and had not travelled abroad. The dog had been regularly walked on grass fields with a concentrated presence of common species of Gastropoda and frogs. The owner reported that the dog had been licking and eating grass and it had shown curiosity for molluscs and frogs. The first finding of A. vasorum-infected dog in Slovakia has confirmed that the parasite is spreading beyond the traditional hyperendemic foci, which accentuates the need for monitoring and increasing of disease awareness in primary care clinical practice.

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Molecular detection of enteric viruses and the genetic characterization of porcine astroviruses and sapoviruses in domestic pigs from Slovakian farms

Salamunova

Jacková

Mandelik

et al. 2018

BMC Vet Res

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BackgroundSurveillance and characterization of pig enteric viruses such as transmissible gastroenteritis virus (TGEV), porcine epidemic diarrhea virus (PEDV), rotavirus, astrovirus (PAstV), sapovirus (PSaV), kobuvirus and other agents is essential to evaluate the risks to animal health and determination of economic impacts on pig farming. This study reports the detection and genetic characterization of PAstV, PSaV in healthy and diarrheic domestic pigs and PEDV and TGEV in diarrheic pigs of different age groups.ResultsThe presence of PAstV and PSaV was studied in 411 rectal swabs collected from healthy (n = 251) and diarrheic (n = 160) pigs of different age categories: suckling (n = 143), weaned (n = 147) and fattening (n = 121) animals on farms in Slovakia. The presence of TGEV and PEDV was investigated in the diarrheic pigs (n = 160). A high presence of PAstV infections was detected in both healthy (94.4%) and diarrheic (91.3%) pigs. PSaV was detected less often, but also equally in clinically healthy (8.4%) and diarrheic (10%) pigs. Neither TGEV nor PEDV was detected in any diarrheic sample. The phylogenetic analysis of a part of the RdRp region revealed the presence of all five lineages of PAstV in Slovakia (PAstV-1 – PAstV-5), with the most frequent lineages being PAstV-2 and PAstV-4. Analysis of partial capsid genome sequences of the PSaVs indicated that virus strains belonged to genogroup GIII. Most of the PSaV sequences from Slovakia clustered with sequences originating from neighbouring countries.ConclusionsDue to no significant difference between healthy and diarrheic pigs testing of the presence of PAstV and PSaV provides no diagnostic value. Genetic diversity of PAstV was very high as all five lineages were identified in pig farms in Slovakia. PSaV strains were genetically related to the strains circulating in Central European region.

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First outbreak with chimeric swine enteric coronavirus (SeCoV) on pig farms in Slovakia – lessons to learn

Mandelik

Sarvas²,

Jacková

et al. 2018

Acta Veterinaria Hungarica

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This report describes the first disease outbreak caused by chimeric swine enteric coronavirus (SeCoV) on two pig farms in Slovakia in early 2015. The infection was introduced by import of two breeding boars which were placed in provisional quarantine in a unit not strictly separated from other healthy pigs in the same building. Subsequently, loss of appetite and diarrhoea were observed in both boars during the first three days in the isolation unit. The infection gradually spread to the farrowing area and throughout the farm in two weeks and later to another nearby farm. Yellow watery diarrhoea accompanied by dehydration and death was observed in piglets with a mortality ranging from 30 to 35%. In the absence of an available vaccine, the pregnant sows were dosed by mouth with a 10% suspension prepared from the intestine and faeces of infected piglets in warm water. Three weeks after dosing, new litters of piglets were born which remained healthy with no development of diarrhoea.

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Porcine kobuvirus 1 in healthy and diarrheic pigs: Genetic detection and characterization of virus and co-infection with rotavirus A

Jacková

Sliz

Mandelik

et al. 2017

Infection, Genetics and Evolution

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The porcine kobuvirus 1 (PKV-1) is believed to be an enteric virus. To investigate the prevalence of PKV-1 in pigs, virus was detected by RT-PCR in rectal swabs originating from 414 healthy and diarrheic pigs of different age categories on farms in Slovakia. Among all ages of animals, PKV-1 was detected equally in diarrheic (63.8%) and clinically healthy (62.9%) pigs. PKV-1 was more often detected in diarrheic (74.6%) than in healthy (64.4%) suckling piglets (<28days) but data was not statistically significant. Results in weaned (28-70days) and fattening (>70days) of both healthy and diarrheic pigs were inconsistent ranging in interval 56.2% to 67.9%. This study did not confirm a clear relationship of PKV-1 infection with diarrhea in pigs. Rotavirus A infection was detected among the same animals in 39% diarrheic and 9.2% healthy suckling piglets (p<0.001) confirming rotavirus as a causative agent of diarrhea in this age group. The difference was not significant in older pigs with both diarrheic and healthy pigs being infected within a range of 0% to 12.2%. Co-infection with PKV-1 and rotavirus A was detected overall in 5.6% of healthy and in 13.5% of diarrheic pigs and was highest in suckling piglets (33.9%). The PKV-1sequences from pigs in Slovakia were analyzed at the genetic level in the partial 3D gene region for the first time. The viral sequences were grouped in phylogenetic clusters according to their farm of origin. When compared with 157 nucleotide sequences originating from pig samples of different countries around the world Slovakian PKV-1 sequences were clustered in the phylogenetic tree with Asian sequences but not with nucleotide sequences from the neighbouring countries of Czech Republic or Hungary.

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Overview of Cattle Diseases Listed Under Category C, D or E in the Animal Health Law for Which Control Programmes Are in Place Within Europe

Hodnik

Acinger-Rogić²,

Alishani

et al. 2021

Front. Vet. Sci.

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The COST action “Standardising output-based surveillance to control non-regulated diseases of cattle in the European Union (SOUND control),” aims to harmonise the results of surveillance and control programmes (CPs) for non-EU regulated cattle diseases to facilitate safe trade and improve overall control of cattle infectious diseases. In this paper we aimed to provide an overview on the diversity of control for these diseases in Europe. A non-EU regulated cattle disease was defined as an infectious disease of cattle with no or limited control at EU level, which is not included in the European Union Animal health law Categories A or B under Commission Implementing Regulation (EU) 2020/2002. A CP was defined as surveillance and/or intervention strategies designed to lower the incidence, prevalence, mortality or prove freedom from a specific disease in a region or country. Passive surveillance, and active surveillance of breeding bulls under Council Directive 88/407/EEC were not considered as CPs. A questionnaire was designed to obtain country-specific information about CPs for each disease. Animal health experts from 33 European countries completed the questionnaire. Overall, there are 23 diseases for which a CP exists in one or more of the countries studied. The diseases for which CPs exist in the highest number of countries are enzootic bovine leukosis, bluetongue, infectious bovine rhinotracheitis, bovine viral diarrhoea and anthrax (CPs reported by between 16 and 31 countries). Every participating country has on average, 6 CPs (min–max: 1–13) in place. Most programmes are implemented at a national level (86%) and are applied to both dairy and non-dairy cattle (75%). Approximately one-third of the CPs are voluntary, and the funding structure is divided between government and private resources. Countries that have eradicated diseases like enzootic bovine leukosis, bluetongue, infectious bovine rhinotracheitis and bovine viral diarrhoea have implemented CPs for other diseases to further improve the health status of cattle in their country. The control of non-EU regulated cattle diseases is very heterogenous in Europe. Therefore, the standardising of the outputs of these programmes to enable comparison represents a challenge.

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Rene Mandelik

First autochthonous case of canine Angiostrongylus vasorum in Slovakia

Molecular detection of enteric viruses and the genetic characterization of porcine astroviruses and sapoviruses in domestic pigs from Slovakian farms

First outbreak with chimeric swine enteric coronavirus (SeCoV) on pig farms in Slovakia – lessons to learn

Porcine kobuvirus 1 in healthy and diarrheic pigs: Genetic detection and characterization of virus and co-infection with rotavirus A

Overview of Cattle Diseases Listed Under Category C, D or E in the Animal Health Law for Which Control Programmes Are in Place Within Europe

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