Isolation,identification and retrospective study of foot‐and‐mouth disease virus from affected Mithun (Bos frontalis) in north‐eastern India

Foot‐and‐mouth disease (FMD ) is a contagious disease of cloven‐hoofed animals that causes substantial and perpetual economic loss. Apart from the contagious nature of the disease, the FMD virus can establish in a “carrier state” among all cloven‐hoofed animals. The Mithun (Bos frontalis ), popularly called the “Cattle of Mountain,” is found in the geographically isolated, hilly region of north‐east India: Arunachal Pradesh, Nagaland, Manipur and Mizoram. Despite the geographical inaccessibility, infection by FMD virus has emerged as the single most devastating disease among Mithun after the eradication of rinderpest from this region. Samples from outbreaks of FMD in Mithun were analysed by sandwich ELISA , multiplex RT ‐PCR (MRT ‐PCR ) and liquid‐phase blocking enzyme‐linked immunosorbent assay and isolated in the BHK ‐21 cell line. The results indicate the presence of FMDV serotype “O.” The sequencing and molecular phylogenies have revealed close relationships in the lineage of type “O” isolates from Bangladesh. The findings will provide useful information for further research and development of a sustainable programme for the progressive control of FMD in the Mithun population.     

Molecular Characterisation of Foot‐and‐Mouth Disease Viruses from Pakistan, 2005–2008

Foot‐and‐mouth disease (FMD), an economically important disease of cloven‐hoofed animals, is endemic in Pakistan where three virus serotypes are present (O, A and Asia 1). Fifty‐eight clinical samples collected between 2005 and 2008 from animals with suspected FMD in various locations in Pakistan were subjected to virus isolation on primary cell culture, antigen ELISA and real‐time RT‐PCR (rRT‐PCR). Viruses were isolated from 32 of these samples and identified as FMDV type O (n = 31) or type A (n = 1). Foot‐and‐mouth disease virus (FMDV) genome was detected in a further 11 samples by real‐time RT‐PCR. Phylogenetic analyses of the VP1 nucleotide sequences showed that all of the type O viruses belonged to the MIDDLE EAST–SOUTH ASIA topotype with the majority belonging to the PanAsia‐2 lineage; a single example of the older PanAsia lineage was identified. The single FMDV type A virus belonged to the ASIA topotype, but did not cluster with known strains that are currently circulating (such as Iran‐05) and was not closely related to other type A viruses from the region. These findings demonstrate the widespread distribution of O‐PanAsia‐2 in Pakistan and the presence of undisclosed novel type A lineages in the region.     

First detection of foot‐and‐mouth disease virus O/ME‐SA/ Ind2001e sublineage in Jordan

Foot‐and‐mouth disease (FMD) is a highly contagious vesicular disease that is caused by the FMD virus (FMDV). This disease affects both wild and domestic cloven‐hoofed animals, and the latter of which includes cattle, swine, sheep and goats. FMD is endemic to Jordan and has a severe impact on the productivity of domestic livestock. In January 2017, FMD outbreaks were detected in different animal species across Jordan, resulting in high mortality rates among young lamb and goat populations as well as causing classic FMD symptoms in cattle. In this study, clinical specimens were collected from animals affected by FMD. The results obtained from sequencing the VP1 gene place the studied FMDV isolate within the FMDV O/ME‐SA/ Ind2001e sublineage. Phylogenetic analysis of VP1 suggests that the O/JOR/1/2017 isolate is very similar to that of viruses isolated from Saudi Arabia in 2016. The possible introduction of this strain to Jordan might occur through transboundary animal movement or other transmission routes from Saudi Arabia, a neighbouring country.     

Direct detection and characterization of foot‐and‐mouth disease virus in East Africa using a field‐ready real‐time PCR platform

Effective control and monitoring of foot‐and‐mouth disease (FMD ) relies upon rapid and accurate disease confirmation. Currently, clinical samples are usually tested in reference laboratories using standardized assays recommended by The World Organisation for Animal Health (OIE ). However, the requirements for prompt and serotype‐specific diagnosis during FMD outbreaks, and the need to establish robust laboratory testing capacity in FMD ‐endemic countries have motivated the development of simple diagnostic platforms to support local decision‐making. Using a portable thermocycler, the T‐COR ™ 8, this study describes the laboratory and field evaluation of a commercially available, lyophilized pan‐serotype‐specific real‐time RT ‐PCR (rRT ‐PCR ) assay and a newly available FMD virus (FMDV) typing assay (East Africa‐specific for serotypes: O, A, Southern African Territories [SAT ] 1 and 2). Analytical sensitivity, diagnostic sensitivity and specificity of the pan‐serotype‐specific lyophilized assay were comparable to that of an OIE ‐recommended laboratory‐based rRT ‐PCR (determined using a panel of 57 FMDV ‐positive samples and six non‐FMDV vesicular disease samples for differential diagnosis). The FMDV ‐typing assay was able to correctly identify the serotype of 33/36 FMDV ‐positive samples (no cross‐reactivity between serotypes was evident). Furthermore, the assays were able to accurately detect and type FMDV RNA in multiple sample types, including epithelial tissue suspensions, serum, oesophageal–pharyngeal (OP ) fluid and oral swabs, both with and without the use of nucleic acid extraction. When deployed in laboratory and field settings in Tanzania, Kenya and Ethiopia, both assays reliably detected and serotyped FMDV RNA in samples (n  = 144) collected from pre‐clinical, clinical and clinically recovered cattle. These data support the use of field‐ready rRT ‐PCR platforms in endemic settings for simple, highly sensitive and rapid detection and/or characterization of FMDV.     

Rapid and simple detection of foot‐and‐mouth disease virus: Evaluation of a cartridge‐based molecular detection system for use in basic laboratories

Highly contagious transboundary animal diseases such as foot‐and‐mouth disease (FMD ) are major threats to the productivity of farm animals. To limit the impact of outbreaks and to take efficient steps towards a timely control and eradication of the disease, rapid and reliable diagnostic systems are of utmost importance. Confirmatory diagnostic assays are typically performed by experienced operators in specialized laboratories, and access to this capability is often limited in the developing countries with the highest disease burden. Advances in molecular technologies allow implementation of modern and reliable techniques for quick and simple pathogen detection either in basic laboratories or even at the pen‐side. Here, we report on a study to evaluate a fully automated cartridge‐based real‐time RT ‐PCR diagnostic system (Enigma MiniLab^®) for the detection of FMD virus (FMDV ). The modular system integrates both nucleic acid extraction and downstream real‐time RT ‐PCR (rRT ‐PCR ). The analytical sensitivity of this assay was determined using serially diluted culture grown FMDV , and the performance of the assay was evaluated using a selected range of FMDV positive and negative clinical samples of bovine, porcine and ovine origin. The robustness of the assay was evaluated in an international inter‐laboratory proficiency test and by deployment into an African laboratory. It was demonstrated that the system is easy to use and can detect FMDV with high sensitivity and specificity, roughly on par with standard laboratory methods. This cartridge‐based automated real‐time RT ‐PCR system for the detection of FMDV represents a reliable and easy to use diagnostic tool for the early and rapid disease detection of acutely infected animals even in remote areas. This type of system could be easily deployed for routine surveillance within endemic regions such as Africa or could alternatively be used in the developed world.     

Horizontal transmission of foot‐and‐mouth disease virus O/JPN/2010 among different animal species by direct contact

Foot‐and‐mouth disease (FMD) is highly contagious and easily transmitted among species of cloven‐hoofed animals. To investigate the transmission of FMD virus (FMDV) among different animal species, experimental infections using the O/JPN/2010 strain were performed in cows, goats and pigs. One cow or two goats/pigs were housed with a different species of inoculated animals, and clinical observations, virus shedding and antibody responses were analysed daily. Whilst all cows and goats were infected horizontally by contact with inoculated pigs, transmission from cows to goats/pigs and from goats to cows/pigs was not observed in all in‐contact animals. In particular, no pigs were infected horizontally by contact with inoculated goats. Comparison with our previous study on experimental infections among animals of the same species indicates that horizontal transmission occurred more easily between animals of the same species than between those of the different species. These findings will be useful for establishing and performing species‐specific countermeasures in farms and regions where multiple species of animals coexist in potential future outbreaks.     

Development of universal and quadruplex real‐time RT‐PCR assays for simultaneous detection and differentiation of porcine reproductive and respiratory syndrome viruses

Porcine reproductive and respiratory syndrome virus 1 (PRRSV1) and 2 (PRRSV2) (including 3 major subtypes: classical (CA‐PRRSV2), highly pathogenic (HP‐PRRSV2) and NADC30‐like (NL‐PRRSV2)) are currently coexisting in Chinese swine herds but with distinct virulence. Reliable detection and differentiation assays are crucial to monitor the prevalence of PRRSV and to adopt effective control strategies. However, current diagnostic methods cannot simultaneously differentiate the four major groups of PRRSV in China. In this study, universal and quadruplex real‐time RT‐PCR assays using TaqMan‐MGB probes were developed for simultaneous detection and differentiation of Chinese PRRSV isolates. The newly developed real‐time RT‐PCR assays exhibited good specificity, sensitivity, repeatability and reproducibility. In addition, the newly developed real‐time RT‐PCR assays were further validated by comparing with a universal PRRSV conventional RT‐PCR assay on the detection of 664 clinical samples collected from 2016 to 2019 in China. Based on the clinical performance, the agreements between the universal and quadruplex real‐time RT‐PCR assays and the conventional RT‐PCR assay were 99.55% and 99.40%, respectively. Totally 90 samples were detected as PRRSV‐positive, including 2 samples that were determined to be co‐infected with NL‐PRRSV2 and HP‐PRRSV2 isolates by the quadruplex real‐time RT‐PCR assay. ORF5 sequencing confirmed the real‐time RT‐PCR results that 2, 6, 27 and 57 of the 92 sequences were PRRSV1, CA‐PRRSV2, NL‐PRRSV2 and HP‐PRRSV2, respectively. This study provides promising alternative tools for simultaneous detection and differentiation of PRRSV circulating in Chinese swine herds.     

Foot‐and‐Mouth Disease Virus Concentrations in Products of Animal Origin

Foot‐and‐mouth disease (FMD) is a highly contagious disease of cloven‐hoofed animals which can have devastating economic consequences. Maintaining an FMD‐free status is a priority for non‐endemic countries, which restrict importation of animals and animal products from countries in which the disease is present or sporadic, thus presenting a considerable barrier to international trade. This review examines the concentration of FMD virus in animal tissues during the viraemic stage of disease and in animal products derived from infected animals.     

Seneca Valley virus RNA detection in pig feed and feed ingredients in Brazil

We investigated Seneca Valley virus (SVV) contamination in pig feed and feed ingredients. Twenty‐seven samples were collected from two Brazilian feed mills and subjected to conventional RT‐nested‐PCR and qRT‐PCR assays. Seven samples were SVV‐positive with viral loads of 3.94–4.33 log₁₀ genomic copies/g of feed. The study reveals SVV feed and feed ingredient contamination under natural conditions in Brazil.     

Genetic Characterization of Serotypes A and Asia‐1 Foot‐and‐mouth Disease Viruses in Balochistan,Pakistan, in 2011

This study reports characterization of foot‐and‐mouth disease virus (FMDV) in samples collected from Balochistan, Pakistan. FMDV was detected by pan‐FMDV real‐time RT‐PCR in 31 samples (epithelial and oral swabs) collected in 2011 from clinical suspect cases. Of these, 29 samples were serotyped by serotype‐specific real‐time RT‐PCR assays and were confirmed by sequencing the VP1 coding region. Sixteen samples were found positive for serotype A and eight for serotype Asia‐1, whereas five samples were found positive for both serotypes A and Asia‐1. Two serotype A positive samples were found positive for two different strains of serotype A FMDV each. Phylogenetic analyses of serotype A FMDVs showed circulation of at least three different sublineages within the A‐Iran05 lineage. These included two earlier reported sublineages, A‐Iran05^HER−10 and A‐Iran05^FAR−11, and a new sublineage, designated here as A‐Iran05^BAL−11. This shows that viruses belonging to the A‐Iran05 lineage are continuously evolving in the region. Viruses belonging to the A‐Iran05^FAR−11 sublineage showed close identity with the viruses circulating in 2009 in Pakistan and Afghanistan. However, viruses belonging to the A‐Iran05^HER−10 detected in Balochistan, Pakistan, showed close identity with the viruses circulating in Kyrgyzstan, Iran and Kazakhstan in 2011 and 2012, showing that viruses responsible for outbreak in these countries have a common origin. Serotype Asia‐1 FMDVs reported in this study all belonged to the earlier reported Group‐VII (Sindh‐08), which is currently a dominant strain in the West Eurasian region. Detection of two different serotypes of FMDV or/and two different strains of the same serotype in one animal/sample shows complexity in occurrence of FMD in the region.     

Opportunities for enhanced surveillance of foot‐and‐mouth disease in endemic settings using milk samples

Under‐reporting of foot‐and‐mouth disease (FMD) masks the true prevalence in parts of the world where the disease is endemic. Laboratory testing for the detection of FMD virus (FMDV) is usually reliant upon the collection of vesicular epithelium and fluid samples that can only be collected from acutely infected animals, and therefore animals with sub‐clinical infection may not be identified. Milk is a non‐invasive sample type routinely collected from dairy farms that has been utilized for surveillance of a number of other diseases. The aim of this study was to examine the application of milk as an alternative sample type for FMDV detection and typing, and to evaluate milk as a novel approach for targeted surveillance of FMD in East Africa. FMDV RNA was detected in 73/190 (38%) individual milk samples collected from naturally infected cattle in northern Tanzania. Furthermore, typing information by lineage‐specific rRT‐PCR assays was obtained for 58% of positive samples, and corresponded with the virus types identified during outbreak investigations in the study area. The VP1‐coding sequence data obtained from milk samples corresponded with the sequence data generated from paired epithelial samples collected from the same animal. This study demonstrates that milk represents a potentially valuable sample type for FMDV surveillance and might be used to overcome some of the existing biases of traditional surveillance methods. However, it is recommended that care is taken during sample collection and testing to minimize the likelihood of cross‐contamination. Such approaches could strengthen FMDV surveillance capabilities in East Africa, both at the individual animal and herd level.