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It is known today that more than 61% of human pathogens are zoonotic, representing 75% of all emerging pathogens during the past decade, presenting an increasing a matter of concern, particularly in modern days where global warming keeps is causing climatic conditions conducive to the introduction of exotic infectious agents or disease vectors in new territories. This book compiles studies that approach a myriad of zoonotic infectious diseases and their complex mechanisms. This is a brief but in-depth collection that showcases the need to address health at the animal–human–environment interface, in a One Health perspective.
Medicine --- Epidemiology & medical statistics --- trefoil factor family member 2 (TFF2) --- inflammation --- tissue repair --- zoonotic disease --- Panthera leo --- human health --- biosecurity --- wildlife farming --- wildlife trade --- disease transmission --- BRSV --- cattle --- isolation --- respiratory disorders --- sequencing --- avian influenza --- homologous vaccine --- heterologous vaccine --- broiler --- early infection --- bovine papillomavirus --- Egypt --- nucleic acid lateral flow immunoassay --- PCR --- phylodynamic --- whole-genome sequencing (WGS) --- chicken --- antimicrobial resistance genes --- virulence genetic cluster --- schistosome --- Allobilharzia visceralis --- whooper swans --- obstructive phlebitis --- endosymbionts --- Hemolivia --- surveillance --- tortoises --- tick-borne pathogens --- ticks --- haemogregarines --- gamogony --- sporogony --- schizongony --- molecular analysis --- high-fat diet --- immunity --- damage --- mice --- Brazil --- HEV --- zoonotic --- One Health --- n/a
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It is known today that more than 61% of human pathogens are zoonotic, representing 75% of all emerging pathogens during the past decade, presenting an increasing a matter of concern, particularly in modern days where global warming keeps is causing climatic conditions conducive to the introduction of exotic infectious agents or disease vectors in new territories. This book compiles studies that approach a myriad of zoonotic infectious diseases and their complex mechanisms. This is a brief but in-depth collection that showcases the need to address health at the animal–human–environment interface, in a One Health perspective.
trefoil factor family member 2 (TFF2) --- inflammation --- tissue repair --- zoonotic disease --- Panthera leo --- human health --- biosecurity --- wildlife farming --- wildlife trade --- disease transmission --- BRSV --- cattle --- isolation --- respiratory disorders --- sequencing --- avian influenza --- homologous vaccine --- heterologous vaccine --- broiler --- early infection --- bovine papillomavirus --- Egypt --- nucleic acid lateral flow immunoassay --- PCR --- phylodynamic --- whole-genome sequencing (WGS) --- chicken --- antimicrobial resistance genes --- virulence genetic cluster --- schistosome --- Allobilharzia visceralis --- whooper swans --- obstructive phlebitis --- endosymbionts --- Hemolivia --- surveillance --- tortoises --- tick-borne pathogens --- ticks --- haemogregarines --- gamogony --- sporogony --- schizongony --- molecular analysis --- high-fat diet --- immunity --- damage --- mice --- Brazil --- HEV --- zoonotic --- One Health --- n/a
Choose an application
It is known today that more than 61% of human pathogens are zoonotic, representing 75% of all emerging pathogens during the past decade, presenting an increasing a matter of concern, particularly in modern days where global warming keeps is causing climatic conditions conducive to the introduction of exotic infectious agents or disease vectors in new territories. This book compiles studies that approach a myriad of zoonotic infectious diseases and their complex mechanisms. This is a brief but in-depth collection that showcases the need to address health at the animal–human–environment interface, in a One Health perspective.
Medicine --- Epidemiology & medical statistics --- trefoil factor family member 2 (TFF2) --- inflammation --- tissue repair --- zoonotic disease --- Panthera leo --- human health --- biosecurity --- wildlife farming --- wildlife trade --- disease transmission --- BRSV --- cattle --- isolation --- respiratory disorders --- sequencing --- avian influenza --- homologous vaccine --- heterologous vaccine --- broiler --- early infection --- bovine papillomavirus --- Egypt --- nucleic acid lateral flow immunoassay --- PCR --- phylodynamic --- whole-genome sequencing (WGS) --- chicken --- antimicrobial resistance genes --- virulence genetic cluster --- schistosome --- Allobilharzia visceralis --- whooper swans --- obstructive phlebitis --- endosymbionts --- Hemolivia --- surveillance --- tortoises --- tick-borne pathogens --- ticks --- haemogregarines --- gamogony --- sporogony --- schizongony --- molecular analysis --- high-fat diet --- immunity --- damage --- mice --- Brazil --- HEV --- zoonotic --- One Health --- trefoil factor family member 2 (TFF2) --- inflammation --- tissue repair --- zoonotic disease --- Panthera leo --- human health --- biosecurity --- wildlife farming --- wildlife trade --- disease transmission --- BRSV --- cattle --- isolation --- respiratory disorders --- sequencing --- avian influenza --- homologous vaccine --- heterologous vaccine --- broiler --- early infection --- bovine papillomavirus --- Egypt --- nucleic acid lateral flow immunoassay --- PCR --- phylodynamic --- whole-genome sequencing (WGS) --- chicken --- antimicrobial resistance genes --- virulence genetic cluster --- schistosome --- Allobilharzia visceralis --- whooper swans --- obstructive phlebitis --- endosymbionts --- Hemolivia --- surveillance --- tortoises --- tick-borne pathogens --- ticks --- haemogregarines --- gamogony --- sporogony --- schizongony --- molecular analysis --- high-fat diet --- immunity --- damage --- mice --- Brazil --- HEV --- zoonotic --- One Health
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Antimicrobial resistance is a global One Health topic that affects us all, whether we are working in human or veterinary medicine. Although antibiotic use in farm animals is decreasing in many countries, other nations are still using these essential medical resources as growth promoters to boost economic gains. As veterinarians responsible for animal welfare, it is vital that we are permitted to treat sick animals effectively, but we must learn to be more prudent in our use of these drugs. It is essential that we, as responsible clinicians, policy makers, and researchers, develop methods of quantifying, monitoring, benchmarking, and reporting antibiotic use in both farm and companion animals, so that antimicrobial stewardship schemes can be implemented and their successes or failures analyzed. This Special Issue includes research on antibiotic use and resistance in a variety of animal species, covering cattle, sheep, pigs, poultry, and pets. The relationship between antimicrobial use and resistance in animals is investigated on a global scale, with authors from Austria, Australia, Brazil, Germany, Italy, India, the Netherlands, Peru, Portugal, Slovenia, and the United Kingdom.
Escherichia coli --- antimicrobial resistance --- swine --- weaned piglet --- antibiotic growth promoters --- antibiotic --- antibiotic resistance --- livestock --- antibiotic use --- AMR --- MDR --- environment --- antimicrobial usage --- bovine --- India --- KAP survey --- veterinarians --- antimicrobial use --- antimicrobial resistance (AMR) --- Timor-Leste --- antimicrobial --- veterinary --- prudent use --- critically important antimicrobials --- growth promotion --- poultry --- sheep --- beef cattle --- normalised resistance interpretation --- antimicrobial susceptibility testing --- tetracyclines --- farms --- turkeys --- farm --- antimicrobial resistance genes --- biosecurity --- risk factor --- metagenomics --- qPCR --- isolates --- neonatal calf diarrhea --- survey --- antibiotics --- HPCIA --- urinary tract infection --- Flexicult Vet --- pathogen identification --- dogs --- cats --- veterinary microbiology --- bovine respiratory disease --- multidrug-resistance --- Pasteurella multocida --- Mannheimia haemolytica --- Truperella pyogenes --- dairy farm --- E. coli --- calves --- enteritis --- serotypes --- virulence --- multidrug-resistant --- extensively drug-resistant --- dairy --- ESBL --- MRSA --- dog --- canine parvovirus --- Carnivore protoparvovirus 1 --- multidrug resistance --- One Health --- Enterobacteriaceae --- public awareness --- farmworkers --- chicken --- growth promoters --- Staphylococcus hyicus --- PFGE --- exudative epidermitis --- pigs --- monitoring --- carbapenems --- CPE --- meat-producing animal --- companion animal --- travelers --- feed --- risk assessment --- introduction risk --- stochastic risk model --- coagulase-negative Staphylococcus --- CoNS --- quails --- broilers
Choose an application
Antimicrobial resistance is a global One Health topic that affects us all, whether we are working in human or veterinary medicine. Although antibiotic use in farm animals is decreasing in many countries, other nations are still using these essential medical resources as growth promoters to boost economic gains. As veterinarians responsible for animal welfare, it is vital that we are permitted to treat sick animals effectively, but we must learn to be more prudent in our use of these drugs. It is essential that we, as responsible clinicians, policy makers, and researchers, develop methods of quantifying, monitoring, benchmarking, and reporting antibiotic use in both farm and companion animals, so that antimicrobial stewardship schemes can be implemented and their successes or failures analyzed. This Special Issue includes research on antibiotic use and resistance in a variety of animal species, covering cattle, sheep, pigs, poultry, and pets. The relationship between antimicrobial use and resistance in animals is investigated on a global scale, with authors from Austria, Australia, Brazil, Germany, Italy, India, the Netherlands, Peru, Portugal, Slovenia, and the United Kingdom.
Medicine --- Escherichia coli --- antimicrobial resistance --- swine --- weaned piglet --- antibiotic growth promoters --- antibiotic --- antibiotic resistance --- livestock --- antibiotic use --- AMR --- MDR --- environment --- antimicrobial usage --- bovine --- India --- KAP survey --- veterinarians --- antimicrobial use --- antimicrobial resistance (AMR) --- Timor-Leste --- antimicrobial --- veterinary --- prudent use --- critically important antimicrobials --- growth promotion --- poultry --- sheep --- beef cattle --- normalised resistance interpretation --- antimicrobial susceptibility testing --- tetracyclines --- farms --- turkeys --- farm --- antimicrobial resistance genes --- biosecurity --- risk factor --- metagenomics --- qPCR --- isolates --- neonatal calf diarrhea --- survey --- antibiotics --- HPCIA --- urinary tract infection --- Flexicult Vet --- pathogen identification --- dogs --- cats --- veterinary microbiology --- bovine respiratory disease --- multidrug-resistance --- Pasteurella multocida --- Mannheimia haemolytica --- Truperella pyogenes --- dairy farm --- E. coli --- calves --- enteritis --- serotypes --- virulence --- multidrug-resistant --- extensively drug-resistant --- dairy --- ESBL --- MRSA --- dog --- canine parvovirus --- Carnivore protoparvovirus 1 --- multidrug resistance --- One Health --- Enterobacteriaceae --- public awareness --- farmworkers --- chicken --- growth promoters --- Staphylococcus hyicus --- PFGE --- exudative epidermitis --- pigs --- monitoring --- carbapenems --- CPE --- meat-producing animal --- companion animal --- travelers --- feed --- risk assessment --- introduction risk --- stochastic risk model --- coagulase-negative Staphylococcus --- CoNS --- quails --- broilers --- Escherichia coli --- antimicrobial resistance --- swine --- weaned piglet --- antibiotic growth promoters --- antibiotic --- antibiotic resistance --- livestock --- antibiotic use --- AMR --- MDR --- environment --- antimicrobial usage --- bovine --- India --- KAP survey --- veterinarians --- antimicrobial use --- antimicrobial resistance (AMR) --- Timor-Leste --- antimicrobial --- veterinary --- prudent use --- critically important antimicrobials --- growth promotion --- poultry --- sheep --- beef cattle --- normalised resistance interpretation --- antimicrobial susceptibility testing --- tetracyclines --- farms --- turkeys --- farm --- antimicrobial resistance genes --- biosecurity --- risk factor --- metagenomics --- qPCR --- isolates --- neonatal calf diarrhea --- survey --- antibiotics --- HPCIA --- urinary tract infection --- Flexicult Vet --- pathogen identification --- dogs --- cats --- veterinary microbiology --- bovine respiratory disease --- multidrug-resistance --- Pasteurella multocida --- Mannheimia haemolytica --- Truperella pyogenes --- dairy farm --- E. coli --- calves --- enteritis --- serotypes --- virulence --- multidrug-resistant --- extensively drug-resistant --- dairy --- ESBL --- MRSA --- dog --- canine parvovirus --- Carnivore protoparvovirus 1 --- multidrug resistance --- One Health --- Enterobacteriaceae --- public awareness --- farmworkers --- chicken --- growth promoters --- Staphylococcus hyicus --- PFGE --- exudative epidermitis --- pigs --- monitoring --- carbapenems --- CPE --- meat-producing animal --- companion animal --- travelers --- feed --- risk assessment --- introduction risk --- stochastic risk model --- coagulase-negative Staphylococcus --- CoNS --- quails --- broilers
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