Vaccination for the control and eradication of disease
Check out this video about vaccination protocols for the control and eradication of disease.
Check out this video about vaccination protocols for the control and eradication of disease.
522 Industry Innovation – NEW FRONTIER
522 Industry Innovation
New Animal Care by Health For Animals
In Significant Impact Groups: Other \
Species targeted: Pigs; Poultry; Dairy; Beef; Sheep;
Age: Young; Adult;
Summary:
Scientific advances and emerging technologies, from artificial intelligence to stem cell therapy and new generations of vaccines, have provided greater opportunities to predict, prevent, diagnose and treat animal illness more quickly, accurately and safely. Veterinary researchers and developers continue to break new ground in reducing disease spread and its impact.
The report ‘New Frontiers in Animal Care’ by Health for Animals outlines these innovations across several areas:
New Vaccines ; Alternatives to Antibiotics ; Digital Technologies ; Diagnostics ; Parasite Control ; Nutrition ; Safe Development
Download ‘New Frontiers in Animal Care’ to understand these innovations, their benefits to society and potential barriers to market.
522 Industry Innovation – NEW FRONTIERS IN ANIMAL CARE The Innovations Shaping the Future by Health For Animals
https://healthforanimals.org/downloads/library/new%20frontiers%20in%20animal%20care%20final.pdf;
Country: not applicable
454 Tools & Checklists – Hoja de ruta reduccion necesidad de AB by Health for Animals
454 Tools & Checklists
Hoja de ruta reduccion necesidad de AB by Health for Animals
In Significant Impact Groups:
Species targeted: Pigs; Poultry; Dairy; Beef; Sheep;
Age:
Summary:
This document has been produced by HealthforAnimals, the Global Federation of Veterinary Medicines. HealthforAnimals represents the animal health sector: manufacturers of veterinary medicines, vaccines and other animal health products worldwide, as as well as associations representing companies at national and regional level. The document sets out the principles for the reduction of antibiotic use through prevention, correct and early detection and finally through precise treatment.
Where to find the original material: https://healthforanimals.org/downloads/library/hoja_de_ruta_para_reducir_la_necesidad_de_uso_de_loa_antibioticos.pdf;
Country: Belgium;
453 Tools & Checklists – Buenas practicas uso de AB de EPRUMA by EPRUMA
453 Tools & Checklists
Buenas practicas uso de AB de EPRUMA by EPRUMA
In Significant Impact Groups:
Species targeted: Pigs; Poultry; Dairy; Beef; Sheep;
Summary:
The intention of this document is to contribute to the maintenance of antimicrobial effectiveness by providing a descriptive framework of good practice. The implementation of the key aspects of this framework is compatible with its adaptation to the particular conditions of each Member State. In this way a coordinated and integrated approach can be achieved across the EU, but tailored to the specific needs of each Member State. The EPRUMA initiative is intended as a complement to Integrated Agriculture*. with regard to the rational use of agricultural means of production, as set out in the European Framework for Integrated Agriculture (EISA).
453 Tools & Checklists – Buenas practicas uso de AB de EPRUMA by EPRUMA
Where to find the original material: https://www.veterindustria.com/v_portal/inc/clicklink.asp?t=3&cod=15498&c=1&s=364839167;
Country: Belgium;
452 Tools & Checklists – Plan estrategico lucha contra resistencias a antimicrobianos 2019 by AEMPS
452 Tools & Checklists
Plan estrategico lucha contra resistencias a antimicrobianos 2019 by AEMPS
In Significant Impact Groups:
Species targeted: Pigs; Poultry; Dairy; Beef; Sheep;
Summary:
The Spanish Agency for Medicines and Healthcare Products (AEMPS) has coordinated the development of the national plan to combat antibiotic resistance. This plan, coordinated between human and veterinary medicine, has different levels of action with implementation objectives. The second plan was approved in 2019.
452 Tools & Checklists – Plan estrategico lucha contra resistencias a antimicrobianos 2019 by AEMPS
Where to find the original material: https://resistenciaantibioticos.es/es/system/files/field/files/pran_2019-2021_0.pdf?file=1&type=node&id=497&force=0;
Country: Spain
451 Tools & Checklists – Plan estrategico lucha resistencia a antimicrobianos by AEMPS
451 Tools & Checklists
Plan estrategico lucha resistencia a antimicrobianos by AEMPS
In Significant Impact Groups:
Species targeted: Pigs; Poultry; Dairy; Beef; Sheep;
Summary:
The Spanish Agency for Medicines and Healthcare Products (AEMPS) has coordinated the development of the national plan to combat antibiotic resistance. This plan, coordinated between human and veterinary medicine, has different levels of action with implementation objectives. The first plan was developed and approved in 2014.
451 Tools & Checklists – Plan estrategico lucha resistencia a antimicrobianos by AEMPS
Where to find the original material: https://www.aemps.gob.es/publicaciones/publica/plan-estrategico-antibioticos/v2/docs/plan-estrategico-antimicrobianos-AEMPS.pdf;
Country: Spain;
437 Research paper
Antibiotic resistance genes from livestock waste: occurrence, dissemination, and treatment by He, Y., Yuan, Q., Mathieu, J., Stadler, L., Senehi, N., Sun, R., & Alvarez, P. J. J. 2020 npj Clean Water 3: 11-Jan
In Significant Impact Groups: Other
Species targeted: Poultry; Dairy; Pigs; Beef; Sheep; Other;
Age: Not stated;
Summary:
Antibiotics are widely used in animal husbandry, and various types of antibiotic resistance genes (ARGs) are frequently detected in livestock waste around the world. Conventional livestock waste treatment processes do not completely remove ARGs, resulting in their release to soil and water environments. Various exposure routes of these ARGs to humans, including inhalation and ingestion of antibiotic-resistant bacteria (ARB) that harbor them, may be contributing to the rise in resistant clinical infections that are increasingly difficult to treat with antibiotics. In this review, we assess the occurrence and variability of ARGs in livestock wastes and their potential propagation pathways to human pathogens.
437 Research paper – He – 2020 – Antibiotic resistance genes from livestock waste- occurrence dissemination and treatment
Where to find the original material: https://www.nature.com/articles/s41545-020-0051-0; 10.1038/s41545-020-0051-0
Country: Global
429 Industry Innovation – DRYSIST by OPP Group & Castañe
429 Industry Innovation
DRYSIST by OPP Group & Castañe
In Significant Impact Groups: Biosecurity \External biosecurity; Vehicles; Pathogen management
Species targeted: Pigs; Poultry; Dairy; Beef; Sheep;
Age: Not stated;
Summary:
Drysist is a thermal disinfection system for animal transport vehicles that allows the programming of the minimum temperatures to be reached inside the truck and the effective disinfection time. The thermal disinfection is complemented by a disinfectant mist in the lower parts of the truck and by a manual disinfection of the truck cabin
Where to find the original material: http://oppgroup.com/productos-y-servicios/drysist/;
Country: ES
426 Research paper
Toward innovative tools of intervention and decision aid to control mammary infections in small ruminants breeding by Cremoux R., Lagriffoul G., Allain C., Alaoui-Sossé L., Astruc J.M., Batut E., Bergonier D., Brun-Lafleur L., Clément V., Couzy C., Foucras. 2018 Innovations Agronomiques : 99-114
In Significant Impact Groups: Pathogen management \ Prudent use AB
Species targeted: Other; Sheep;
Age: Adult;
Summary:
In small ruminants, management tools for the control of mammary infections must be rethought, taking into account their animal specificities as well as management, equipment or work organization. The study integrated the inputs of observation, as a central element of the work of breeders and advisors, and various innovative technological solutions or automated recordings now available or in development as diagnostic tools (molecular bacteriology, cell counts, infrared spectra, clinical examination of the udder and the teat) and in terms of milking ability and milking conditions (use of milk kinetics recordings or vacuum fluctuations and thermography). In a context of antibiotics use reduction, criteria for the selection of animals to be cured (or culled) have been proposed. New phenotypes have been explored for a better understanding of the risk factors associated with milking. Finally, after studying the genetic progress and economic impact, the inclusion of new traits in selection schemes was carried out (somatic cell counts) or proposed to improve the resistance of animals to mammary infections.
426 Research paper – Cremoux – 2018 – Toward innovative tools of intervention and decision aid to control mammary infections in small ruminants breeding
hal-agrocampus-ouest.archives-ouvertes.fr/hal-01849033/document;
Where to find the original material: https://hal-agrocampus-ouest.archives-ouvertes.fr/hal-01849033
Country: FR
422 Tools & Checklists
Reducing lameness for Better Returns by Agriculture and Horticulture Development Board
In Significant Impact Groups:
Species targeted: Sheep;
Age:
Summary:
It may not be possible to eradicate lameness entirely, but producers who understand the condition and its many and varied causes can reduce the physical and financial effects of having lame animals on the farm. You need to devise a strategy to suit your situation and employ various management tools to prevent and reduce its effect on your flock. It is important to correctly diagnose the cause of lameness and to only use antibiotics when necessary and effective. This manual describes in detail the different diseases that can cause sheep to go lame. It outlines a five-point plan to tackle these diseases, including culling persistent offenders, quarantining all incomers and treating affected sheep appropriately.
Where to find the original material: https://projectblue.blob.core.windows.net/media/Default/Beef%20&%20Lamb/BRP_ReduceLame3484_200323_WEB.pdf;
Country: United Kingdom;
Website designed by Ammac Design Ltd.
This project has received funding from the European Union’s Horizon 2020 research and innovation programme under Grant Agreement No 817591
This project has received funding from the European Union’s Horizon 2020 research and innovation programme under Grant Agreement No 817591
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