Cost benefit of investing in health systems

Cost benefit of investing in health systems Jonathan Rushton, Professor of Animal Health Economics jrushton@rvc.ac.uk with Derrick Jones and Liz Redmond 2 nd July 2015 1

Acknowledgements VEEPH Group at RVC: Barbara Haesler, Liz Jackson, Pablo Alarcon, Paula Dominguez Salas, Betty Bisdorf, Will Gilbert, Sara Babo Martins, Mieghan Bruce, Richard Kock, Dirk Pfeiffer LCIRAH Andrew Dorward, Lili Jia, Colin Poulton Ruth Rushton, Jane Dixon, Colin Butler, Robyn Alders, Ian Patrick, Peter Daniels, Mark Rweyemamu Thank you to the organisers for the invitation to present at the meeting with a special mention for Bernard Vallat I want recognise the support of Norbrook Pharmaceuticals and LCIRAH in the work I carry out 2

Introduction Historically the presence of disease has generated societal responses such as improved policies for surveillance, control and prevention. The institutionalisation of these responses in many societies has led to a separation between the core investment in health systems and investment in programmes to address specific diseases. 3

Introduction Over the last decades it has been increasingly important to present the economic assessment of specific disease programmes, and more recently to justify the general costs that underpin the overall health system. The OIE has supported this work with the development of the Performance of Veterinary Services (PVS) tool to identify strengths and weakness in core health systems, and the diseases whose control is essential for economic development. 4

What is the problem? Despite the successes of the approach of investing in health systems there are pressures to examine the levels of this investment The problem is the weakness in core activities undermines specific disease programmes Overall there appears to be underinvestment, and defining what it should be is critical to In developed countries there have been major shifts in both the financing and delivery of health systems In health developing and country disease settings management the core investment is weak and always under pressure 5

How to address this problem I want to begin with looking at why we respond to disease problems How decisions are made on the interventions selected Ability of societies to manage the control of disease Suggestions on how this could be improved through a resource allocation lens 6

Disease impact and response 7

Health Impact Losses Expenditure & Reaction Visible Losses Invisible Losses Additional Costs Lost Revenue Dead animals Thin animals Animals poorly developed Low returns Poor quality products Fertility problems Change in herd structure Delay in the sale of animals and products Public health costs High prices for livestock and livestock products Medicines Vaccines Insecticide Time Treatment of products Access to better markets denied Sub optimal use of tecnology Rushton et al, 1999; Rushton, 2002; Rushton, 2009

Health Impact Losses Expenditure & Reaction Visible Losses Dead animals Thin animals Animals poorly developed Low returns Poor quality products Invisible Losses Impact caused by the disease Fertility problems Change in herd structure Delay in the sale of animals and products Public health costs High prices for livestock and livestock products Additional Costs Medicines Vaccines Insecticide Time Treatment of products Lost Revenue Impact caused by human reaction Access to better markets denied Sub optimal use of tecnology

Disease Loss Expenditure Frontier (adapted from McInerney, 1996) No Control Disease losses Optimal control Towards Eradication? Control expenditure 10

The health system Where are the weaknesses? 11

Health systems A health system is the organisation of people, institutions and resources that deliver healthcare services to meet the needs of target populations 12

Health System Human Health Animal Health Pet & Leisure Animals Livestock Wildlife US$ 6.5 trillion in 2011 (WHO, 2015) with approximately 9.7 million medical doctors Animal health medicines market is a fortieth of the human medicines market (AHI, 2015) We estimate that there are approximately a million vets 13

Human and animals (LSUs) Millions 4,000 3,500 Per person this is equivalent to: 0.38 3,000 livestock units per person 2,500 190 kilos of live animals per person! 2,000 3 chickens, a third of a shoat, a fifth Human Animal 1,500 of a cow, a seventh of a pig and a 1,000 tenth of a cat or dog 500 1995 2000 2005 2010 14

1 Global livestock units per person by species (FAOSTAT, 2015; authors analysis) 0.5 0.45 0.4 0.35 0.3 0.25 0.2 0.15 0.1 0.05 0 1963 1973 1983 1993 2003 2013 Cattle and Buffaloes Equine Camels Pigs Poultry Sheep Goats 15

Diapositive 15 1 Add lines on the biomass of humans and animals Jonathan Rushton, 3/15/2015

Kg per person per year 18.0 16.0 14.0 12.0 10.0 8.0 6.0 4.0 2.0 0.0 And the consequences? global meat consumption per person 1950 to 2011 1950 In 1950 it is estimated that on average 24.4 kilogrammes of meat and fish were 1953 1956 1959 1962 consumed per person In 2011 this had more than doubled to 1965 1968 1971 62.6 kg 1974 1977 Beef Pork Poultry Mutton Farmed Fish Wild Fish 1980 1983 1986 1989 1992 1995 1998 2001 2004 2007 2010 http://www.earth-policy.org/data_center/c24 16

Health system the weakness There is strong evidence that many of the human diseases have origins from animals (Cleaveland et al, 2001; Woolhouse & Gowtage Sequeria, 2005) And that this trend has increased in the recent past (Jones et al, 2008) Yet our investment across the health system does not seem to reflect either the relationship between the biomass of humans to animals or the risks posed by these biomasses 17

How could we respond? Shifts in technology 18

Change in technology Disease management with no technology Disease losses A shift in technology Control expenditure 19

Change in technology Types of technology change Immune status Vaccine discovery and vaccine improvements Adjuvant discovery Genetic resistance Treatments Antimicrobials Methods of detection and delivery Diagnostics Logistics Epidemiology 20

And the investments for these technology shifts Foundations are laid with the education of people There also needs to be research into the specific topics And research requires people and institutions to be developed These are fixed cost investments of core activities 21

Technology shift in health systems The classic way of thinking about technology shifts is through the lens of technological advance There is a tendency to forget that many of our advances have come about through managerial and institutional development change And this requires fixed cost investments in health systems across the species Investments that need public funding support alongside private sector engagement 22

Cost benefit model for livestock disease control with fixed costs (adapted from Tisdell, 2009) $,,, Variable Costs Fixed costs Benefits Level of inputs 23

What is needed to assess the investment in fixed cost for the animal health system A report on these costs (Civic Consulting for OIE, 2009) indicated that the following issues had an influence on spending Land area, population and livestock Economic development Trade Local ecology and animal health situation Existence of a private veterinary sector It did not come up with estimates of what the investments should be to get the best animal health status 24

And evidence from specific diseases 25

1958 1960 1962 1964 1966 1956 1954 1952 1924 1926 1928 1930 1932 1934 1936 1938 1940 1942 1944 1946 1948 1950 1922 2,000 1,800 1,600 1,400 1,200 1,000 800 600 400 200 0 FMD cases in UK 1922 to 1966

Issues around the health Imagine a world without the investments of people who surrounded Jenner and Pasteur Imagine a world without the investments over time on smallpox, rinderpest, foot and mouth disease These have been, in human history terms, long term investments leading to significant perpetual gains in health and welfare In the case of animal disease through income, food supply and maintenance of wealth 27

Summary 28

The gap OIE are working hard to collect and update data on the animal health system through ongoing databases and the PVS There is simply a lack of data As technical people we are still some way from identifying what is the optimal investment in the health system due to the difficulties in What the balance should be between species What is the impact of diseases not just in humans but across species 29

Habitat Destruction Wildlife Disease Environmental impacts Human Deaths Human Disease Healthcare Costs Infectious disease through food borne transmission Food Systems Malnutrition through poor distribution and availability of macro and micro nutrients Infectious disease in animals Undernourished Over nourished Production Losses Animal Healthcare Costs Human Deaths Human Disease Healthcare Costs

Rational & Proportionate Disease Control Measures Develop & Assess Vaccines & Diagnostics Analysis Pathogen Banks Surveillance System Data Disease Agent Active Disease Search Socio- Economic Livestock Sector Wildlife Disease Improved Diagnostics Surveillance Network People Susceptible Animal Population

Key messages Need for evidence which requires data collection and analysis of: Species and their production systems Losses in production and our reaction to the presence of disease Weaknesses in technologies and their prices The weaknesses in the overall health system Presenting business cases that use economics for strategic investments Addressing problems with best scientific practice with monitoring and advocacy on how they work 32

Further information For more information on NEAT please look at www.neat network.eu For information on the work we are involved in with agriculture and health please look at http://www.lcirah.ac.uk/home For courses offered at RVC please look at http://www.rvc.ac.uk/postgraduate/distance/index.cfm http://www.atp ilhp.org 33

References Animal Health Institute (2015) About Animal Medicines. Accessed at http://www.ahi.org/about animal medicines/industry statistics/ June 2015 Civic Consulting (2009) Cost of National Prevention Systems for Animal Diseases and Zoonoses in Developing and Transition Countries. Report for OIE, Paris, France. 381 pages Cleavland, S.; Laurenson, M.K.; Taylor, L.H. (2001) Diseases of humans and their domestic mammals: pathogen characteristics, host range and the risk of emergence Philos Trans R Soc Lond B Biol Sci. 2001 Jul 29;356(1411):991 9. Henry J. Kaiser Family Foundation (2015) Global Health Facts. Accessed http://kff.org/globalindicator/physicians/ June 2015 Jones, Patel, N.G.; Levy, M.A.; Storeygard, A.; Balk, D.; Gittleman, J.L.; Daszak P. (2008) Global trends in emerging infectious diseases. Nature 451, 990 993 McInerney J. (1996) Old economics for new problems Livestock disease: Presidential address. Journal of Agricultural Economics 47 (3) pp 295 314 McInerney, J. P. Howe, K. S. Schepers, J.A. (1992) A framework for the economic analysis of disease in farm livestock. Preventive Veterinary Medicine.13: 2, 137 154. Rushton, J. (2009) The Economics of Animal Health and Production. CABI, UK 364 pages WHO (2015) Spending on health care a global overview. Accessed at http://www.who.int/mediacentre/factsheets/fs319/en/ June 2015 Woolhouse, M.E.J.; Gowtage Sequeria, S. (2005) Host Range and Emerging and Reemerging Pathogens. Emerging Infectious Diseases Vol. 11, No. 12 34