Search Results (2,260)

Trichinellosis is an important parasitic zoonosis caused by nematodes of the genus Trichinella, affecting numerous carnivorous and omnivorous mammal species. In Europe, wildlife represents the main reservoir of Trichinella spp., contributing to the maintenance of the sylvatic cycle and acting as a potential source of infection for domestic animals and humans. In Romania, Trichinella spiralis, Trichinella britovi, and Trichinella pseudospiralis have been reported in domestic animals and wildlife, with T. britovi being frequently associated with the sylvatic cycle and wild carnivores. The aim of this study was to investigate the occurrence and molecular characterization of Trichinella larvae isolated from muscle tissues of European badgers (Meles meles) originating from different areas of Romania. Overall, muscle samples collected from 24 European badgers from six Romanian counties were examined using the artificial digestion method. Recovered larvae were subjected to PCR-based species discrimination by multiplex polymerase chain reaction (PCR). Trichinella larvae were detected in one of the 24 examined European badgers, originating from Arad County, Western Romania. Molecular analysis confirmed the presence of T. britovi, the species most commonly identified in wild carnivores from temperate regions. Although T. britovi has previously been reported in the European badger in Romania in a specimen from Central Romania, the present finding represents, to the best of our knowledge, the first detection of this parasite–host association in Western Romania. The low infection prevalence and the detection of T. britovi in the European badger indicate circulation within the sylvatic cycle and highlight the need for continued wildlife monitoring, given the zoonotic potential of this parasite. Full article

Although extensively studied in humans, data on the middle cranial fossa foramina remain limited in dogs, despite their different skull morphology and high relevance to veterinary neurology, surgery and oncology. In this retrospective anatomic study, we aimed to fill this gap by presenting the morphometric data of these foramina in domestic dogs of different breeds, ages, body weights, and skull sizes. The study used CBCT images of 40 dogs. Dogs were divided into three groups (small, medium, and large), regardless of sex, body weight, and breed, using neurocranium length. Then, morphological and morphometric analyses of the foramina were performed. The neurocranium length of each group differed significantly from the others (p < 0.001). In each group, the orbital fissure and round and oval foramina were bilaterally located rostrally to caudally and were of similar size (p > 0.05). While the orbital fissure was a canal in 80% of dogs, in dogs with medium and large skull sizes (17.5%), the spinous foramen showed variation, becoming both a foramen and a canal. The opening sizes increased along with the skull size (p < 0.001); the widest opening was the orbital fissure, and the narrowest opening (except for the spinous foramen) was the oval foramen. The findings may guide skull base surgeries, regional anesthesia, and the diagnosis of cranial nerve dysfunctions. Furthermore, a classification based on neurocranial length is anticipated to provide more objective craniometric measurements in animals with diverse head types and body weights. Full article

Fatty liver disease represents a major metabolic disorder affecting domestic animals worldwide, with significant implications for animal health, welfare, and agricultural productivity. Disrupted communication between mitochondria and other organelles—particularly the endoplasmic reticulum, lipid droplets, and lysosomes—plays a critical role in disease pathogenesis. This review synthesizes knowledge on inter-organellar communication across domestic animals, with emphasis on species-specific adaptations. We address the “Dairy Cow Paradox”—periparturient dairy cows develop severe hepatic steatosis (>30% liver fat), yet under sterile conditions, they have a higher threshold for progressing to sterile steatohepatitis compared to rodents and humans. However, it is critical to note that severe fatty liver in dairy cows is indeed associated with impaired autophagy, inflammation, and liver damage, particularly when accompanied by ketosis or concurrent infections, and 39% of transition cows exhibit moderate to severe lymphocytic hepatitis. We propose that the tolerance to severe steatosis in dairy cows arises from three adaptations: (1) attenuated innate immune sensing via the cGAS-STING pathway; (2) enhanced lipid buffering from perilipin 5 (PLIN5) with a hypothesized ruminant-specific Val152 substitution that may stabilize lipid droplet–mitochondria contacts; and (3) dampened calcium signaling due to ER–mitochondria membrane lipid raft rigidity, elevated inositol 1,4,5-trisphosphate receptor 2 (IP₃R2) expression, and reduced mitochondrial calcium uniporter (MCU) conductance. We contrast this with the inflammatory steatohepatitis common in rodent models driven by calcium overload and mitochondrial DNA (mtDNA) release, and glucocorticoid-mediated mitofusin 1 (MFN1) suppression, causing mitochondrial fragmentation in poultry. We identify critical knowledge gaps, including the need to define bovine and avian mitochondria-associated endoplasmic reticulum membrane (MAM) proteomes and spatially resolve hepatic zonal communication patterns. Targeting organellar communication hubs with nutraceuticals or pharmacological agents offers promising therapeutic strategies. Full article

The National Special Pathogens System (NSPS) stratifies U.S. healthcare facilities by their readiness level to care for patients with high-consequence infectious diseases (HCIDs). While NSPS Level 1 and 2 facilities possess advanced biocontainment capabilities to care for patients for the duration of their illness, most U.S. hospitals fall under a NSPS Level 3 or 4 designation, with limited resources to manage patients with a suspected or confirmed HCID. However, emerging zoonotic threats like H5N1 underscore the need to bolster HCID preparedness across all NSPS Levels. Beginning in March 2024, the U.S. H5N1 outbreak has primarily impacted wild bird flocks, poultry, and cattle, along with some human infections. The continuation of this outbreak in wild and domesticated animals increases the likelihood of further human spillover and eventual viral evolution in human hosts. At the frontlines, rural farming communities are likely to be most affected, with potential outbreaks exacerbated by a lack of accessible NSPS Level 1, 2, or 3 facilities in these regions. Thus, strengthening the HCID preparedness of local NSPS Level 4 facilities is critical to preventing transmission, minimizing societal disruption, protecting communities and the healthcare workforce, along with ensuring an equitable, coordinated response to future emerging infectious disease threats. This manuscript explores the financial, societal and health system impacts of HCID outbreaks to delineate the necessity of strengthening the preparedness of NSPS Level 4 facilities. Full article

Under a One Health framework, viruses of veterinary and zoonotic importance pose significant threats to animal and human health, food security, and livelihoods, particularly in regions with intense human–animal interactions. In West Africa, despite recent advances in surveillance programs, important gaps remain in understanding viral diversity and cross-species transmission at wildlife–livestock interfaces. We conducted metagenomic surveillance to characterize viruses circulating across livestock, domestic animals, and wildlife in rural Ghana in 165 animals sampled across five regions. Viral RNA from serum and tissue samples was sequenced with the Illumina platform, and genomes were de novo assembled with MEGAHIT. Phylogenetic relationships were reconstructed using Bayesian approaches. We report the first genomic sequences of porcine parvovirus 3, canine parvovirus, rotavirus A genotype R16, and bovine hepacivirus subtype B from Ghana in over a decade. Phylogenetic analyses revealed intercontinental linkages between Africa and Europe for parvoviruses, persistence of hepacivirus lineages, and evidence of cross-species transmission for rotavirus. Notably, detection in apparently healthy animals highlights underrecognized circulation, gaps in vaccination effectiveness, trade-related biosecurity vulnerabilities, and the role of wildlife in viral maintenance and transmission. Our findings reveal dynamic viral diversity and connectivity across animal populations and ecological interfaces, emphasizing the fluid and interconnected nature of pathogen circulation within One Health systems. By integrating metagenomics and phylogenetics, this study provides a scalable framework for enhancing surveillance capacity, enabling the early detection of emerging threats and informing targeted strategies to mitigate zoonotic and economically important viral diseases in West Africa. Full article

The Anatomage Table Vet (ATV) is a digital tool that may facilitate the understanding of complex structures and improve visuospatial skills. This study evaluated the effectiveness of the ATV as a review method prior to cadaveric dissection and collected students’ feedback. During a sport-medicine seminar, consisting of an oral presentation and a practical anatomy review session, a small sample of veterinary students voluntarily participated in this trial. A pre-test assessed baseline knowledge on muscle identification, muscle insertions and origins and biomechanics. Twenty-nine students were divided into two groups, ATV (A) and traditional lecture (C), to review canine anatomy of the caninethoracic limb and cingulum, before compiling a post-test, represented by muscle identification on five cadaveric specimens. A feedback questionnaire was administered afterwards. Mean post-test scores were significantly higher in both groups in all subsections and total score (A pre = 2.40; A post = 6.60; C pre = 2.43; C post = 6.57). No significant difference was observed in improvement between groups. Student feedback was generally positive. From the results limited to this preliminary assessment, the ATV seems well-received by students. Further research with a larger sample size is needed to clarify its educational impact. Full article

Sarcocystis spp. are common intracellular protozoan parasites of wild and domestic ungulates, yet data regarding their occurrence and molecular diversity in roe deer (Capreolus capreolus) from Romania remain scarce. The present study investigated the epidemiology and molecular diversity of Sarcocystis spp. in roe deer from western Romania and assessed the phylogenetic relationships of the detected isolates. A total of 132 striated muscle samples were collected from roe deer harvested in Arad, Bihor, and Timiș counties during 2023–2025 and examined microscopically for the presence of sarcocysts. Positive samples were subjected to PCR amplification and sequencing of the 18S rRNA gene. Sarcocysts were detected in 102/132 animals, yielding an overall prevalence of 77.3% (95% CI: 69.4–83.7). Infection prevalence increased significantly with host age (p < 0.001) and was significantly higher in males than in females (p < 0.05), whereas no significant differences were observed among counties or sampling years (p > 0.05). Molecular analysis of 30 representative isolates identified three Sarcocystis species: Sarcocystis gracilis (46.7%), S. linearis (33.3%), and S. entzerothi (20.0%), with S. gracilis being the predominant species. Phylogenetic analysis based on partial 18S rRNA sequences confirmed species-level identification and demonstrated close clustering of Romanian isolates with homologous European reference sequences, indicating high genetic similarity and limited phylogeographic structuring. To the authors’ knowledge, this study represents the first molecular characterization of Sarcocystis spp. in roe deer from Romania and expands current knowledge on the epidemiology, species diversity, and phylogenetic relationships of roe deer-associated Sarcocystis in Europe. Full article

While viral diseases of domestic cats (Felis catus) can threaten the recovery of the European wildcat (Felis s. silvestris), their epidemiology in wildcat populations remains poorly understood. Here, we analyzed 428 road-killed wildcats from Western and Central Germany for the presence of antibodies/antigens of six feline viruses. The presence of at least one viral antigen or antiviral antibody was detected in 53.3% of the animals. Antibodies against feline parvovirus (FPV) showed the highest seroprevalence (29.2%), while feline leukemia virus (FeLV) antigens were detected in 22.2% of the animals. Antibodies to feline coronavirus (FCoV), feline herpesvirus (FHV) and feline calicivirus (FCV) were detected in 10% or fewer of the wildcats. No antibodies to feline immunodeficiency virus (FIV) were detected. FeLV antigens clustered spatially, with prevalence declining from southwest to northeast, consistent with the geographic expansion of the virus antigens. Seroprevalence of FPV and prevalence of FeLV increased with age, suggesting cumulative exposure, while juvenile males were particularly unlikely to be seropositive for FPV. Proximity to built-up areas did not predict seroprevalence for any virus. FeLV and FPV in particular warrant further investigation as potential threats to wildcat recovery in Germany and highlight the need for longitudinal health monitoring alongside existing conservation efforts. Full article

Hepatitis E virus (HEV) is a major zoonotic pathogen, with pigs serving as the principal animal reservoir. While consumption of raw or undercooked pig liver is a well-recognized risk factor, systematic data on HEV contamination in retail pork meat remain limited. In this study, 1546 retail pork samples collected from eight geographic regions across Japan were analyzed for HEV RNA using a validated nested RT-PCR method. Analytical sensitivity was determined using the World Health Organization (WHO) International Standard for HEV RNA, yielding a 95% limit of detection (LOD95) of 134 IU/g (95% CI: 105–193). Overall, 15 samples (1.0%) tested positive for HEV RNA, with no significant regional variation (0.4–1.8%; p = 0.8375) or difference between domestically produced (1.0%, 12/1260) and imported pork (1.0%, 3/286; p = 0.7478). Viral loads in quantifiable samples (n = 11) ranged from 9.3 × 10² to 1.0 × 10⁵ IU/g. Genotyping based on partial ORF2 sequences revealed subtype 3b as predominant (n = 7), followed by 3a (n = 5), 3f (n = 2), and 4c (n = 1). Each of the 15 strains showed high nucleotide sequence identity (98.8–100%) to its closest reported Japanese strain(s). Phylogenetic analysis showed that all strains clustered with their closest reported HEV strains, with high bootstrap support, despite genetic diversity within subtypes. These findings demonstrate that retail pork meat in Japan is contaminated with HEV RNA and may represent a potential source of human exposure. However, whether HEV RNA-positive retail pork meat contains infectious virus capable of causing human infection remains to be determined. Full article

Free-living unowned cats are prevalent across the UK and may experience numerous welfare challenges. However, there is limited research around this. Cat shelter workers were interviewed on the complexities of unowned cat welfare and management, current barriers and recommended solutions. A total of 25 participants partook in semi-structured one-to-one interviews, which were thematically analysed. Some of the main welfare concerns described were overpopulation, health issues, the absence of preventative medical care, cruelty, and neglect. Key barriers included limited resources, funding, personnel and infrastructure, alongside inappropriate management of cats not suited to domestic lifestyles. External barriers included insufficient government support, limited public awareness around cat welfare issues, and fragmented care provision of cats within the community. Other overlapping barriers include inconsistent terminology use and management practices within shelters and communities. Participants recommended more strategic use of shelter resources towards population management programmes including TNR, professional staff training, and the standardisation of terms such as “stray” and “feral”. They advocated for a shared responsibility framework for unowned cats involving animal welfare organisations, the veterinary sector, communities, and the government. This would include stronger collaboration between charities to share knowledge and establish industry best practice, alongside greater government support through the introduction and enforcement of legislation. Full article

Leptospirosis is a zoonotic disease caused by spirochete bacteria of the genus Leptospira, with a wide global distribution. In Ecuador, leptospirosis is endemic, particularly in low-resource tropical areas, and multiple animal reservoirs have been identified either in rural or urban areas, including stray dogs. In this study, a total of 81 domestic dogs presenting clinical manifestations compatible with leptospirosis were recruited at the Municipal Center for Animal Welfare in Guayaquil, Ecuador, in 2023. A survey regarding clinical, demographic, and environmental risk factors was filled in by every dog’s owner; urine and blood samples were collected for pathogenic Leptospira diagnosis by qPCR for lipL32, rrs, and secY gene targets. A very high (62.96%) positivity rate for Leptospira infection was found. Almost 90% of the dogs were not vaccinated against Leptospira. Although the animals exhibited multiple clinical signs, none showed a statistically significant association with Leptospira positivity, confirming the nonspecific presentation of the disease and its potential for misdiagnosis. The consumption of bulk food emerged as a significant environmental risk factor only in the multivariate logistic regression and not in the univariate analysis, suggesting the need for improved food safety practices. Moreover, we reported very frequent close-contact behaviors between owners and dogs. Overall, our study underscores the potential role of owned urban dogs as reservoirs of Leptospira in the city of Guayaquil in Ecuador, emphasizing the need for public health policies to increase awareness and improve diagnosis in domestic animals under a comprehensive One Health vision. Full article

Rabies is a fatal zoonotic viral disease that continues to pose a significant threat to both animal and public health worldwide. Despite considerable progress in its control across Europe, sporadic outbreaks still occur, particularly in regions where wildlife reservoirs and stray animal populations sustain virus circulation. This study provides one of the first comparative longitudinal analyses integrating European countries and Turkiye rabies surveillance data over a decade (2013–2023). Information on reported outbreaks was obtained from the Animal Disease Information System (ADIS) and the World Animal Health Information System (WAHIS) database. The analysis focused on temporal trends, regional differences, and the distribution of affected animal species. During the study period, a total of 4865 outbreaks were reported in 16 countries. The number of detected outbreaks declined considerably over time, decreasing from 1022 cases in 2013 to 325 cases in 2023, representing an overall reduction of approximately 68%. The temporal trend was not uniform, with periods of decline followed by temporary increases. The highest number of outbreaks was registered in Türkiye, followed by Romania and Poland, indicating pronounced regional disparities. Domestic dogs represented the most frequently affected species, while cases were also recorded in wildlife and domestic cats, confirming the epidemiological importance of both domestic and wild reservoirs. The observed reduction in the number of outbreaks reflects the impact of vaccination programs and coordinated control measures, but may also be influenced by differences in surveillance systems and reporting practices. Nevertheless, the persistence of rabies in several regions indicates that the disease remains an epidemiological concern. Sustained vaccination of domestic animals, continued wildlife immunization, and strengthened surveillance and cross-border cooperation are essential for long-term control and prevention. Full article

Helminth infections remain a major constraint to livestock productivity, particularly in regions where domestic animals and wildlife share grazing habitats. This study investigated the molecular diversity and transmission dynamics of helminth communities in sheep (Ovis aries) and saiga antelope (Saiga tatarica) in West Kazakhstan. A total of 35 animals (20 sheep and 15 saiga) were examined, and helminths were identified using polymerase chain reaction targeting the ITS1 region of ribosomal DNA for nematodes and the mitochondrial cox1 gene for cestodes. Of the 20 analyzed samples, 80% were successfully identified at the molecular level. Detected species included Haemonchus contortus, Trichuris ovis, Chabertia ovina, Moniezia expansa, and Avitellina centripunctata. Phylogenetic analysis revealed that Chabertia ovina isolates from both hosts clustered within a single monophyletic clade, indicating high genetic similarity and supporting potential cross-species transmission. Mitochondrial markers provided higher resolution for cestode differentiation, whereas ITS1 was effective for nematode identification. The predominance of Chabertia ovina in saiga suggests ecological adaptation and efficient transmission within wild populations. These findings highlight the epidemiological significance of shared grazing ecosystems and underscore the need for integrated parasite control strategies that consider both livestock and wildlife reservoirs. Full article

Babesiosis is a zoonosis caused by protozoan parasites of the genus Babesia. It has a worldwide distribution and affects many kinds of mammals, principally domestic animals and humans. Because there are no safe and effective vaccines available, the treatment and control for babesiosis continues to involve the use of chemotherapeutics. For years, only a few drugs have been used for clinical treatment, namely atovaquone plus azithromycin or clindamycin plus quinine for human, and imidocarb dipropionate and diminazene aceturate for domestic animals. Although screening and developing alternative drugs are continuously pursued, only a few drugs have been prospected to have clinical applications. Of these, tafenoquine has shown wide and potent antibabesial activity, offering a new option to control babesiosis. This article aims to present the current clinical therapeutic strategies for babesiosis and their limitations, as well as the prospect of tafenoquine as a promising drug to treat babesiosis. Full article

Coxiella burnetii is an intracellular bacterium responsible for an anthropozoonosis that can be asymptomatic or manifest as acute or chronic Q fever. This extensive series of 588 patients represents one of the largest single-center studies on sporadic acute Q fever, highlighting the Canary Islands as a high-incidence region in Spain. Epidemiologically, the domestic cycle is the primary driver of infection, with caprine livestock serving as the main reservoir, showing a local prevalence of 60.4%. Transmission is predominantly airborne via aerosols; the environmental resilience of C. burnetii facilitates its transport into urban areas, where the majority of patients reside despite lacking direct animal contact. While fever, headache, and diaphoresis are hallmark symptoms, over 90% of patients exhibit transient urinalysis abnormalities, a finding that often leads to misdiagnosis and inappropriate antimicrobial use. Clinically, the non-specific (45.7%) and hepatic (44.1%) forms are most prevalent, whereas the pulmonary form (7.8%) is strongly associated with smoking and alcohol consumption. Although localized forms affecting the nervous system or skin (such as panniculitis) were observed, the overall prognosis remains excellent with no progression to chronic Q fever in this series. In summary, the extensive series described characterizes acute Q fever patients in the Autonomous Community of the Canary Islands, with features that are similar in some cases but also show notable differences compared to other national and international series. Furthermore, depending on the patients’ age, the time elapsed between the onset of clinical manifestations and hospital evaluation, and the clinical form, acute Q fever displays significant differences. Full article