Validation of a real time PCR for classical Swine Fever diagnosis

Classical swine fever: Unveiling the complexity through a multifaceted approach

Classical swine fever (CSF), sometimes referred to as hog cholera, is a highly contagious, virally based, systemic illness that affects both domestic and wild pigs. The virus known as classical swine fever virus (CSFV) is a member of the Flaviviridae family, specifically the genus Pestivirus. This disease is thought to be endemic in many Asian countries that produce pork as well as in several countries in Central and South America, the Caribbean, and elsewhere. As previously indicated, depending on the virulence of the virus strain involved and several host circumstances, clinical indications of CSFV infection can vary greatly, ranging from abrupt fatality to an occult course. CSF diagnosis can be made by serological detection, antigen, RNA, and isolation. CSF's highly varied symptoms and post-mortem pathology resemble those of African swine fever (ASF). ASF, the kind of CSFV, the pig's age, and its susceptibility all affect the clinical symptoms. Pigs that contract CSFV, a highly infectious and economically significant virus. The great economic significance of the swine business makes the CSFV a potential bioterrorism threat. Live attenuated CSF vaccinations have been around for many years and are quite safe and effective. Controlling epidemics in CSFV-free zones requires quick action. Pigs that are impacted must be slaughtered, and the carcasses must be buried or burned.

Rapid Differential Detection of Wild-Type Classical Swine Fever Virus and Hog Cholera Lapinized Virus Vaccines by TaqMan MGB-Based Dual One-Step Real-Time RT-PCR

To establish a rapid real-time RT-PCR method for differentiating wild-type classical swine fever virus (CSFV) strains from vaccine strains (HCLV), we designed a universal primer targeting the NS3 gene to detect wild-type CSFV strains and vaccine strains simultaneously, and two TaqMan-MGB probes were designed to differentiate between wild-type and vaccine strains. After optimizing the RT-qPCR conditions, a rapid dual TaqMan-MGB RT-qPCR method for the detection and identification of CSFV and HCLV was developed. The results showed that method could specifically detect CSFV and HCLV with no cross-reactivity with other swine pathogens. The analytic sensitivity for the NS3 gene of CSFV and HCLV were 1.67 × 101 copies/μL, respectively. For precision testing, the repeatability and reproducibility of the test was less than 2%. This method was successfully used for the rapid detection of 193 biological samples collected from CSFV-vaccinated pigs. This fast and accurate detection technology can be used for the detection of CSFV and is suitable for differentiating between wild-type CSFV strains and vaccine strains.

Phylodynamics of classical swine fever virus in Brazil

The classical swine fever virus is the etiologic agent of one of the diseases with the greatest impact on swine farming worldwide. An extensive area of Brazil is considered free of the disease, but some states in Northeast Brazil have registered outbreaks since 2001. The objective of this study was to analyze the genetic variations of the virus and its spread over time and space. Partial sequences of the viral E2 protein obtained from samples collected during the Brazilian outbreaks were compared with sequences from the GenBank database (NCBI). The results demonstrated the continuous presence of the virus in the state of Ceará, with diffusion to at least two other states. The Brazilian Northeast virus presents specific polymorphisms that separate it from viruses isolated in other countries.

Challenges to and advancements of the official veterinary service of the Federal District, Brazil

Animal diseases can be both a precursor to social instability and a result of social instability. For disease outbreaks to be prevented or even quickly controlled, an efficient and well-structured veterinary service is fundamental. The monitoring of the efficiency of an official veterinary service (OVS) by official audits is a sine qua non condition for the progress of an efficient way to control and eradicate diseases. In this sense, the present work aims to study the advances and challenges of the OVS of the Federal District (DF), Brazil, from a study of the scores obtained by the evaluation of the Programme of Quality Evaluation and Improvement of Official Veterinary Services which is based on the World Organisation for Animal Health - Performance of Veterinary Services Pathway (Quali-SV/OIE-PVS), which was used to officially assess the quality and improvement of the OVS of the DF. In Brazil, the official evaluation was conducted by the Coordination of Evaluation and Improvement of Veterinary Services, Ministry of Agriculture, Livestock and Food Supply, considering manpower, infrastructure and financial resources. Five possible scoring levels were audited: authority, technical and operational capacity, interaction with stakeholders and access to markets. These components were described and assessed as critical competencies in the OVS assessment. Strengths and weaknesses observed during the audit were listed, and levels of OVS progress were rated and assessed. Despite the predominance of strengths in the OVS audit, the weaknesses detected require urgent corrective action, especially with regard to the autonomy of the OVS.

RT-qPCR for the diagnosis of the vesiculovirus Cocal virus

Cocal virus (COCV) is one of the causative agents of vesicular stomatitis, presenting clinical signs indistinguishable from those caused by foot-and-mouth disease virus (FMDV). Therefore, the differentiation of these two viruses via laboratory diagnosis is essential. The objective of this study was to develop and validate a real-time quantitative PCR (RT-qPCR) protocol for the diagnosis of COCV directly from epithelial samples. The method developed had 97% accuracy at 3950 pfu and a repeatability error of 1.29%. RT-qPCR was able to distinguish COCV from other viruses that cause vesicular diseases, an important factor because seroneutralization may produce cross-reactivity between COCV and vesicular stomatitis Alagoas virus (VSAV). No epithelial sample originating from vesicular disease outbreaks between 2014 and 2018 in Brazil was positive for COCV.

Simultaneous detection of classical swine fever virus and porcine circovirus 3 by SYBR green I-based duplex real-time fluorescence quantitative PCR

In the present study, the SYBR green I-based duplex quantitative polymerase chain reaction (qPCR) was developed for simultaneous detection of classical swine fever virus (CSFV) and porcine circovirus 3 (PCV3). The assay was used to detect both CSFV and PCV3 in one sample by their distinct melting temperatures (melting peaks at 87°C for CSFV and 81.5 °C for PCV3), and no specific fluorescence signals were detected for other non-targeted porcine pathogens. The assay had a high degree of linearity (R² > 0.998) with the detection limits of 23 copies/μL for CSFV and 36 copies/μL for PCV3, and exhibited high repeatability and reproducibility with a low coefficient of variation below 2.0% in both intra- and inter-assay. In this study, 130 clinical samples collected from sick pigs in the field were tested by this assay with the positive rates of 9.23% (12/130) for CSFV and 21.54% (28/130) for PCV3 respectively, and the positive rate of CSFV and PCV3 co-infection was 6.92% (9/130). Our results showed that the developed method was a reliable diagnostic tool to monitor and survey CSFV, PCV3 and CSFV/PCV3 co-infection in the field.

A molecular survey using a validated real-time PCR assay finds no evidence of bovine alphaherpesvirus 2 in samples from animals with suspected vesicular disease in Brazil between 2014 and 2017

Bovine alphaherpesvirus 2 (BoHV-2) is the etiologic agent of bovine mammillitis (BM) and pseudo-lumpy skin disease. BM is also important because its clinical presentation can be confused with foot-and-mouth disease (FMD), making it necessary to establish differential diagnoses and perform additional laboratory tests. The objective of this work was to use a validated real-time PCR assay to test for the presence of BoHV-2 in samples from cattle and buffalo with suspected vesicular disease in Brazil. The method could detect the virus at a concentration of 0.5 fg/μL and had 99.4% amplification efficiency, a repeatability error of only 4.1%, and good reproducibility with other reagents. No evidence of BoHV-2 causing vesicular disease in cattle and buffalo was found in this work. This study was able to validate a new methodology for detection of BoHV-2 and evaluate its usefulness for investigating outbreaks of vesicular disease Brazil. The importance of BoHV-2 in cases involving other clinical signs should still be studied using the qPCR developed in this work.

Rapid detection of giant salamander iridovirus by cross-priming amplification

Giant salamander iridovirus (GSIV) belongs to the epizootic genus Ranavirus, and is the cause of epidemic diseases associated with high mortality and great losses to artificial breeding and farming. Here, we established a simple, accurate, and reliable cross-priming amplification (CPA) method to detect GSIV. The CPA assay targets the major caspid protein gene of the GSIV genome to design crossing primer pairs, and the reaction conditions were optimized, including optimal concentrations of the primers, betaine, dNTPs, Mg²⁺, and Bst DNA polymerase, and reaction conditions. The sensitivity was shown to be 10 times higher than that of conventional polymerase chain reaction (PCR), and the specificity was 100%. The results were identified on nucleic acid strips within 3-5 min. Application of the CPA and PCR to 54 samples of giant salamander showed a positive rate of 72.22% and 74.07%, respectively, demonstrating high coincidence (94.44%, kappa = 8.7, P < 0.0001). The sensitivity of the CPA assay was 97.50% and the specificity was 92.86%. Thus, the CPA assay is as effective as conventional PCR, but with added practical advantages of simplicity and an almost instrument-free platform, which will be useful for both laboratories and giant salamander farms.

Development and validation of rt-qpcr for vesicular stomatitis virus detection (Alagoas vesiculovirus)

Vesicular stomatitis is an infectious disease that occurs mainly in countries of the Western Hemisphere and affects cattle, swine and horses. The clinical symptoms in cattle and swine are similar to foot-and-mouth disease and include vesicular ulceration of the tongue and mouth. The disease requires a rapid and accurate differential diagnosis, aiming for immediate implementation of control measures. The objective of the present study was to develop and perform validation tests of multiplex RT-qPCR(s) for the detection of RNA from Alagoas vesiculovirus, considering the parameters of sensitivity and analytical specificity, analytical performance (repeatability and reproducibility criteria) and the uncertainty of the measurement. The threshold cycle values obtained in triplicate from each sample were evaluated by considering the variations between days, analysts and equipment in an analysis of variance aimed at determining the variances of repeatability and reproducibility. The results showed that RT-qPCRs had excellent sensitivity and specificity in the detection of RNA of the Alagoas vesiculovirus. The validation parameters showed low coefficients of variation and were equivalent to those found in other validation studies, indicating that the tests presented excellent repeatability and reproducibility.

An outbreak of classical swine fever in pigs in Bangladesh, 2015

In a group of 22 healthy pigs aged between 4 and 6 months, 2 pigs became ill with high fever, complete anorexia, cough and abnormal swaying movements on 22 June 2015. One of them died on June 24 and the second died on July 3. Shortly after, the remaining pigs also fell ill and died from the same illness by 10 August 2015. We investigated the aetiology, epidemiological and clinical features of the outbreak. We recorded the clinical signs and symptoms for each pig with the date of onset of illness. Veterinarians conducted post-mortem examinations on the 12 dead pigs, they collected tissue samples from the dead pigs and placed them in a tube containing 1 mL of nucleic acid extraction buffer (lysis buffer). We tested all the tissue samples by real-time reverse transcription polymerase chain reaction (rRT-PCR) to detect classical swine fever virus (CSFV) because the animals' symptoms matched those of this disease. We also conducted a phylogentic analysis of the nucleotide sequence of the E2 gene segment of CSFV detected in a lung tissue sample. The attack rate (22/22) and the case fatality were 100%. The predominant symptoms of the disease included high fever, cough, diarrhoea and swaying movements of the hind legs prior to death. Of the 12 pigs tissue samples tested, all had evidence of the presence of CSFV RNA by rRT-PCR. The phylogenetic analysis indicated that the virus belongs to genotype 2.2, which is closely related to CSFV genotype 2.2 reported in India. Our investigation suggests that CSF is circulating in pigs, posing a risk for communities in Bangladesh that rely on pigs for economic income and dietary protein. Future research could focus on estimating the disease and economic burden of CSFV in pig rearing areas to determine if interventions might be warranted or cost-effective.