Game meat procurement market in Poland in 2009-2021

Procurement of game animals is a major source of revenue for hunting clubs in Poland. For several years, the game meat buying market has been showing an upward trend, but this situation is also influenced by random factors that negatively affect the value of the game meat buying market. For several years in our country we have been struggling with the ASF virus, and since 2020, negative effects in the economy related to the occurrence of the SARS-CoV virus have been observed, also affecting the hunting sector with its activities. The aim of the study was to analyze the dynamics of game meat procurement in Poland in the years 2009-2021. The data concerned the three most important species, namely deer, roe deer and wild boar. The analysis covered the quantity of game meat, procurement value and the average price of game meat depending on animal species. The conducted research confirmed an upward trend in the volume and value of game meat procurement for all the analysed game species. Similarly, the average procurement prices of roe dee and wild boar meat with the exception of red deer, showed an upward trend. The study confirmed the negative impact of the ASF virus and the SARS-CoV-2 virus on the game meat buying market in Poland.

Infectious disease Roundup 2022

This paper describes the epidemiology, prevalence, transmission, prevention and control of some infectious diseases in companion animals, livestock, wild animals and humans in Ontario, Canada, in 2022, including SARS-CoV-2;Echinococcus multilocularis, Leishmania spp. and SARS-CoV-2;antimicrobial stewardship resources;2 cases of rabid dogs imported from Iran (July 2021 and January 2022);prevalence of extended-spectrum beta-lactamase (ESBL)-producing Enterobacteriacea, Dirofilaria immitis, Brucella canis, canine parainfluenza and adeno- and herpes viruses in dogs recently imported from Asia;Paragonimus kellicotti lung flukes and Streptococcus equi subsp. zooepidemicus in dogs;African swine fever in pet pigs, backyard pigs and wild pigs and blastomycosis in dogs and humans.

Development of an Indirect ELISA Antibodies Detection Method on Tandem-epitope Peptide of African Swine Fever Virus p30 and p54 Proteins.

Here, we report the development of an indirect ELISA antibodies detection method for African swine fever virus (ASFV). Two purified monoclonal antibodies (mAbs) against ASFV p30 and p54 protein were used as targets and a phage-displayed 12-mer peptide library was used to conduct four rounds of biopanning to screen peptide epitopes, then amino acids GGG was used as a linker to synthesize tandem-epitope peptide of ASFV p30 and p54 protein which was used as coating antigen. The optimum reaction conditions of indirect ELISA were determined by chessboard titration, and clinical serum samples were used to evaluate the specificity, sensitivity, stability and conformity of this method. The biopanning experiment indicated that 146PAEPYTT152 was a core domain of the B cell linear epitope of p54 protein. The optimization results of ELISA reaction conditions showed that the tandem-epitope peptide coupled with ovalbumin (OVA) at N-terminal had low background of non-specific serum reaction. And the optimum reaction effect was obtained when the polypeptide antigen was coated with carbonate buffer in 2 mug.mL-1, the serum was diluted 100-fold with blocking solution (1% gelatin solution), and the HRP-antibody was diluted 5 000 times with 0.05% PBST solution. The cut-off value was determined to be 0.339. Furthermore, the results of specificity, sensitivity and stability tests showed that there is no cross-reaction in positive serum samples of classical swine fever virus (CSFV), porcine reproductive and respiratory syndrome virus (PRRSV), porcine circovirus type 2 (PCV2), porcine parvovirus (PPV) and porcine pseudorabies virus (PRV), the detection limit of ASFV positive sera is 1:1 600, and the method had high repeatability. Finally, Total 320 swine serum samples were detected simultaneously by the present established method and commercial ASFV antibody detection kit. The results showed that the relative specificity and sensitivity of the two methods were 97.6% and 97.3%, respectively. And the coincidence rate was 97.5%. In conclusion, this method showed good specificity, sensitivity, repeatability and coincidence rate, that had the potential value of developing clinical diagnostic kit.Copyright © 2022 Editorial Board, Institute of Animal Science of the Chinese Academy of Agricultural Sciences. All rights reserved.

Current understanding of the airborne transmission of important viral animal pathogens in spreading disease

Current research on airborne transmission of African swine fever virus (ASFV), porcine epidemic diarrhoea virus (PEDV), avian influenza (AIV), porcine reproductive and respiratory syndrome virus (PRRSV), and foot and mouth disease virus (FMDV) was reviewed to evaluate commonalities, knowledge gaps, and methodologies of studying airborne transmission of animal diseases. The reviewed studies were categorised as short-range transmission (within a single facility) and long-range transmission (beyond a single site). Short-range airborne transmission was demonstrated for at least one strain of the above-mentioned pathogens in experimental settings. Most studies reported in the literature concern FMDV, with limited information for ASFV and PEDV, particularly for short-range airborne transmission. Air sampling upwind, downwind, and within infected facilities has been commonly used to demonstrate long-range airborne transmission. The amount of evidence from air sampling for each of the reviewed viruses varies from no evidence on ASFV to evidence from multiple settings for AIV. Computer modelling has been used to study past outbreaks of infectious diseases to assess the contribution of airborne transmission with a multitude of computer models reported in the literature for simulating long-range airborne transmission of FMDV based on past outbreaks. This has resulted in predictive tools for assessing future risk of airborne transmission. Some important computer models are based on epidemiology analysis, weather analysis, and air dispersion. Few models are reported for ASFV, PEDV, and PRRSV. Studies in the literature indicate that airborne transmission is generally affected by virus strain, aerosol type, shedding duration and concentration, environmental conditions, and infectious dose.

Tradeoff analysis of the pork supply and food security under the influence of African swine fever and the COVID-19 outbreak in China

China is the world's largest consumer of pork and grains. However, African swine fever (ASF) and the COVID-19 outbreak have greatly impacted the pork supply and food security in China. How can food security and the pork supply be ensured under the dual impacts of COVID-19 and ASF? This is a major problem to be urgently solved by the Chinese government. This study indicated that the main pork production and sales areas in China were separated, which reflected the spatial imbalance between the supply and demand. The total area of suitable selected sites for pig farms in China is 21.5 million ha. If only the areas with levels of high and moderate suitability are considered as potential sites for pig farms, the potential pork production can reach 56.1 million tons in China, which is slightly lower than demand. Due to the impact of the ASF epidemic, the food consumed by pigs has been reduced by 34.7 million tons. However, with increasing pork productivity in the future, the self-sufficiency rate of grains may further decline. On the premise that the quality of people's life is not affected, the diversification of meat supply channels should be realized in an orderly and sustainable way, which might alleviate the pressure on food supply. This study provides a theoretical reference for the spatiotemporal layout of the swine industry and addresses the issue of food security in China under the influence of ASF and the COVID-19 outbreak.

Preparation of the Monoclonal Antibody against the African Swine Fever Virus p54 Protein and Identification of the Antigenic Epitope.

The aim of this paper was to prepare specific monoclonal antibody (mAb) against African swine fever virus (ASFV) p54 protein. The p54 protein was expressed in Escherichia coli expression system and used as the antigen in mAb production. The spleen cells from the immunized BALB/c mice were fused with myeloma cells SP2/0. To screen the positive hybridoma cells, the purified p54 protein was used as envelope antigen for indirect ELISA. After four times' subcloning, the supernatant of hybridoma cells were used to identify mAb subtype, ascites were prepared via in vivo induction method in mice and then the mAb was purified. The titer of the mAb was detected by indirect ELISA, and the specificity of the mAb was identified by cross reactivity assay, IFA and Western blot. According to the predicted secondary structure of p54 protein, using the stepwise truncation method identified the epitope region of mAbs, and labeled the region in tertiary structure of p54 protein. Results were as follows: six hybridoma cells secreting p54 monoclonal antibody were successfully screened and named 28G12-1, 31G7-1, 31G7-2, 35F10-1, 35F10-2, 38D3-1, respectively. The heavy chains of 28G12-1, 31G7-1, and 31G7-2 were IgG2a type, the heavy chains of 35F10-1, 35F10-2, 38D3-1 were IgG1 type, light chains were all kappa chains. The lowest titer of mAb was 1:25 600, and having no cross reaction with PRRSV, PRV, PEDV, PPV, SADS-CoV, PCV2, the specificity was strong. All six monoclonal antibodies could recognize the 127-146 aa on carboxyl end. In this study, ASFV p54 protein and p54 monoclonal antibody were successfully obtained, and the epitopes of six mAbs were identified, these experimental data laid a foundation for the functional research of p54 protein and the study of ASFV epitope vaccine. Copyright © 2023 Editorial Board, Institute of Animal Science of the Chinese Academy of Agricultural Sciences. All rights reserved.

Berbamine Hydrochloride Inhibits African Swine Fever Virus Infection In Vitro.

African swine fever virus (ASFV) causes a viral disease in swine with a mortality rate of approximately 100%, threatening the global pig industry's economic development. However, vaccines are not yet commercially available, and other antiviral therapeutics, such as antiviral drugs, are urgently needed. In this study, berbamine hydrochloride, a natural bis-benzylisoquinoline alkaloid isolated from the traditional Chinese herb Berberis amurensis, showed significant antiviral activity against ASFV. The 50% cytotoxic concentration (CC50) of berbamine hydrochloride in porcine alveolar macrophages (PAMs) was 27.89 µM. The antiviral activity assay demonstrated that berbamine hydrochloride inhibits ASFV in a dose-dependent manner. In addition, a 4.14 log TCID50 decrease in the viral titre resulting from non-cytotoxic berbamine hydrochloride was found. Moreover, the antiviral activity of berbamine hydrochloride was maintained for 48h and took effect at multiplicities of infection (MOI) of 0.01, 0.1, and 1. The time-of-addition analysis revealed an inhibitory effect throughout the entire virus life-cycle. A subsequent viral entry assay verified that berbamine hydrochloride blocks the early stage of ASFV infection. Moreover, similar anti-ASFV activity of berbamine hydrochloride was also found in PK-15 and 3D4/21 cells. In summary, these results indicate that berbamine hydrochloride is an effective anti-ASFV natural product and may be considered a novel antiviral drug.

Epidemics and pandemics of infectious disease

Throughout the course of civilization, epidemics and pandemics have ravaged humanity, destroyed animal breeding and horticulture, and has also changed the course of history. It has been estimated that Justinian plague has affected half of the population of Europe and killed in three pandemics 50 million people, the avian-borne flu (Spanish flu), resulted in 50 million deaths worldwide in the years 1918-1919, and recently the COVID-19 is officially a pandemic, after barreling through 114 countries in just three months. In the past, rinderpest has hit Europe with three long panzootics, African swine fever (ASF), is still a threat to both the swine production industry and the health of wild boar populations. Several molecular changes occur in the pathogen that may trigger an epidemic or even pandemic. These include increase of virulence, introduction into a novel host, and changes in host susceptibility to the pathogen. Once the infectious disease threat reaches an epidemic or pandemic level, the goal of the response is to mitigate its impact and reduce its incidence, morbidity and mortality as well as disruptions to economic, political, and social systems. An epidemic curve shows progression of illnesses in an outbreak over time and the SIR, SI, SIRD and SEIR represent the simplest compartmental models that enable simplify the mathematical modelling of epidemics. This article throws a light on changing ideas in epidemiology of infectious diseases.

One-Pot Visual Detection of African Swine Fever Virus Using CRISPR-Cas12a.

African swine fever virus (ASFV) is a leading cause of worldwide agricultural loss. ASFV is a highly contagious and lethal disease for both domestic and wild pigs, which has brought enormous economic losses to a number of countries. Conventional methods, such as general polymerase chain reaction and isothermal amplification, are time-consuming, instrument-dependent, and unsatisfactorily accurate. Therefore, rapid, sensitive, and field-deployable detection of ASFV is important for disease surveillance and control. Herein, we created a one-pot visual detection system for ASFV with CRISPR/Cas12a technology combined with LAMP or RPA. A mineral oil sealing strategy was adopted to mitigate sample cross-contamination between parallel vials during high-throughput testing. Furthermore, the blue fluorescence signal produced by ssDNA reporter could be observed by the naked eye without any dedicated instrument. For CRISPR-RPA system, detection could be completed within 40 min with advantageous sensitivity. While CRISPR-LAMP system could complete it within 60 min with a high sensitivity of 5.8 × 102 copies/µl. Furthermore, we verified such detection platforms display no cross-reactivity with other porcine DNA or RNA viruses. Both CRISPR-RPA and CRISPR-LAMP systems permit highly rapid, sensitive, specific, and low-cost Cas12a-mediated visual diagnostic of ASFV for point-of-care testing (POCT) applications.

Porcine coronavirus: what are the scientific advances? [French]

Coronaviruses have a high evolutionary capacity which has led to their very large genetic diversity. Their prevalence in nature is very high and they can infect a wide spectrum of hosts including mammals (including humans) and birds. To date, six porcine coronaviruses have been identified. Two of which were responsible for severe epizootics in pigs with a major impact in the global swine industry in the 60's to 80's for porcine transmissible gastroenteritis virus and since the 2010's in China and 2014 in North America for porcine epidemic diarrhoea virus. The latter has also become the third most important pathogen for pigs in China after the African swine fever virus and the porcine reproductive and respiratory syndrome virus. This review summarizes the latest developments in scientific knowledge of these porcine coronaviruses.

Baseline update for international dairy, livestock and biofuel markets: FAPRI-MU report #08-21

In 2021 the markets for the commodities in this update have continued to be disrupted by COVID-19. All levels of the markets in many countries have been impacted from the supply of inputs, to processing capability and logistics. African Swine Fever (ASF), particularly in China, has disrupted meat markets. Volatility in these markets in the near term is to be expected and it is important to note that the path these markets take will be more volatile than what is projected here. Furthermore, the numbers presented in this report should not be interpreted as forecasts but as projections. They are estimates of the average values that would prevail under normal weather, current policy and macroeconomic parameters assumed herein. This update was prepared the weeks of August 23 and August 30, 2021 using data available at that time. Current policies are assumed to remain in place. The update uses data for international dairy and livestock from USDA's Production, Supply and Distribution database, with updates from the latest USDA's GAIN reports and other sources. Biofuels data comes primarily from F.O. Licht supplemented by GAIN reports and some country sources. The macroeconomy is assumed to evolve as forecast by IHS Markit in July 2021. Additionally no further assumptions have been made with regards to any other markets impacts associated with COVID-19.

Is the COVID-19 pandemic impacting on the risk of African Swine Fever virus (ASFV) introduction into the United States? A short-term assessment of the risk factors.

African swine fever (ASF) is a contagious disease with high mortality in domestic and feral swine populations. Although it is not a zoonosis, its spread may have severe socio-economic and public health consequences. The activities of veterinary services are essential for controlling ASF outbreaks within a country, but also for diminishing its threat of spread to neighbouring countries, and for recognizing its entry into countries that are currently free. ASF requires quick responses and permanent monitoring to identify outbreaks and prevent spread, and both aspects can be heavily undercut during the COVID-19 pandemic. This paper analyses changing patterns of the main drivers and pathways for the potential introduction of ASFV into the United States during the COVID-19 pandemic, including international movements of people, swine products and by-products. Data on commercial flights and merchant ships was used as a proxy to indirectly assess the flow of illegal products coming from ASF affected countries. Results from this study highlight a decreasing trend in the legal imports of swine products and by-products from ASF affected countries (Sen's slope = -99, 95% CI: -215.34 to -21.26, p-value < 0.05), while no trend was detected for confiscations of illegal products at ports of entry. Additionally, increasing trends were detected for the monthly number of merchant ships coming from ASF affected countries (Sen's slope = 0.46, 95%CI 0.25-0.59), the monthly value of imported goods ($) through merchant ships (Sen's slope = 1513196160, 95%CI 1072731702-1908231855), and the monthly percentage of commercial flights (Sen's slope = 0.005, 95%CI 0.003-0.007), with the majority of them originating from China. Overall, the findings show an increased connection of the United States with ASF affected countries, highlighting the risk posed by ASF during a global public health crisis.

African Swine Fever spread across Asia, 2018-2019.

African Swine Fever Virus (ASFV) is a highly contagious pathogen that causes disease in pigs, commonly characterized by acute haemorrhagic fever. Prior to August 2018, African Swine Fever (ASF) had not been reported in Asia, but has since spread throughout China, Mongolia, Korea, Vietnam, Laos, Cambodia, Myanmar, the Philippines, Hong Kong, Indonesia, Timor-Leste and Papua New Guinea. Using data collated from reports of confirmed cases, we applied spatio-temporal analysis to describe ASFV spread throughout Asia during its early phase-from 1 August 2018 (reported start date) to 31 December 2019-to provide an overview and comparative analysis. Analysis revealed a propagating epidemic of ASFV throughout Asia, with peaks corresponding to increased reports from China, Vietnam and Laos. Two clusters of reported outbreaks were found. During the epidemic, ASFV primarily spread from the North-East to the South-East: A larger, secondary cluster in the North-East represented earlier reports, while the smaller, primary cluster in the South-East was characterized by later reports. Significant differences in country-specific epidemics, morbidity, mortality and unit types were discovered. The initial number of outbreaks and enterprise size are likely predictors of the speed of spread and the effectiveness of ASFV stamping out procedures. Biosecurity methods, wild boar populations and the transportation of pigs and movement of infected fomites are discussed as likely risk factors for facilitating ASFV spread across Asia.

CRISPR/Cas12a-Based Versatile Method for Checking Quantitative Polymerase Chain Reaction Samples with Cycles of Threshold Values in the Gray Zone.

Quantitative polymerase chain reaction (qPCR) is widely applied in foodborne pathogen detection and diagnosis. According to the cycles of threshold (Ct) values of qPCR testing, samples are judged as positive or negative. However, samples with Ct values in the gray zone are classified as "possibly positive" and required to be tested again. Repetitive qPCR may not eliminate the uncertain results but increase the workload of detection. CRISPR/Cas12a can specifically recognize the nucleic acid of the nM level and then indiscriminately slash the single-strand DNA with multiple turnovers. In this way, the detection signals can be greatly amplified. Here, we propose a CRISPR-based checking method to solve gray zone problems. After qPCR testing, the screening gray zone samples can be successfully checked by the CRISPR/Cas12a method. Furthermore, to conduct CRISPR reaction assay more conveniently and prevent possible aerosol contamination in the operational process, a gray zone checking cassette is designed. African swine fever virus (ASFV) is selected as an example to demonstrate the feasibility of the CRISPR-based checking method. Of 28 real swine blood samples, 6 ASFV qPCR gray zone samples are successfully checked. The CRISPR-based checking method provides a novel solution to eliminate gray zone sample problems with no additional effects on the PCR, which is operable and applicable in practical detection. The entire process can be completed within 10-15 min. This method will be a good supplementary and assistance for qPCR-based detection, especially in the diagnosis of diseases such as COVID-19.