Asbestos-Related Cancer Research and Prevention Professor Nico van Zandwijk Asbestos Diseases Research Institute University of Sydney International Conference on Asbestos Awareness and Management 18 November 2014
Content: Global and local data on Asbestos-related disease High-quality population-based cancer registry data (Australian Mesothelioma Registry) and its role in preventing Asbestos-related cancer Other ways of preventing Asbestos-related disease Research at the Asbestos Diseases Research Institute (ADRI)
Malignant Mesothelioma in the global context
Global Asbestos consumption 5,000,000 Global Asbestos consumption (metric tonnes) 4,000,000 Metric tonnes 3,000,000 2,000,000 1,000,000 0 1920 1930 1940 1950 1960 1970 1980 1990 2000 2010 Calendar year Source: Analysis performed by the Dr Matthew Soeberg (Asbestos Diseases Research Institute) based on data provided on global asbestos consumption by the U.S. Geological Survey.
Exposure-Outcome Lag Time: The Mesothelioma Epidemic Curve only appears at least two decades after Asbestos Consumption Malignant mesothelioma incidence and mortality is a function of asbestos exposure 150 125 Asbestos ban 3 2.5 Measurement of asbestos exposure 100 75 50 2 1.5 1 Mesothelioma incidence or mortality rate 25 0.5 0 0 Decade 10 Decade 9 Decade 8 Decade 7 Decade 6 Decade 5 Decade 4 Decade 3 Decade 2 Decade 1 Decade 1 Calendar period Asbestos consumption Mesothelioma incidence rate
Africa Asia C &S America Europe N America Oceania Africa Asia C & S America Europe N America Oceania Rate per 100,000 0 1 2 3 4 5 6 Rate per 100,000 0 1 2 3 4 5 6 Median age-standardised Malignant Mesothelioma incidence rates per 100,000 by geographic region and calendar period (males) 1993-1997 2003-2007 Source: Analysis performed by the Dr Matthew Soeberg (Asbestos Diseases Research Institute) using data published in: Forman D et al. eds (2013) Cancer Incidence in Five Continents, Vol. X Lyon, IARC. http://ci5.iarc.fr ; Curado MP, et al. 2007. Cancer Incidence in Five Continents, Vol. IX. Lyon, IARC. and Parkin DM, Whelan SL, Ferlay J, Teppo L, and Thomas DB. 2002. Cancer Incidence in Five Continents, Vol. VIII. Lyon, IARC.
Malignant Pleural Mesothelioma: incidence rate trends in Europe, 1986-1995 Overall trend Incidence rates still increasing but evidence for deceleration in some countries. Differences by age group Increase over time in incidence rate greater for people aged 65-74 years than for people aged 40-64 years. Source: Montanaro et al. 2003. Pleural mesothelioma incidence in Europe: evidence of some deceleration in the increasing trends. Cancer Causes and Control. 14, 791-803.
The epidemic curve of Malignant Mesothelioma in Australia
1900-1909 1910-1919 1920-1929 1930-1939 1940-1949 1950-1959 1960-1969 1970-1979 1980-1985 Asbestos consumption: Australia, 1920-2013 Australia s asbestos consumption peaked in the 1970s. Asbestos import/export data, 1988-2013, are currently being analysed by the Asbestos Diseases Research Institute. Metric tonnes 800000 700000 600000 500000 400000 300000 200000 100000 0 Calendar period Source: Leigh and Driscoll. 2003. Malignant Mesothelioma in Australia, 1945-2002. International Journal of Occupational and Environmental Health. 9(3), 206-217.
Australian Mesothelioma Registry Monitors all new cases of Malignant Mesothelioma in Australia from 1 July 2010. Includes fast-tracked incidence and mortality data. Collects information from consenting patients in order to monitor patterns and levels of occupational and environmental asbestos exposure. Allows people diagnosed with Mesothelioma to self-notify to the Australia Mesothelioma Registry. Aims to prevent Mesothelioma in the future by informing government policy and providing a resource to researchers. Funded by Safe Work Australia and Comcare and overseen by a consortium of key organisations.
Malignant Mesothelioma: Number of incident cases, Australia, 1982-2013 Between 1982 and 2013, 14,225 people were newly diagnosed with Malignant Mesothelioma. Interpretation: Recent data should be interpreted with care due to delays in notification of recent incident cases. Number of incident cases (Log-scale) 1000 100 10 1 1980 1985 1990 1995 2000 2005 2010 2015 Calendar period of diagnosis Males (AIHW) Females (AIHW) Persons (AIHW) Males (AMR) Females (AMR) Persons (AMR) Source: Data from the Australian Institute of Health and Welfare (1982-2010) and the Australian Mesothelioma Registry (2011-2013) graphed by the ADRI
Classification scheme for probability of asbestos exposure Category Description Unlikely Low likelihood of asbestos exposure Possible Asbestos exposure may have occurred Probable Convincing information on asbestos exposure
Australian Mesothelioma Registry Exposure assessment at 30 April 2014 Mesothelioma patients interviewed (n=350) Total new cases Occupational exposure indicated (n=213 (61%)) Occupational exposure not indicated (n=137 (39%))
Non-occupational exposure assessment summary, at 30 April 2014 Occupational exposure not indicated (n=137) Total new cases Non-occupational exposure indicated (n=114) Non-occupational exposure not indicated/known (n=23)
Job-specific interview modules assigned to Mesothelioma patients diagnosed in 2010 2014 Job category Types of jobs No. participants* Trades Construction worker, Electrician, Plumber, 203 Boilermaker, Welder etc. Land Transport Driver, Mechanic/Fitter/Panel beater etc. 56 Water Transport Marine engineer/mechanic 43 Other seagoing jobs (including military navy) Shipwright/boat builder etc. Asbestos users/other Laundry worker & many other jobs 35 *Allocated job questions at least once
Asbestos exposure, 2010 2014 Sources of non-occupational asbestos exposure among participants without occupational exposure Non-occupational module section Probability of exposure Unlikely Possible Probable Lived in house made mainly of fibro 73 64 Lived near asbestos mine or asbestos products factory 130 5 2 Did major home renovations (asbestos products) 86 51 Lived in house during major renovations 68 69 Ever serviced car brakes/clutch 115 22 Lived with someone with asbestos-exposed job 114 14 9 Visited Wittenoom in Western Australia 125 12 Visited another Australian asbestos mining town 137 Other credible evidence 125 12
Prevention of Cancer Primary prevention = avoid exposure to carcinogens (smoking, asbestos etc.) Secondary prevention = preventing, delaying the occurrence of cancer in people with elevated risk (exposed to carcinogens)
Primary Prevention Lag time! Carefully review all dangerous exposures Make sure that occupational circumstances in Australia are safe Make sure that the Australian environment is safe Help developing countries in increasing their awareness (show them what we have learned)
Secondary Prevention Aspirin tested in Mouse Mesothelioma Model (WA, Perth) & checked in Human cohort (negative) Statins: no effect in Mouse Mesothelioma Model (WA, Perth) and Human cohort (negative) Animal studies at UTS (Sydney) Negative effect of vitamins (beta-carotene)
Research at the Asbestos Diseases Research Institute Systematic Review of the World s literature on diagnosis and treatment of Malignant Pleural Mesothelioma Epidemiology & Prevention: Carefully studying the epidemiological data NSW, assist AMR, increase awareness in South East Asia (+APHEDA) Prognostic Markers for patient selection Study the biology of Tumour Suppressors in Malignant Mesothelioma (cell cultures, animal models) MesomiR-1 study, new treatment concept based on supplementing missing micrornas for Malignant Mesothelioma and Lung Cancer (Phase I) Psychosocial research: emotional burden of (diagnosis of) Malignant Mesothelioma in patients and carers
Novel solution for microrna delivery: Minicells or EngeneIC Delivery Vesicles (EDVs)
Conclusions Prevention of Asbestos-related diseases based on registration/exposure data (vital role for AMR) Better diagnostic pathways, better (treatment) selection of patients and new treatment avenues for Asbestos-related cancer are only identified by continued (collaborative) disease-oriented research We must show the world how Australia is dealing with its Asbestos Legacy and increase the awareness of the dangers of Asbestos in developing countries
Funding and acknowledgements Cancer Institute NSW Translational Program Grant awarded to Professor Nico van Zandwijk and colleagues at the Asbestos Diseases Research Institute. Cancer Institute NSW Academic Chair and Scientific Director Role (Professor Jane Young) in cancer epidemiology and health services research awarded to The University of Sydney. Dr Matthew Soeberg, epidemiologist at ADRI and Sydney University/Cancer Institute NSW Dr Paula Laws and colleagues at the Australian Mesothelioma Registry.
Acknowledgements AMR Funding: Registry management/ operations: State and territory cancer registries: Death data linkage: