Poverty reduction through animal health

This article looks into how animal health influences poverty reduction. It explains that animal diseases can be divided into three categories: those that influence the vulnerability and assets of smallholder livestock keepers, (ii) constrain increases in productivity and (iii) constrain market acces...

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Veröffentlicht in:	Science (American Association for the Advancement of Science) 2007-01, Vol.315 (5810), p.333-334
Hauptverfasser:	Perry, B, Sones, K
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Sprache:	eng
Schlagworte:	Animal diseases ANIMAL HEALTH Animal vaccines Animals DEVELOPING COUNTRIES Epidemiology FINANCING Foot and mouth disease Funding LDCs Livestock Newcastle disease Policy Forum POVERTY Vaccination Veterinary services
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description	This article looks into how animal health influences poverty reduction. It explains that animal diseases can be divided into three categories: those that influence the vulnerability and assets of smallholder livestock keepers, (ii) constrain increases in productivity and (iii) constrain market access. Reducing vulnerability and improving market access are themes that appear in frameworks developed by the DFID to evaluate strategies for poverty reduction. Diseases affecting vulnerability are those causing high levels of mortality in key livestock species important to the poor (such as the seasonal epidemics of hemorrhagic septicemia of cattle and buffalo in South Asia and the epidemic waves of Newcastle disease of poultry in Africa and Asia) and those causing illness in their owners and keepers (such as brucellosis of cattle, small ruminants, and pigs in many regions). Diseases constraining productivity include those that are more pathogenic in non-indigenous breeds of livestock that are increasingly used to improve performance [such as the tick-borne disease East Coast fever (ECF) of cattle in eastern and southern Africa]. Diseases constraining market access include those in which human disease can be caused by consumption of meat or milk products (such as cysticercosis of pigs in Africa, Asia, and Latin America) and those spread by movement of animals or livestock products, such as foot-and-mouth disease (FMD) of ruminants and pigs. The paper examines what science can offer to this situation. New, more cost-effective approaches to delivery of animal health services are critical to poverty reduction processes, with greater incorporation of demand-led features that consider accessibility, acceptability, and sustainability as well. An essential component will be the growing set of participatory approaches used for disease surveillance, priority setting, and interventions, as well as the growing understanding of how innovation systems can help tools reach the poorer sectors of society. Quantitative epidemiological sciences, in combination with economics tools, can aid in prioritization and in identifying the most cost-effective intervention strategies. In addition, there are the more high-tech tools of complex systems science modeling that show considerable promise, although these are data-hungry animals in a data-barren environment. Vaccines are critical technologies for the prevention of infectious diseases, and here science has a major role to play. Vaccin
doi_str_mv	10.1126/science.1138614
format	Article
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It explains that animal diseases can be divided into three categories: those that influence the vulnerability and assets of smallholder livestock keepers, (ii) constrain increases in productivity and (iii) constrain market access. Reducing vulnerability and improving market access are themes that appear in frameworks developed by the DFID to evaluate strategies for poverty reduction. Diseases affecting vulnerability are those causing high levels of mortality in key livestock species important to the poor (such as the seasonal epidemics of hemorrhagic septicemia of cattle and buffalo in South Asia and the epidemic waves of Newcastle disease of poultry in Africa and Asia) and those causing illness in their owners and keepers (such as brucellosis of cattle, small ruminants, and pigs in many regions). Diseases constraining productivity include those that are more pathogenic in non-indigenous breeds of livestock that are increasingly used to improve performance [such as the tick-borne disease East Coast fever (ECF) of cattle in eastern and southern Africa]. Diseases constraining market access include those in which human disease can be caused by consumption of meat or milk products (such as cysticercosis of pigs in Africa, Asia, and Latin America) and those spread by movement of animals or livestock products, such as foot-and-mouth disease (FMD) of ruminants and pigs. The paper examines what science can offer to this situation. New, more cost-effective approaches to delivery of animal health services are critical to poverty reduction processes, with greater incorporation of demand-led features that consider accessibility, acceptability, and sustainability as well. An essential component will be the growing set of participatory approaches used for disease surveillance, priority setting, and interventions, as well as the growing understanding of how innovation systems can help tools reach the poorer sectors of society. Quantitative epidemiological sciences, in combination with economics tools, can aid in prioritization and in identifying the most cost-effective intervention strategies. In addition, there are the more high-tech tools of complex systems science modeling that show considerable promise, although these are data-hungry animals in a data-barren environment. Vaccines are critical technologies for the prevention of infectious diseases, and here science has a major role to play. Vaccines are available for some diseases, but for many they are rudimentary, inadequate, or lacking. Many animal diseases prevalent in the developing world do not occur in the developed world. Of particular importance are the tsetse-transmitted trypanosomiases and the tick-borne ECF in Africa, for which safe and effective vaccines do not exist. These are complicated infections, but because their distributions are restricted to developing countries and the risk of their spreading beyond Africa is minimal, the research investment they have attracted has been relatively small. Encouragingly, the genome for Theileria parva, the cause of ECF, has been sequenced, providing new tools to approach an ECF vaccine, should funding become available. 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It explains that animal diseases can be divided into three categories: those that influence the vulnerability and assets of smallholder livestock keepers, (ii) constrain increases in productivity and (iii) constrain market access. Reducing vulnerability and improving market access are themes that appear in frameworks developed by the DFID to evaluate strategies for poverty reduction. Diseases affecting vulnerability are those causing high levels of mortality in key livestock species important to the poor (such as the seasonal epidemics of hemorrhagic septicemia of cattle and buffalo in South Asia and the epidemic waves of Newcastle disease of poultry in Africa and Asia) and those causing illness in their owners and keepers (such as brucellosis of cattle, small ruminants, and pigs in many regions). Diseases constraining productivity include those that are more pathogenic in non-indigenous breeds of livestock that are increasingly used to improve performance [such as the tick-borne disease East Coast fever (ECF) of cattle in eastern and southern Africa]. Diseases constraining market access include those in which human disease can be caused by consumption of meat or milk products (such as cysticercosis of pigs in Africa, Asia, and Latin America) and those spread by movement of animals or livestock products, such as foot-and-mouth disease (FMD) of ruminants and pigs. The paper examines what science can offer to this situation. New, more cost-effective approaches to delivery of animal health services are critical to poverty reduction processes, with greater incorporation of demand-led features that consider accessibility, acceptability, and sustainability as well. An essential component will be the growing set of participatory approaches used for disease surveillance, priority setting, and interventions, as well as the growing understanding of how innovation systems can help tools reach the poorer sectors of society. Quantitative epidemiological sciences, in combination with economics tools, can aid in prioritization and in identifying the most cost-effective intervention strategies. In addition, there are the more high-tech tools of complex systems science modeling that show considerable promise, although these are data-hungry animals in a data-barren environment. Vaccines are critical technologies for the prevention of infectious diseases, and here science has a major role to play. Vaccines are available for some diseases, but for many they are rudimentary, inadequate, or lacking. Many animal diseases prevalent in the developing world do not occur in the developed world. Of particular importance are the tsetse-transmitted trypanosomiases and the tick-borne ECF in Africa, for which safe and effective vaccines do not exist. These are complicated infections, but because their distributions are restricted to developing countries and the risk of their spreading beyond Africa is minimal, the research investment they have attracted has been relatively small. Encouragingly, the genome for Theileria parva, the cause of ECF, has been sequenced, providing new tools to approach an ECF vaccine, should funding become available. 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It explains that animal diseases can be divided into three categories: those that influence the vulnerability and assets of smallholder livestock keepers, (ii) constrain increases in productivity and (iii) constrain market access. Reducing vulnerability and improving market access are themes that appear in frameworks developed by the DFID to evaluate strategies for poverty reduction. Diseases affecting vulnerability are those causing high levels of mortality in key livestock species important to the poor (such as the seasonal epidemics of hemorrhagic septicemia of cattle and buffalo in South Asia and the epidemic waves of Newcastle disease of poultry in Africa and Asia) and those causing illness in their owners and keepers (such as brucellosis of cattle, small ruminants, and pigs in many regions). Diseases constraining productivity include those that are more pathogenic in non-indigenous breeds of livestock that are increasingly used to improve performance [such as the tick-borne disease East Coast fever (ECF) of cattle in eastern and southern Africa]. Diseases constraining market access include those in which human disease can be caused by consumption of meat or milk products (such as cysticercosis of pigs in Africa, Asia, and Latin America) and those spread by movement of animals or livestock products, such as foot-and-mouth disease (FMD) of ruminants and pigs. The paper examines what science can offer to this situation. New, more cost-effective approaches to delivery of animal health services are critical to poverty reduction processes, with greater incorporation of demand-led features that consider accessibility, acceptability, and sustainability as well. An essential component will be the growing set of participatory approaches used for disease surveillance, priority setting, and interventions, as well as the growing understanding of how innovation systems can help tools reach the poorer sectors of society. Quantitative epidemiological sciences, in combination with economics tools, can aid in prioritization and in identifying the most cost-effective intervention strategies. In addition, there are the more high-tech tools of complex systems science modeling that show considerable promise, although these are data-hungry animals in a data-barren environment. Vaccines are critical technologies for the prevention of infectious diseases, and here science has a major role to play. Vaccines are available for some diseases, but for many they are rudimentary, inadequate, or lacking. Many animal diseases prevalent in the developing world do not occur in the developed world. Of particular importance are the tsetse-transmitted trypanosomiases and the tick-borne ECF in Africa, for which safe and effective vaccines do not exist. These are complicated infections, but because their distributions are restricted to developing countries and the risk of their spreading beyond Africa is minimal, the research investment they have attracted has been relatively small. Encouragingly, the genome for Theileria parva, the cause of ECF, has been sequenced, providing new tools to approach an ECF vaccine, should funding become available. The paper ends with a discussion on hope for funding.</abstract><cop>Washington</cop><pub>American Association for the Advancement of Science</pub><doi>10.1126/science.1138614</doi><tpages>2</tpages></addata></record>
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subjects	Animal diseases ANIMAL HEALTH Animal vaccines Animals DEVELOPING COUNTRIES Epidemiology FINANCING Foot and mouth disease Funding LDCs Livestock Newcastle disease Policy Forum POVERTY Vaccination Veterinary services
title	Poverty reduction through animal health
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