ABSTRACT
Many zoonotic diseases are found in wild animals and present a serious risk to human health, in particularly the virus carried by birds flying freely around the world is hard to control. There are three main bird migration routes which cover the most areas of China. It is important to investigate and fully understand the types of avian transmitted diseases in key areas on the bird migration routines and its impacts on both birds and human health. However, no literature is available in how about the risk of virus carried by migrating birds, and how to predict and reduce this risk of virus spreading to human being so far. In this paper, we first reviewed the main pathogen types carried by birds, including coronaviruses, influenza viruses, parasites, Newcastle disease virus (NDV), etc., and then discussed the spread risk of avian viruses to human being and animals in key areas of biosafety prevention. We also analyzed and discussed the risk of cross-spread of diseases among different bird species in nature reserves located on bird migration routes which provide sufficient food sources for migratory birds and attract numerous birds. Diseases transmitted by wild birds pose a serious threat to poultry farms, where high density of poultry may become avian influenza virus (AIV) reservoirs, cause a risk of avian influenza outbreaks. Airports are mostly built in suburban areas or remote areas with good ecological environment. There are important transit places for bird migration and densely populated areas, which have serious risk of disease transmission. Finally, this paper puts forward the following prevention suggestions from three aspects. First, establish and improve the monitoring and prediction mechanism of migratory birds, and use laser technology to prevent contact between wild birds and poultry. Second, examine and identify virus types carried by birds in their habitats and carry out vaccination. Third, protect the ecological environment of bird habitat, and keep wild birds in their natural habitat, so as to reduce the contact between wild birds and human and poultry, and thus reduce the risk of virus transmission.
ABSTRACT
Coinfection caused by bacteria, parasites, or viruses complicates almost all feline panleukopenia virus (FPV) infections. Pathogens that colonize the gastrointestinal tract, Clostridium perfingens, Clostridium piliforme, Cryptosporidium spp, Giardia spp, Tritrichomonas fetus, canine parvovirus type 2,Salmonella sp., feline coronavirus, feline bocavirus, and feline astrovirus were isolated in the presence of FPV infection. Complex mechanisms between viruses, bacteria, protozoa, and hosts contribute to the pathogenesis and severity of coinfection. Prompt and accurate diagnosis, vaccination precautions, and appropriate treatment play important roles in reducing morbidity and mortality. This article outlines the etiology, pathogenesis, diagnosis, prevention, and treatment that can help veterinarians and pet owners improve their knowledge of managing the diseases.
ABSTRACT
This report describes the impact of the SARS-CoV-2 pandemic on the productive and economic aspects of livestock and aquaculture production in Italy, including farm management, labour, income, marketing and consumption of animal products (meat, fish, eggs, milk and dairy products), consumer behaviour, food safety, agrotourism and disease control.
ABSTRACT
The possession of exotic animals as pets is a social practice that has become more visible in Mexico in recent years, so it is interesting to understand its environmental and social implications and those related to human health. The present study aims to identify the main species of exotic animals kept as pets and the zoonotic diseases reported in these species. We analyzed official figures of seizures of exotic fauna in Mexico and reviewed specialized literature on zoonotic diseases documented in Mexico in these species. We identified zoonoses in species of fauna that can be acquired legally and illegally in the country, reported in environments in which animals coexist with other species and are in direct contact with people, which represents an important factor in the spread and propensity of this type of disease. We conclude that the sanitary regulation of wildlife markets, the monitoring and studying microorganisms associated with wildlife are valuable strategies to prevent the emergence of zoonoses.
ABSTRACT
SARS-CoV-2 was first identified in humans in December 2019 and has since affected almost 68 million people causing over 1.5 million deaths worldwide. Animal-to-human and animal-to-animal transmission has been documented within farmed minks in several countries. SARS-CoV-2 has been identified in a farmed mink population in a number of countries. Some of the affected farms reported also workers SARS-CoV-2 infection and it is hypothesized that the mink farms were infected through human-mink transmission proving SARS-CoV-2 capability of reverse zoonosis. This Tripartite Risk Assessment, as a joint effort under the GLEWS+ initiative, completed with the Food and Agriculture Organization (FAO), the World Health Organization (WHO), and the World Organisation for Animal Health (OIE), evaluates the risk of introduction and spread of SARS-CoV-2 within fur farming systems as well as whether farmed fur animals could play a significant role in the spread of SARS-CoV-2 to humans via spillover. Additionally, using a One Health approach, the Tripartite evaluated the risk of the escaped minks leading to the establishment of a viral reservoir in susceptible wildlife populations. This work provides guidance to Members on this newly emerging threat.
ABSTRACT
The Indian poultry market is estimated to have an annual growth rate of 8.1% as of today. However, infectious diseases in poultry pose an important constraint in the growth and development of this sector in our region. Among infectious diseases, viral diseases of poultry pose a serious threat to the poultry industry from an economic point of view. Several viral disease outbreaks have been reported by various researchers from different parts of the country. Among the common viral diseases of poultry, incidences of Newcastle disease, Avian Influenza, Fowl Pox, Infectious Bursal Disease, Marek's disease, Infectious Bronchitis, Infectious Laryngotracheitis and Inclusion Body Hepatitis are significant in Assam as well as other parts of India. Thorough epidemiological studies followed by the identification of different serotypes, pathotypes, strains, etc. by genotyping and molecular characterization of viral disease pathogens may lead to ways to control and eradicate the diseases. Importance should be given to maintaining basic preventive measures like biosecurity, farm hygiene, and proper vaccination. In a developing country like India, disease outbreaks can impact the country's economy. In this study, a brief view of the common viral disease of poultry and its diagnosis and control strategies in Assam, India is depicted. However, this review well indicates a plethora of avian diseases that have occurred over the years causing a severe impact on poultry farming as a whole.
ABSTRACT
Auckland Island, the fifth largest island in New Zealand, is the only island in New Zealand's subantarctic region where introduced mammalian pests remain (pigs, Sus scrofa;mice, Mus musculus;cats, Felis catus). The island has unique biodiversity and is a key site for progressing New Zealand's goal to be free of several introduced predators by 2050. Recent island eradication successes have rekindled interest in eradicating pests from Auckland Island, and for the first time considering all three pests in one project. Over a 3-year period, we tested the feasibility of eradicating pigs, mice and cats by looking at what it would take to succeed, rather than what we could practically deliver with the tools we currently have. We proposed adaptations to current methods and used an evidence-based approach by undertaking large-scale field trials to test uncertainties and emerging technologies in-situ. We gathered data and evaluated proposed methods against five established principles of eradication while considering the logistics and infrastructure requirements of the project. Eradicating pigs, mice and cats from Auckland Island is worthwhile and feasible but dependent on further development of emerging technologies and capabilities for efficient delivery with an acceptable level of risk. Three eradication operations are required with specific sequencing and timing, supported by initial establishment of infrastructure. The project needs a large investment spread over 8 to 10 years to yield permanent and internationally important benefits with low ongoing cost to sustain. The feasibility study exposed the project's scale and was used to inform decision makers, who postponed the work in 2020 in response to the economic impacts of COVID-19. The study focusses future preparations on identified planning issues and dependencies to progress project readiness in anticipation of it being launched when economic conditions allow.
ABSTRACT
The authors summarize the current knowledge about FIP (feline infectious peritonitis) using the latest scientific literature and their own experiences. The feline coronaviruses, both the feline enteric coronavirus (FECV) and the FIP virus (FIPV) belong to the same Alphacoronovirus 1 species, in the Alphocoronovirus genus within the Coronoviridoe family, and infect wild and domestic felids. FIPV is the mutated form of the ubiquitous and contagious feline enteric coronavirus. which, in contrast, causes a fatal and non -infectious illness. The letha, disease cevelops in only a subset of infected cats as a result of complex immunopatho-logical processes. The clinical manifestation of the disease is very diverse, the effusive form ("wet form") has a more rapid course than the non-effusive form ("dry form"). However, these two main manifestations are rather the endpoints of a continuum of diseases. Macroscopically the wet form is characterized by effusions in the serosal cavities, and the dry form by perivascular (pyo)granulomas in the organs. The most characteristic histological lesions are granulo-matous to necrotizing vasculitis in the wet form, and vas-acentric pyogranulomatous inflammation in the dry form. Ante-mortem diagnosis of the disease is challenging yet extremely important, partially because of recent successes in therapy. The most reliable diagnosis is likely to be made only post-mortem, but a properly constructed diagnostic workflow can be similarly effective. Although the active substances of previous successful therapies are relatively easily available, they are not approved for veterinary use. In the absence of an effective vaccine, prevention is based mainly on epidemiological considerations and the reduction of stressors that unnecessarily affect the cats. Presenting the example of FIP and COVID-19, it is perfectly understandable why the experience of different drugs in the treatment of animal curonaviral infections can be of tremendous value in preparing their use in human experiments.
ABSTRACT
Most of the coronaviruses are known because they are pathogens of veterinary and economic importance or of social importance. The current knowledge on the origin, diversity, evolution of coronaviruses, as well as treatment and prevention strategies, and their impact on animal industries are discussed in this paper. The contribution factors for the outbreak of pathogenic coronaviruses and the potential of spill over of zoonotic coronaviruses to humans are also highlighted in this review paper.
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This review categorizes 62 zoonoses humans share with dogs based on their clinical, public health importance, and global distribution. Three categories were identified. Category 1 comprise the most widespread and public health important zoonoses and includes 13 zoonoses where dogs play an essential role in the maintenance and transmission of the infectious organisms. This category comprises Rabies lyssavirus, Leptospirosis, Leishmania, Trypanosoma cruzi, Trypanosoma brucei spp., Clonorchis sinsensis, Opisthorchis viverrini, Paragonimus spp., Echinococcus granulosus, Echinococcus multilocularis, Taenia multiceps, Dracunculus medinensis, Toxocara canis, Ancylostoma spp., and Strongyloides stercoralis Category 2 includes 24 zoonoses of lesser public health importance in which human or dog behavior plays a major role in transmission. Category 2 includes,Microsporum spp Prevotella., Bacteroides spp., Porphyromonas spp., Bergeyella zoohelcum, Neisseria spp., Pasteurella spp., Capnocytophaga canimorsus, Staphylococcus spp., Streptococcus spp., Salmonella spp., Anaplasma spp., Ehrlichia spp., Borrelia spp., Rickettsia spp., Yersina pestis, Giardia duodenalis, Cryptosporidium spp., Toxoplasma gondii, Dibothriocephalus latum, Spirometra spp., Schistosoma spp., Echinococcus canadensis, and Sarcoptes scabei var canis Category 3 includes human infection where the zoonotic infection link is rare but has occasionally implicated dogs. This category includes SARS-CoV-2,Bordetella bronchiseptica, Mycobacterium spp., Corynebacterium spp., Coxiella burnetti, Helicobacter spp., Campylobacter spp., Brucella canis, Balantioides coli, Blastocystis hominis, Bacillus anthracis, Dipylidium caninum, Taenia spp., Trichuris vulpis, Gnathostoma spp., Thelazia spp., Dirofilaria spp., Onchocera lupi, Heterophyes heterophyes, Metagonimus spp., Fasciolopsis buski, Ctenocephalides felis, Cheyletiella spp., Otodectes cynotis, and Cochliomya homnivorax. Changes in human behavior and control of canine infection would reduce the public health importance of these zoonoses.
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The clinical signs, diagnosis, treatment, prevention and control of outbreaks of Bovine respiratory syncytial virus and Bovine coronavirus causing respiratory disease outbreaks in beef cattle in Norway in January-February 2011 are described.
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This article is the first in a series regarding the Norwegian Rogalands project's prevention and control of bovine coronavirus, Bovine respiratory syncytial virus, bovine coronavirus, digital dermatitis and other infectious diseases in cattle. Hygiene during transport and in the barn environment are emphasized.
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The COVID-19 outbreak that began in December 2019 in Wuhan, the capital of Hubei province in central China, is a pandemic that spreads quickly and creates major challenges for global public health and the economy. It is unknown how big the consequences of the outbreak will be, but in the worst case they can be large in several countries. Infectious diseases have throughout history constituted an extensive burden for animals and humans globally, and new, serious infectious agents will continue to emerge and challenge public and animal health. The most significant infections in humans originated from animals, which shows that the health of animals and humans is closely linked. Society must therefore always have solid preparedness against serious infections in both animals and humans. Infection control includes measures to prevent and manage health threats related to infectious diseases. It is therefore crucial that professional environments, authorities, businesses and society in general give this area a high priority and know how to do it at all times act when this type of crisis occurs. In this article, a number of basic terms related to infection control are defined, and an overview of risk assessments of sources of infection is given. One section discusses infection control in a historical, sociological and political context, and an overview of infection control measures in veterinary medicine is also presented, as well as some assessments when choosing measures. Finally, the authors come up with some thoughts about the role of the veterinary professions in the future work on infection control.
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This article describes the regulatory, health and environmental aspects of defaunation, including its effects on biodiversity, the status of COVID-19 and other zoonoses, wildlife conservation and One Health.
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Background. Coronaviruses (CoVs) have been recognized in veterinary virology for a long time and comprise a large group of RNA viruses responsible for enteric, respiratory, hepatic, and neurologic diseases in a variety of animal species and humans. These viruses are very adaptable considering their highly error-prone replication process and recombination ability, resulting in remarkable mutability and efficient expansion of their host range and tissue tropism. Scope and Approach. In the recent past, after the outbreaks caused by SARS-CoV in 2002 and MERS-CoV in 2012, CoVs became a research focus in the scientific community. Moreover, the ongoing SARS-CoV-2 pandemic raised more questions concerning the threats posed by these viruses. Several significant examples of coronaviruses jumping the species barrier and changing their tropism have been reported in the past, and novel viruses of both animals and humans have appeared as a consequence. This paper reviews some of the examples of CoV mutability and the most notable animal coronaviruses of veterinary relevance. Key Findings and Conclusions. There is still no proof that the novel virus SARS-CoV-2 can be transmitted to humans from domestic animals, and its recent cross-species jump is currently being intensively researched. Intensified and diverse human activities that lead to the disruption of ecosystems contribute to the increased risk of contact with animals that might represent virus reservoirs. The need for constant surveillance of CoVs and expanded studies of their virological traits, mutation mechanisms, diversity, prophylactic and therapeutic measures highlight the key role of both veterinarians and medical doctors in order to preserve the health of the human population.
ABSTRACT
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.
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Objective: To gather information on the research status and the hot spots of zoonosis and zoonotic microorganisms worldwide, and to provide references for the prevention and control of zoonotic diseases in China. Method: COOC 12.6 and Citespace 5.8 R1 software were used to carry out frequency statistics, co-occurrence analysis, cluster analysis, timeline analysis and burst analysis on the keywords associated with zoonosis and zoonotic microorganisms in PubMed database. Result: According to the keywords frequency statistics and co-occurrence analysis results from the year of 2001 to 2021 in pubMed database, the zoonosis and zoonotic microorganisms arousing high international attentions were classified into the following three categories: the first category was commonly observed zoonotic microorganisms such as Brucella, hepatitis E virus, Streptococcus, Escherichia coli (E. coli) and Salmonella, to which continuous public attentions were still needed to be paid;the second category was the zoonotic microorganisms worldwide concerned in recent years such as severe acute respiratory syndrome coronavirus-2 (SARS-CoV-2) and influenza A virus, which were worthy of more in-depth research to control the spread of these diseases as soon as possible;the third category was the zoonosis that had massively prevailed in specific regions abroad such as Q fever and middle east respiratory syndrome (MERS), and these diseases were expected to be noticed in terms of imported risks to avoid their outbreaks in China. In addition to the above mentioned zoonosis and zoonotic microorganisms, some keywords associated with detection and diagnosis such as phylogeny and PCR were also of high interests. The cluster analysis generated a total of 10 clusters, in which the tick-borne infectious disease cluster suggested the role of ticks in the transmission of zoonotic diseases;the results of timeline and burst analysis demonstrated that among the zoonotic microorganisms, the attentions being paid to influenza A virus and SARS-CoV-2 were gradually increasing. At the same time, the detection technology of zoonotic microorganisms was evolving from specific sequence detection to whole genome sequencing. These fields were likely to be the research direction and trend in the future.
ABSTRACT
In nature, the interaction between pathogens and their hosts is only one of a handful of interaction relationships between species, including parasitism, predation, competition, symbiosis, commensalism, and among others. From a non-anthropocentric view, parasitism has relatively fewer essential differences from the other relationships;but from an anthropocentric view, parasitism and predation against humans and their well-beings and belongings are frequently related to heinous diseases. Specifically, treating (managing) diseases of humans, crops and forests, pets, livestock, and wildlife constitute the so-termed medical enterprises (sciences and technologies) humans endeavor in biomedicine and clinical medicine, veterinary, plant protection, and wildlife conservation. In recent years, the significance of ecological science to medicines has received rising attentions, and the emergence and pandemic of COVID-19 appear accelerating the trend. The facts that diseases are simply one of the fundamental ecological relationships in nature, and the study of the relationships between species and their environment is a core mission of ecology highlight the critical importance of ecological science. Nevertheless, current studies on the ecology of medical enterprises are highly fragmented. Here, we (i) conceptually overview the fields of disease ecology of wildlife, cancer ecology and evolution, medical ecology of human microbiome-associated diseases and infectious diseases, and integrated pest management of crops and forests, across major medical enterprises. (ii) Explore the necessity and feasibility for a unified medical ecology that spans biomedicine, clinical medicine, veterinary, crop (forest and wildlife) protection, and biodiversity conservation. (iii) Suggest that a unified medical ecology of human diseases is both necessary and feasible, but laissez-faire terminologies in other human medical enterprises may be preferred. (iv) Suggest that the evo-eco paradigm for cancer research can play a similar role of evo-devo in evolutionary developmental biology. (v) Summarized 40 key ecological principles/theories in current disease-, cancer-, and medical-ecology literatures. (vi) Identified key cross-disciplinary discovery fields for medical/disease ecology in coming decade including bioinformatics and computational ecology, single cell ecology, theoretical ecology, complexity science, and the integrated studies of ecology and evolution. Finally, deep understanding of medical ecology is of obvious importance for the safety of human beings and perhaps for all living things on the planet. Copyright © 2022 Ma and Zhang.
ABSTRACT
Since the outbreak of coronavirus disease 2019 (COVID-19), the social prevention and control measures of "early detection, early report, early isolation, and early treatment" have been widely used in the public health field and are widely accepted by the general public. In the practice of integrated vector management, Henan province gives full play to the advantages of mobilization and coordination of the Patriotic Health Campaign, establishes a work path of "early detection, early report, early assessment, and early control", the strategies of "four early". It defines the responsibilities of government, departments, territories, and individuals, and clarifies the working concepts of integrated vector management, which helps to form societal forces and promote the development of vector control in Henan province. This article analyzes the strategies of "four early" in integrated vector management in Henan province, in order to provide a reference for vector management strategies in China.