Pathology and molecular diagnosis of canine parvoviral enteritis in Nigeria: case report

First Identification of CPV-2c Infection in a Wild Cub Giant Panda (Ailuropoda melanoleuca) Suggesting an Emerging Transmission From Wildlife and Domestic Dogs

Canine parvovirus type 2 (CPV-2) is a member of the Parvoviridae family that causes several animals for diarrhea, vomiting, and even death, particularly in cubs. Previous evidence has shown that CPV-2 is capable of infecting giant pandas, causing mild intestinal symptoms. In November 2020, a dead young giant panda was discovered in the Wolong Nature Reserve in Sichuan, China. Through physical examination, anatomical pathology, histopathology, and PCR testing, the panda was diagnosed with CPV-2 infection. Further investigations into the CPV-2 epidemic among wildlife in the Wolong Nature Reserve revealed an epidemic situation with a 14.52% (9/62) positive rate in fecal samples of wild animals near 350 National Highway. In total, 40 canine fecal samples from the Wolong and nearby cities were next analyzed. Interestingly, all dog fecal samples from Wolong tested CPV-2 negative, while seven positive samples were successfully amplified from the urban samples. Partial VP2 gene analysis identified four giant panda strains and nine canine strains as CPV-2c variations, with shared nucleotide and amino acid homologies of 99.2%-100%, respectively. Phylogenetic analysis revealed that the CPV-2c strains in our study belonged to the same cluster of Chinese and Asian CPV-2c strains while distinct from European and American strains. This study is the first identification indicating that CPV-2c has significantly threatened the health and survival of wild cub giant pandas, which might originate from domestic dogs from near cities.

Experimental study of tropism of cultivated canine parvovirus in the immunogenesis organs of puppies

The immune system unites the organs and the tissues that protect the organism against genetically alien cells or substances entering the organism from the environment. Canine parvovirus is an etiologic agent of hemorrhagic gastroenteritis and causes a significant problem for veterinary medicine due to high level of morbidity and mortality, mostly among dogs, because of fast progression without immune-complement response. In this study, based on the results of our clinical, virological, histological, histochemical and morphological assays, we determined the pathogenetic role of parvovirus in sick dogs experimentally infected per os, specifically with isolated canine parvovirus (Antaeus) with titer of infectious activity equaling 3.80 ± 0.008 lg TCID50/cm, cultivated on heterological cell cultures. This allowed us to clarify, add to and generalize the data on the pathogenesis of the disease and determine pathohistological and histochemical changes in the immunogenesis, since the studied virus expresses immune-suppressive properties, leading to ruination of the locomotor ability of the organism and fast lethal outcome. The study of pathomorphological changes was carried out using pathoanatomical and histologic methods. Pathoanatomical material from the autopsy of puppies aged 45 days was fixed in 10% aqueous solution of neutral formaline and embedded in paraffin. Having parvoviral infection, dogs experience pathomorphologic changes in immune-complement organs, indicating inhibition of the immunogenesis function during an infectious disease of viral etiology. In the immunogenesis organs of puppies with the experimental reconstruction of parvoviral enteritis, we microscopically determined the following: edema of the cortex and medulla, disorganization of thymic corpuscules, and impairment of processes of differentiation of lymphocytes in the cortex and medulla of the thymic lobules; edema and large areas of accumulation of hemosiderin in the spleen as a result of breakdown of large amount of erythrocytes; acute inflammatory hyperemia of the parenchyma, swelling of sinuses, serous and serous-hemorrhagic lymphadenitis in lymph nodes. The complex of histologic changes in the immune protection organs, which we found in the conditions of experimental reconstruction of parvoviral infection, can be considered a distinct criterion for pathomorphologic differentiation diagnostics of parvoviral enteritis in dogs.

Canine parvovirus-2: An Emerging Threat to Young Pets

Canine parvovirus-2 (CPV-2) is a highly contagious and key enteropathogen affecting the canine population around the globe by causing canine parvoviral enteritis (CPVE) and vomition. CPVE is one of the the leading causes of morbidity and mortality in puppies and young dogs. Over the years, five distinct antigenic variants of CPV-2, namely CPV-2a, CPV-2b, new CPV-2a, new CPV-2b, and CPV-2c, have emerged throughout the world. CPV-2 infects a diverse range of wild animals, and the newer variants of CPV-2 have expanded their host range to include felines. Despite the availability of highly specific diagnostics and efficacious vaccines, CPV-2 outbreaks have been reported globally due to the emergence of newer antigenic variants, expansion of the viral host range, and vaccination failures. The present chapter describes the latest information pertaining to virus properties and replication, disease manifestations in animals, and an additional recent updates on diagnostic, prevention and control strategies of CPV-2.

Diagnostic Performance of a Rapid Immunochromatographic Test Kit for Detecting Canine Parvovirus Infection

In dogs, canine parvovirus (CPV) enteritis is associated with high morbidity and fatality rates requiring early diagnosis to facilitate treatment and reduce its spread. In recent times, various commercial immunochromatographic (IC) test kits are available for its rapid diagnosis, which require an assessment of their accuracy. Therefore, precision of a point-of-care IC combination test kit for canine coronavirus (CCoV)/CPV faecal antigen detection was evaluated in this study. Multicentred random faecal samples from 115 dogs with gastroenteritis were checked for the presence of CPV antigens using the SensPERT IC combination test kit and the result was compared with polymerase chain reaction (PCR) as a reference test. Parvovirus was detected in 105 (91.3%) and 108 (93.9%) faecal samples by the point-of-care test kit and PCR, respectively. The point-of-care IC test kit showed 95.4% relative sensitivity, 71.4% specificity, 98.1% positive predictive value, 50.0% negative predictive value, and 93.9% accuracy comparable to conventional PCR in the samples tested. This point-of-care test kit also demonstrated a fair positive likelihood ratio (3.34), a very low negative likelihood ratio (0.07) and a moderate agreement (Kappa = 0.6) compared with conventional PCR. This test kit has shown to be very useful in the screening of dogs for CPV infection, and is a reliable alternative for diagnosing CPV both in conventional laboratories and remote areas without laboratories. Negative results in the IC testing with high suspicion of CPV infection should be further confirmed using superior test such as PCR.