Background: The Australian National Tobacco Campaign (NTC) was an intensive mass media anti-smoking campaign, the first phase of which commenced in 1997, cost around $A9 million, and reduced smoking prevalence by 1.4%.
Objective: To assess the cost-effectiveness of phase one of the NTC, which ran from June to November 1997.
Design and study population: The quit benefits model (QBM), a Markov-cycle simulation model was used to predict the benefits of smoking cessation for the estimated 190 000 quitters from the time of quitting until death, censored at age 85 years. Measures of effectiveness were cases of lung cancer, acute myocardial infarction (AMI), stroke and chronic obstructive pulmonary disease (COPD) avoided; deaths prevented, and life-years and quality-adjusted life-years (QALYs) gained. The savings in healthcare costs through prevention of the four specified smoking-associated diseases were estimated. Future costs, life-years and QALYS were discounted at 3% per year.
Results: The QBM predicted that the NTC avoided over 32 000 cases of COPD, 11 000 cases of AMI, 10 000 cases of lung cancer, and 2500 cases of stroke. Prevention of around 55 000 deaths, gains of 323 000 life-years and 407 000 QALYs, and healthcare cost savings of $A740.6 million were predicted. The NTC was therefore both cost saving and effective.
Conclusions: As well as reducing smoking prevalence, the NTC was unequivocally cost-effective.
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The Australian National Tobacco Campaign (NTC) was initiated by the federal government in June 1997, in response to an apparent stalling of the steady decline in the prevalence of smoking that had occurred in the 1980s and early 1990s.1 The NTC was the first substantive, sustained, coordinated tobacco control campaign implemented in all states and territories of Australia,2 and had distinctive features. It involved intensive broadcasting of new anti-smoking advertisements on television, and, in conjunction, the state and territory governments and their partner organisations increased funding for a range of support services, especially telephone quitlines for smokers who were attempting to quit.1 2
The NTC was a paradigm shift in terms of its confrontational anti-smoking messages, with graphic images of harm reflecting the campaign’s slogan “every cigarette is doing you harm.”1 In the first phase of the campaign between June and November 1997, three advertisements, “Artery”, “Lung” and “Tumour”, were introduced. The “Artery” advertisement, for example, depicts a plug of atherosclerotic deposit being squeezed from a disembodied aorta. In 1998, two additional advertisements were introduced, “Brain”, showing a damaged brain oozing tissue and blood, and “Call for help”, which showed a male smoker contacting the quitline and receiving praise and encouragement from a counsellor. The advertisements “Tar”, showing tar being poured onto the cut surface of a lung, and “Eye”, showing evolving damage to the retina as a capillary bursts, were introduced in 2000.1 3 These seven advertisements can be viewed at http://www.quitnow.info.au under “Smokescreen”.
The initiation of the NTC involved a large increase in the Australian federal government budget for tobacco control measures, and it therefore commissioned numerous evaluation studies over the period 1997 to 2000, which have been published in three volumes.3–5 Although the NTC is an ongoing programme, it has been much less intensive since 2000. Television advertising has been sporadic and no new advertisements have been introduced. Phase one, between June and November 1997, was the most intensive phase of the NTC. Average monthly media spend was over $A900 000 per month, compared with approximately $A400 000 to $A500 000 per month for subsequent phases.3 An economic evaluation of phase one by Carter and Scollo predicted that the campaign would prevent 920 premature deaths, achieve 3338 additional years of life before age 75, and yield savings of $A24.2 million in the cost of treatment for lung cancer, chronic obstructive pulmonary disease (COPD) and cardiovascular disease.6 However, Carter and Scollo’s analysis considered only one hypothetical future year in the lives of the cohort of quitters. The goal of this project was therefore to assess the cost-effectiveness of phase one of the NTC in a more comprehensive manner.
The benefits of quitting
We used the Quit Benefits Model (QBM) to estimate the health benefits and healthcare cost savings of quitting for males and females in each five-year age group from 15–19 years for the remainder of their lifetime, censored at age 85 years. The QBM, which has been described in detail previously,7 is a Markov-cycle tree model, programmed in the software package TreeAge Pro.8 In the model, subjects were at risk each year of dying, or developing one of the four most common smoking-associated diseases—lung cancer, acute myocardial infarction (AMI), stroke or COPD. Once a subject developed one of these conditions, disease progression was characterised by a series of annual transitions between health states defined by the number of years since diagnosis of the particular disease.
The QBM assumed that the risks of these four diseases were greater for smokers than for non-smokers and that risks declined over time for quitters. However, the risk of death due to the disease was independent of smoking or quitting status. The QBM also assumed that the risk of death from causes other than the four specified smoking-associated diseases was greater for smokers than for the general population and that, for quitters, this excess risk declined over time.
The sources of parameter estimates for the QBM are summarised in table 1 and have been described in more detail previously.7 The most recent year for which key data were available was 2001, and costs are quoted in 2001 Australian dollars. The disease incidence and mortality parameter estimates were all based on Australian data. The declines after quitting in risks of smoking-associated diseases, and mortality from causes other than these four diseases, were estimated from functions described previously, all of which were based on large international datasets.7 Cost estimates were based on Australian data, with the exception of COPD costs, which were sourced from a Canadian study.9 Utility estimates for stroke came from a meta-regression,10 and from an international registry for the other three diseases.11
The following outcomes were assessed: the probabilities of developing each of the four smoking associated diseases, the probabilities of dying from each of these diseases or other causes, total healthcare costs and costs for each disease, life expectancy and expected quality-adjusted life-years (QALYs). For each five-year age group, for males and females separately, the course of a hypothetical smoker was simulated, first assuming that the subject continued to smoke, and then assuming he or she quit. Expected values for costs, QALYs and life-years were estimated directly from Markov cohort analyses, and were discounted at 3% per year.12 To estimate the probabilities of disease and death (and hence numbers of cases of disease and deaths avoided) it was necessary to programme “tracker variables” in TreeAge and analyse the model using Monte Carlo simulation, which is substantially more computationally intensive and time consuming than a Markov cohort expected value analysis.13 Simulations were run for 10 000 subjects in each age group/sex category. Summary results have generally been rounded to the nearest thousand.
The benefits of the NTC
As part of the NTC evaluation, household telephone surveys that enabled estimation of the number of quitters attributable of the NTC were conducted by the Roy Morgan Research Centre in May and November 1997. These surveys have been described in detail by Wakefield et al in volume one of the evaluation report.14 Briefly, around 2000 Australians aged 18 and over were interviewed in May 1997, and another sample of around 4200 were interviewed in November 1997. From the survey data, Wakefield and colleagues estimated that the prevalence of smoking in Australia dropped from 23.5% in May, to 22.1% in November, a fall of 1.4%, after adjustment for age, sex and socioeconomic status.14 Carter and Scollo extrapolated the survey data to the Australian population distribution to estimate the number of Australians who quit smoking in response to the NTC, and their age group and sex distribution.6 In our analysis, we used Carter and Scollo’s estimate of 190 000 quitters aged between 15 and 64 years. Note that although the NTC was specifically designed to encourage smokers to quit, it may also have discouraged young people from taking up smoking. The reduction in prevalence is essentially a combined measure of the impact on quitting and uptake.
We estimated the benefit of the NTC for each outcome, by multiplying the number of quitters in each age group, for males and females separately, by the predicted benefit of quitting for individuals in that age group/sex category estimated from the QBM, and summing across all age group/sex categories.
The cost and cost-effectiveness of the NTC
Carter and Scollo estimated that the NTC cost $A8.95 million (in 1997 Australian dollars), comprising $A7.1 million of federal expenditure, and $1.85 million of additional expenditure by state and territory organisations.6 We adjusted this cost to 2001 dollars on the basis of the consumer price index,15 to give an estimate of $10.1 million for the cost of the NTC.
The cost-effectiveness of the NTC was calculated in terms of the net cost per life-year saved and the net cost per QALY gained. The net cost was the cost of the campaign minus total healthcare cost savings attributable to quitting.
The healthcare cost savings associated with the NTC, discounted at 3% per annum, were also estimated at time horizons of 1, 2, 10 and 20 years after the commencement of the programme. These healthcare cost savings were compared with the cost of the NTC to determine the analytical time horizon at which the NTC became cost saving. To allow for the possibility that not all the reduction in smoking was due to the NTC, a sensitivity analysis was conducted assuming that only half the reduction in smoking prevalence was due to the NTC.
Table 2 summarises the predicted benefits of phase one of the NTC in terms of cases of disease and deaths avoided, and healthcare costs saved, over the remaining lifetime up to the age of 85 of the 190 000 quitters. The 95% confidence intervals indicate the variability in the estimates due to the simulation process, and not any other potential sources of variability in parameter estimates. We predicted that the NTC resulted in over 32 000 fewer cases of COPD, over 11 000 fewer cases of AMI, about 10 000 fewer cases of lung cancer and about 2500 fewer cases of stroke. Approximately 52 000 fewer deaths from these four diseases, and 55 000 fewer total deaths were predicted as a consequence of quitting. Total healthcare costs savings were predicted to be around $740.6 million (discounted at 3% per year), half of which was due to savings in the costs of COPD. The net cost of the NTC was therefore a predicted saving of $730.5 million.
Our model predicted that the NTC resulted in 323 000 more life-years and 407 000 more QALYs for the 190 000 quitters. The NTC was therefore both cost-saving and effective, and calculation of net cost per QALY was not applicable.
In figure 1, the discounted healthcare cost savings associated with the NTC are plotted against the years since commencement of the NTC. Figure 1 shows that by four years after the NTC, predicted healthcare cost savings exceeded the $10.1 million cost of the programme.
The NTC’s cost-effectiveness profile was essentially unchanged if only half the reduction in smoking prevalence observed during phase one was attributed to the NTC—that is, it was assumed there were 95 000 rather than 190 000 quitters. Under this scenario, the NTC was predicted to result in healthcare cost savings of $360.2 million, and gains of 161 500 life-years and 203 500 QALYs for quitters over their remaining lifetime, so the programme was still unequivocally cost-saving as well as effective. Healthcare cost savings exceeded the cost of the programme cost within a five-year time horizon.
Our analysis found that the health benefits and healthcare cost savings consequential to the first phase of the NTC were far greater than previously estimated. Compared with Carter and Scollo’s analysis,6 the QBM predicted that almost 60-fold more deaths would be avoided, almost 100-fold more life-years would be saved and 30-fold greater healthcare cost-savings would be achieved. This big difference is not surprising, because, as mentioned above, Carter and Scollo assessed the benefits of the NTC in only one hypothetical future year, whereas we assessed benefits over the remaining lifetime of quitters, censored at age 85 years.
Two other published cost-effectiveness analyses of mass-media anti-smoking campaigns also reported lower benefits than we found using the QBM. Ratcliffe et al16 estimated that a Scottish campaign, launched in 1992, cost between £304 and £656 per life-year saved, and Secker-Walker et al17 found that a mass-media programme conducted in two communities in the United States targeting adolescents cost $138 (95% CI 88 to 252) per life-year gained. However, neither of these analyses considered any healthcare cost savings associated with preventing smoking-attributable diseases. Other cost-effectiveness analyses of anti-smoking mass-media campaigns have estimated the cost per caller to quitlines in response to advertising,18 19 or the cost per quitter.20
When considering proposals for funding new health programmes, governments now frequently consider data on cost-effectiveness.21 In many instances an economic evaluation is mandatory.22 To facilitate consistent decisions, it is important that health economic evaluations are carried out using recognised, high-quality methodology. Our analysis of the cost-effectiveness of the NTC would arguably meet the high standard required for submissions to the Australian Pharmaceutical Benefits Advisory Committee (PBAC) seeking government subsidy of medicines.22 Our analytical model, the QBM, reflects real-life risks, and is robust. In the technical paper describing its development, we reported that one-way sensitivity analyses varying model parameters by 10% resulted in only small changes (all less than 4%) in predicted QALY gains and healthcare cost savings.7 However, although the QBM is a comprehensive model, it is still conservative. It underestimates the benefits of smoking cessation, as only the four most common smoking-associated diseases were considered when analysing cases of disease, QALYs and healthcare costs.
Our analysis did have some limitations. Both it and the previous analysis of the cost-effectiveness of the NTC6 assumed that all of the estimated decline in smoking prevalence in phase one was attributable to the NTC, and that the quitters would not regress.6 Although it is clearly unlikely that none of the quitters resumed smoking, the smoking prevalence reduction observed in phase one was sustained. Smoking prevalence was estimated to be 21.8% at the second household telephone follow-up in November 1998, 20.7% at the third follow-up in 1999 and 20.4% at the final follow-up in November 2000.3 Anti-smoking advertising was much less intense over these periods.
Our attribution of the observed decline in smoking rates to the NTC is supported by two types of evidence. The first is the numerous analyses of smokers’ knowledge, intentions and actions conducted as part of the NTC evaluation.3–5 These demonstrated that many smokers saw the advertisements, were prompted by the messages to think about quitting and either intended or tried to do so. For example, almost 90% of smokers recognised the advertisements, and half of those who had seen the campaign images said they were more likely to quit.23 Approximately 3.6% of adult Australian smokers called the quitline in the year after the NTC began, and over that period the weekly volume of quitline calls was strongly correlated with the amount of television advertising, measured in target audience rating points (TARPs).24
The second line of evidence for our assumption that the fall in smoking prevalence was the result of the campaign is the fact that only other controllable factor that is known to reduce the smoking rate was not applicable during the sixth-month phase one period. Wakefield and colleagues recently reported the results of a multivariate time series analysis, which showed that the only two interventions that significantly reduced smoking prevalence in Australia between 1995 and 2006 were exposure to anti-smoking media campaigns and increases in cigarette costliness (the ratio of average cigarette pack price to average weekly earnings).25 Between May and November 1997, there was no increase in cigarette taxes and the average retail price paid by Australian smokers increased by only 1.4% (Table 5 in paper by Scollo et al26). International research27 suggests that for every 10% increase in cigarette prices, cigarette consumption falls by about 4%, with around half of the fall due to quitting and half due to reduced cigarette consumption by smokers. The 1.4% increase in price over phase one of the NTC would therefore be predicted to have resulted in a 0.56% decrease in demand. Even if all of this reduction in demand was attributed to quitting, smoking prevalence would be predicted to decrease by only 0.13% (from 23.5% to 23.37%). This represents only 9% of the actual prevalence reduction of 1.4% (from 23.5% to 22.1%). So, in summary, cigarette price increases are the only factor other than the mass media campaign that could have had a substantial impact on smoking prevalence, and over the six-month period we analysed there was only a very small increase in the average cigarette price, the impact of which on prevalence was also very likely to be small.
Ten years have now passed since the first phase of the NTC was completed, and it is pertinent to ask what the impact has actually been. The beneficial impact on health is mostly likely to be first observed in reduced incidence and mortality of myocardial infarction and stroke.28 Between 1996 and 2005, the age-standardised incidence of major coronary events in Australia fell by 29%, from 719 per 100 000 to 511 per 100 000, and the corresponding death rate fell by 43% in men and 41% in women.29 The greater magnitude of the fall in mortality than incidence is likely to be due to better survival. Over the same period, age-standardised death rates for cerebrovascular disease (which is mainly stroke) fell by 37% for men and 35% for women. The prevalence of other risk factors for coronary heart and cerebrovascular disease may also have declined since the NTC began, but the most recent comprehensive survey data for the relevant risk factors (hypertension, elevated serum cholesterol, physical inactivity and obesity) are for the year 1999–2000.29 It is reasonable to conclude that the reduction in smoking has contributed to these large declines in cardiovascular morbidity and mortality, and cerebrovascular mortality. For example, an Australian analysis of the 83% decline in coronary heart disease mortality during an earlier period, between 1968 and 2000, found that 16% of the reduction in males was due to the decline in tobacco smoking.30
Over 150 countries have now ratified the World Health Organization Framework on Tobacco Control,31 and Article 12 of this treaty32 states that each party:
“shall promote and strengthen public awareness of tobacco control issues using all available communication tools, as appropriate. Towards this end, each Party shall adopt and implement effective legislative, executive, administrative or other measures to promote:
(a) broad access to effective and comprehensive educational and public awareness programs on the health risks including the addictive characteristics of tobacco consumption and exposure to tobacco smoke;
(b) public awareness about the health risks of tobacco consumption and exposure to tobacco smoke, and about the benefits of the cessation of tobacco use and tobacco-free lifestyles …”
In order to meet their treaty commitments, countries that have become party to the Framework Convention on Tobacco Control will therefore need to implement, or continue to support, mass-media anti-smoking campaigns, Accurate estimates of the efficiency of such campaigns are likely to be important in this context, as cost-effectiveness analyses of health care, health promotion and disease prevention programmes increasingly contribute to funding decisions and resource allocation.33 Our finding that an Australian mass-media anti-smoking programme was unequivocally cost-effective should assist tobacco control advocates worldwide to secure funding for similar, ongoing programmes.
What this paper adds
The Australian National Tobacco Campaign (NTC) commenced in 1997 with an intensive mass media anti-smoking advertising campaign and coordinated support services for quitters. Phase one, between June and November 1997, cost around $A9 million. A previous analysis grossly underestimated its cost-effectiveness, as benefits were assessed in only one future hypothetical year.
This analysis assessed the cost-effectiveness of the NTC over the subsequent lifetime of quitters (censored at age 85 years) using a Markov simulation model. Outcomes included gains in quality-adjusted life-years (QALYs) and healthcare cost savings consequential to the reduced incidence of the four most common smoking-associated diseases—myocardial infarction, stroke, lung cancer and chronic obstructive pulmonary disease.
Over the remaining lifetime of the 190 000 quitters, the model predicted that there would be 55 000 fewer deaths as a consequence of quitting, and a gain of over 400 000 QALYs. Healthcare cost savings of around $A740 million (discounted at 3% per year) were predicted. The NTC was therefore both cost saving and effective. The predicted benefits were 30-fold to 100-fold greater than previously estimated
Countries that are party to the World Health Organization Framework Convention on Tobacco Control have committed to implement public awareness programmes on the health risks of smoking. This analysis should help them secure funding for such programmes.
Competing interests: None.
Funding: This project was supported by a grant from the Cancer Council Victoria, through funding from the Victorian Health Promotion Foundation. The funding body had no role in the design and conduct of the study, in the collection, analysis and interpretation of the data, or in the preparation, review or approval of the manuscript.