L 61 - 2020-21 - Bilag 1: Høringssvar og høringsnotat, fra sundheds- og ældreministeren

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L 61 - 2020-21 - Bilag 1: Høringssvar og høringsnotat, fra sundheds- og ældreministeren

L 61 - 2020-21 - Bilag 1: Høringssvar og høringsnotat, fra sundheds- og ældreministeren

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L 61 - 2020-21 - Bilag 1: Høringssvar og høringsnotat, fra sundheds- og ældreministeren

Summary description

The research report "Analysis of the impact of Plain Packaging on smoking prevalence and

impact of the introduction of Plain Packaging regulation in Australia on smoking prevalence

and legal tobacco consumption. After conducting a detailed review of the research project and

the analysis, I outline below a final opinion on the appropriateness of the applied methodology

and correctness of the reported results in the report.

Is the methodology appropriate for the analysis of the

problems investigated and correctly applied?

The research report describes the different types of econometric analysis adopted to test the

impact of the introduction of Plain Packaging on both smoking prevalence and tobacco

consumption. The following list summarizes the different methodologies and statistical

assessment, pointing out the appropriateness of their usage.

As regards smoking prevalence, a probit regression model has been applied to

study the smoking status component of the Roy Morgan Single Source ("RMSS") survey

a cross-sectional survey of a nationally representative sample of Australian individuals

aged 14 and over covering the period from 2001 to December 2017. The dependent

variable takes the value of zero if the respondent does not smoke and one if the respondent

smokes. The usage of a probit model is appropriate for this type of survey data and the set

of explanatory variables employed in the model are appropriate for this type of analysis;

and the methodology has been correctly applied.

As regards legal tobacco consumption, a number of methods are employed to

assess the impact of Plain Packaging using retail audit sales data covering the period from

January 2008 to December 2017:

Firstly, a non-parametric approach has been used to carry out a

before-and-after evaluation of the smoking prevalence and tobacco consumption,

L 61 - 2020-21 - Bilag 1: Høringssvar og høringsnotat, fra sundheds- og ældreministeren

using New Zealand as a comparative case (control group), which has not been

subject to the introduction of the Plain Packaging (treatment). The methodology

that is applied is useful for providing a preliminary assessment of the separate

effects of the implementation of Plain Packaging from other characteristics that

could affect tobacco consumption, and it has been correctly applied.

Secondly, a structural break analysis has been implemented to

assess the moment in which a break in the cigarette consumption time series

happens. The usage of the Chow test is appropriate and has been correctly applied

to assess whether there is a structural exogenous break in the consumption pattern

at a given date. The results reveals that there has not been any specific change in

the cigarette consumption trend in Australia as a result of the introduction of Plain

Packaging.

Thirdly, a regression analysis has been performed taking the

cigarette consumption as a dependent variable and Plain Packaging with a set of

other explanatory variables as independent variables. The inclusion of the Plain

Packaging as a dummy variable into the structural model is suitable to test the impact

of Plain Packaging, and the set of explanatory variables employed in the model are

appropriate for this type of analysis; and the methodology has been correctly

applied.

Finally a difference-in-differences regression model has been

performed on per capita cigarettes consumption up to December 2017, including

also New Zealand as a comparator. This is in line with the study of Dryden (2017)

and suggests that plain packaging is associated with a statistically significant (to

the 10% level) increase in per capita cigarettes consumption.

Are the results correctly reported?

The research report has been competently written and includes a sufficiently large amount of

technical details, to explain the adopted methodology and obtained results. The results have

been correctly reported and interpreted, providing a clear understanding of the impact of Plain

Packaging regulation in Australia on smoking prevalence and tobacco consumption.

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Does the analysis meets the standard and rigor needed for

publication in an academic journal?

The empirical research presented in the report constitutes an extensive and rigorous

econometric study to analyse the underlying patterns of smoking prevalence and tobacco

consumption and to assess the impact of the introduction of Plain Packaging.

This research makes use of inclusive data sets, which facilitate the application of a large battery

of statistical approaches. As examined in the previous subsections, the applied methodologies

cover the main aspects of the analysed phenomenon and have been appropriately applied to the

described empirical setting, in line with the state-of-the-art contributions in this field.

The inclusion of supplementary appendixes provides a comprehensive assessment of the

robustness of applied methodologies, and an explanation of the technical aspects which are

relevant to support the correctness of the obtained results.

Professor Stefano Nasini

8 November 2019

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W. KIP VISCUSI

AN ASSESSMENT OF THE EFFECT OF AUSTRALIAN PLAIN PACKAGING

REGULATION: ANALYSIS OF ROY MORGAN RESEARCH DATA,

CITTS DATA, AND NTPPTS DATA:

2 JANUARY 2018

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INTRODUCTION

I am the University Distinguished Professor of Law, Economics, and Management at

Vanderbilt University. I hold a Bachelor’s degree in Economics, two master’s degrees,

and a Ph.D. in economics, all from Harvard University. I have published more than 350

articles and 20 books dealing primarily with health and safety risks, and I have been

ranked among the top 25 economists in the world based on citations in economics

journals. I worked extensively with the U.S. Environmental Protection Agency (“EPA”)

on a continuous basis from 1983 to 2012, where much of my work was focused on the

development of guidelines for hazard warnings for dangerous pesticides and chemicals. I

also have extensive professional experience evaluating regulatory impact analyses and

the economic methodology used in benefit-cost analysis, including being the Deputy

Director of the President’s Council on Wage and Price Stability from 1979–1980, which

was responsible for White House oversight of all new federal regulations during that

period as well as executive branch review of all regulatory impact analyses. Further

details of my educational background and professional experience are set out in

Appendix D of this report.

I have been asked to provide a report that examines empirical data from Australia to see

what effect, if any, plain packaging of tobacco products

(“Plain Packaging” or “PP”) has

had on smoking behaviors in Australia following its implementation.

In particular I have been requested to:

Plain packaging, also known as standardized packaging, generally refers to regulation that requires the

removal of all branding (colors, imagery, corporate logos and trademarks) from product packaging,

permitting manufacturers to print only the brand name in a mandated size, font, and place on the pack, in

addition to the health warnings and any other legally mandated information. The appearance of all tobacco

packs is also standardized, including the color of the pack.

Plain Packaging was introduced in Australia under the Tobacco Plain Packaging Act 2011, No. 148, 2011

with all tobacco products sold in Australia required to comply with the requirements from December 1,

2012.

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Review the following datasets:

Roy Morgan Single Source Survey (“RMSS”) data: a nationally

representative, repeated cross-sectional survey of Australians aged 14 and

above covering the period from January 2001 to December 2016.

ii.

The Australian National Tobacco Plain Packaging Tracking Survey

(“NTPPTS”) data: A continuous survey of Australian smokers and recent

ex-smokers commissioned by the Australian Government’s Department of

Health and Ageing to evaluate the impact of changes in the packaging of

tobacco products in Australia for the period from 9 April 2012 to 30

March 2014.

iii.

The Cancer Institute New South Wales (NSW) Tobacco Tracking Survey

(“CITTS”) data: a serial, weekly cross-sectional survey of adult smokers

and recent quitters in New South Wales, Australia, for the period from

February 2009 to June 2016.

Review and comment on the following publications in relation to the above

datasets:

Analysis of the Australian RMSS data presented in:

The data collected in the National Tobacco Plain Packaging Tracking Survey is available on request from

the Australian Department of Health, see

http://www.health.gov.au/internet/main/publishing.nsf/content/tobacco-plain-packaging-evaluation,

accessed 29 June 2017.

See also the Australian National Tobacco Plain Packaging Tracking Survey:

Technical Report, available at

http://tobaccocontrol.bmj.com/content/suppl/2015/02/16/tobaccocontrol-

2014-052050.DC1/tobaccocontrol-2014-052050supp.pdf, accessed 29 June 2017.

I have previously addressed the CITTS data and NTPPTS data in reports that I submitted for British

American Tobacco in October 2015 in UK legal proceedings in which PP was being challenged, and in

November 2015 in relation to the Australian Government Department of Health Post-Implementation

Review of the Tobacco Plain Packaging Act 2011 (Aus). My current report provides a more extensive

analysis of these data including detailed multivariate controls, an empirical assessment of additional CITTS

data, and a longer time period for the CITTS data, and also examines aspects of the cohort component of

the NTPPTS data that I did not consider previously. In addition, this report also includes an analysis of the

RMSS data, which I have not considered previously.

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The report of Dr. Tasneem Chipty entitled “Study of the Impact of

the Tobacco Plain Packaging Measure on Smoking Prevalence in

Australia” (January 24, 2016), which was commissioned by the

Australian Department of Health and is the only econometric

analysis of data that is relied on in the Australian Government’s

Post Implementation Review Report of the Australian Tobacco

Plain Packaging Act 2011 (“TPP Act”) published in February

2016.

Diethelm and Farley (2015) “Refuting tobacco-industry funded

research: empirical data shows a decline in smoking prevalence

following the introduction of plain packaging in Australia.”

ii.

Analysis of the Australian NTPPTS data presented in several papers

published in

Tobacco Control,

(April 2015), Volume 24, Suppl. 2, titled

“Implementation and evaluation of the Australian tobacco Plain Packaging

policy,”

which papers are also relied on in the Australian Post

Implementation Review Report;

and

The Australian Post Implementation Review Report and its appendices, including Dr. Chipty's report are

available on the Australian Government Office of Best Practice Regulation website at

http://ris.dpmc.gov.au/2016/02/26/tobacco-plain-packaging/, accessed 29 June 2017.

Some program codes

and data files relating to Dr. Chipty’s report are also available on request from the Australian Department

of Health at

http://www.health.gov.au/internet/main/publishing.nsf/Content/foi-disc-log-2015-16, accessed

29 June 2107.

Pascal A Diethelm, Timothy M Farley, “Refuting tobacco-industry funded research: empirical data shows a

decline in smoking prevalence following the introduction of plain packaging in Australia,” Tob. Prev.

Cessation 2015;1(November):6

http://dx.doi.org/10.18332/tpc/60650.

Available at

http://tobaccocontrol.bmj.com/content/24/Suppl_2.toc.

The papers in this publication that

analyze the Australian NTPPTS data are:

Melanie Wakefield, Kerri Coomber, Meghan Zacher, Sarah Durkin, Emily Brennan, and Michelle

Scollo, “Australian Adult Smokers’ Responses to Plain Packaging with Larger Graphic Health

Warnings 1 Year after Implementation: Results from a National Cross-Sectional Tracking Survey,”

Tobacco Control 2015;24:ii17-ii25. doi:10.1136/tobaccocontrol- 2014-052050;

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iii.

Analysis of the New South Wales CITTS data presented in Dunlop et al

(2014) “Impact of Australia’s Introduction of Tobacco Plain Packs on

Adult Smokers’ Pack-Related Perceptions and Responses: Results from a

Continuous Tracking Survey,”

which is also relied on in the Australian

Post Implementation Review Report.

Review the Australian Government's Post Implementation Review Report of TPP

Act published in February 2016 (the "PIR"),

and comment on the validity of the

conclusions expressed in the report regarding the impact of Plain Packaging on

smoking behaviors.

To the best of my knowledge, the analysis of Australian data that I provide in this report

is the most up to date and comprehensive analysis of the data that has been provided to

date. In particular:

My analysis of the RMSS data extends through December 2016, thus providing

15 more months of data in the post-PP period than analyzed in the report of Dr.

Sarah Durkin, Emily Brennan, Kerri Coomber, Meghan Zacher, Michelle Scollo, and Melanie

Wakefield, “Short-Term Changes in Quitting-Related Cognitions and Behaviours after the

Implementation of Plain Packaging with Larger Health Warnings: Findings from a National Cohort

Study with Australian Adult Smokers,” Tobacco Control 2015;24:ii26-ii32.

doi:10.1136/tobaccocontrol-2014-052058;

Emily Brennan, Sarah Durkin, Kerri Coomber, Meghan Zacher, Michelle Scollo, and Melanie

Wakefield, “Are Quitting-Related Cognitions and Behaviours Predicted by Proximal Responses to

Plain Packaging with Larger Health Warnings? Findings from a National Cohort Study with Australian

Adult Smokers,” Tobacco Control 2015;24:ii33-ii41. doi:10. 1136/tobaccocontrol-2014-052057; and

Michelle Scollo, Meghan Zacher, Kerri Coomber, Megan Bayly, and Melanie Wakefield, “Changes in

Use of Types of Tobacco Products by Pack Sizes and Price Segments, Prices Paid and Consumption

Following the Introduction of Plain Packaging in Australia,” Tobacco Control 2015;24:ii66-ii75.

Supra at footnote 5.

Sally M. Dunlop, Timothy Dobbins, Jane M. Young, Donna Perez, and David C. Currow, “Impact of

Australia’s Introduction of Tobacco Plain Packs on Adult Smokers’ Pack-Related Perceptions and

Responses: Results from a Continuous Tracking Survey,"

BMJ Open

2014; 4(12): e005836, Available at

http://bmjopen.bmj.com/content/bmjopen/4/12/e005836.full.pdf.

Supra at footnote 5.

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Chipty and 3 additional years of data in the post-PP period than in Diethelm and

Farley (2015);

My analysis of the Australian NTPPTS data and the New South Wales CITTS

data includes an analysis of all of the survey outcomes, rather than a selection of

the outcomes as presented in the published papers on these data. Also, unlike the

the Australian Government's Australian Post Implementation Review Report

which simply relies on the conclusions from the published papers on these data, I

also undertake a review of the papers and analyze the underlying data; and

My analysis of the CITTS data includes a longer time period than in any

published study as it extends through June 2016, which includes an additional 37

months of data from that considered by Dunlop et al. (2014) in their analysis of

the CITTS data.

As noted in the report of Dr. Chipty, at the same time that Australia introduced tobacco

Plain Packaging it also introduced updated and enlarged graphic health warnings on

tobacco product packaging under the Competition and Consumer (Tobacco) Information

Standard 2011 (which included expanding the size of the warning on the front of the pack

from 30% to 75%). Given the timing of these changes, it is not possible to separately

identify the effects of tobacco Plain Packaging from those of the updated and enlarged

graphic health warnings without making restrictive assumptions. As such, my discussion

of the effects of Plain Packaging encompasses the effects from both of these changes,

which I refer to collectively as the "2012 Packaging Changes" (as is also the case with Dr

Chipty's analysis in her report).

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II.

EXECUTIVE SUMMARY

In this report I provide a comprehensive analysis of three key datasets from Australia,

namely: 4 years of post-implementation RMSS data; 3 �½ years of post-implementation

CITTS data; and the Australian Government commissioned NTPPTS data. My use of a

longer post-implementation time frame for my analysis than in any previous study

provides a stronger test of the impact of the 2012 Packaging Changes if, as some have

suggested, the effect of the policy change would increase over time. Each of these

datasets provides somewhat different perspectives, and no single dataset is complete in

terms of addressing both smoking prevalence and various attitudinal responses to plain

packs, or what are sometimes referred to as intermediate metrics. However, despite the

different perspectives provided by these data, the implication of my analysis of the three

datasets yields a consistent conclusion that there is no evidence of the 2012 Packaging

Changes having any impact on reducing smoking prevalence rates or consumption

amongst current smokers. There is also consistent evidence that the policy is associated

with counterproductive effects on some of the intermediate or secondary measures that

are relied upon in the Australian Government's Australian Post Implementation Review

Report and by other proponents to promote Plain Packaging.

Chief among these

potentially counterproductive effects is that there has been an increase in the belief that

the warnings exaggerate the risks. Other impacts, such as the effects on quitting behavior

and smoking rates, are more mixed. On balance, these results undermine any conclusion

that the 2012 Packaging Changes have had a net beneficial effect. In particular:

See e.g. World Health Organization, Regional Office for Europe, (2014) "Evidence Brief Plain packaging

of tobacco products: measures to decrease smoking initiation and increase cessation"; and McNeill A,

Gravely S , Hitchman SC, Bauld L, Hammond D, Hartmann-Boyce J. "Tobacco packaging design for

reducing tobacco use". Cochrane Database of Systematic Reviews 2017, Issue 4. Art. No.: CD011244.

DOI: 10.1002/14651858.CD011244.pub2 .

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My analysis of the RMSS data, which includes 15 additional months of data in the

post-2012 Packaging Changes period than was considered in the report of Dr.

Chipty, and 3 years of additional data in the post-2012 Packaging Changes period

than was addressed in Diethelm and Farley (2015), found that the estimated

statistical association of the 2012 Packaging Changes with smoking prevalence

rates is zero. Instead, my analysis of the RMSS data found that the decline in

smoking prevalence rates in Australia is a continuation of past nonlinear time

trends, overall economic trends such as the general Australian consumer price

index, and influences such as rising cigarette prices, and is not significantly

related to the adoption of the 2012 Packaging Changes. The only sound

conclusion based on this evidence is that the 2012 Packaging Changes are not

associated with any change in smoking prevalence rates.

An evaluation of the CITTS and NTPPTS data relating to actual cigarette

consumption behavior in Australia indicates that the 2012 Packaging Changes

have not been associated with a decrease in smoking behaviors amongst current

smokers. The results for the CITTS sample are mixed, with no clear cut evidence

of efficacy. The number of cigarettes smoked per day experienced a statistically

significant increase of about one cigarette. There has also been a change in the

distribution of smoking activity. More respondents report that they smoke daily,

fewer report that they smoke at least weekly (not daily), fewer report that they

smoke less often than weekly, and a statistically insignificant larger number report

that they currently smoke not at all, though they did smoke in the last year.

Within the NTPPTS sample, there is no statistically significant change in the

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number of cigarettes smoked per day.

My analysis of the CITTS data includes a

longer time period than in any published study as it extends through June 2016,

which includes an additional 37 months of data beyond that considered in Dunlop

et al. (2014).

There is also consistent evidence from the CITTS and NTPPTS data indicating an

unfavorable association of the 2012 Packaging Changes with a number of so

called intermediary metrics (e.g., increasing the efficacy of health warnings) even

setting aside issues pertaining to the efficacy of these intermediate variables in

predicting actual smoking behaviors. For example, my analysis of the CITTS

data shows that after the implementation of 2012 Packaging Changes in Australia:

respondents rate it significantly more difficult to quit both in terms of how

difficult it would be to quit and how difficult they thought it would be to

quit, and respondents are significantly less confident that they can quit,

which is an impact that could arise if the policy made consumers think that

quitting would be a more formidable challenge; and

ii. there is a statistically significant 16% increase in whether respondents

believe that the graphic warning labels policy exaggerate the risk of

smoking, a statistically significant 7% increase in beliefs that the

government pesters people too much about smoking risks, a statistically

I note that consistent with my analysis, Scollo et al. (2015), which is the only published study of the

NTPPTS data that discusses the data on actual consumption behavior, also found that the 2012 Packaging

Changes had no impact on consumption: see Michelle Scollo, Meghan Zacher, Kerri Coomber, Megan

Bayly, and Melanie Wakefield, "Changes in Use of Types of Tobacco Products by Pack Sizes and Price

Segments, Prices Paid and Consumption Following the Introduction of Plain Packaging in Australia,"

Tobacco Control

2015;24:ii66-ii75.

Sally M. Dunlop, Timothy Dobbins, Jane M. Young, Donna Perez, and David C. Currow, “Impact of

Australia’s Introduction of Tobacco Plain

Responses: Results from a Continuous Tracking Survey",

BMJ Open

2014; 4(12): e005836;

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significant 5% increase in beliefs that the health effects are exaggerated,

and a statistically significant 3% increase in the belief that smoking is only

harmful to heavy smokers. These result could arise from defensive

processes and increased reactance activated by the the 2012 Packaging

Changes, leading to an increased degree of rejection of the graphic

warnings message.

My analysis of the NTPPTS data also shows that after the implementation of the

2012 Packaging Changes in Australia:

respondents were less likely to think about quitting either once or once

every few days over the previous week, less likely to stub out many times

after the policy, and were less likely to stop many times upon having the

urge to smoke;

ii.

there was a decrease in the number of respondents who intend to quit

smoking in the next month, and a decrease in the number of respondents

who stub out their cigarette many times after thinking about the harms of

smoking; and

iii.

there is no statistically significant impact on beliefs regarding the

harmfulness of cigarettes; zero effects with respect to all categories of

responses regarding whether the person thinks about the money spent on

cigarettes; and an increase in the agreement that the dangers are

exaggerated.

The evidence of a lack of impact of the of the 2012 Packaging Changes in Australia and

of a number of potentially counterproductive effects is not unexpected given that

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consumers are informed of the risks of smoking and the 2012 Packaging Changes do not

provide any new information to consumers. An assumption that making the warnings

larger and more prominent will increase their effectiveness is misplaced. There is no

empirical evidence that “shouting” works in increasing behavioral compliance in this

context where no new information is being provided. The evidence of negative outcomes

is also consistent with research that demonstrates that fear-based warnings may in fact

elicit responses that are the opposite of their intended effect.

In this report, I also evaluate and provide a critique of previous analysis of the Australian

RMSS data presented in the report by Dr. Tasneem Chipty and in Diethelm and Farley

(2015):

The report by Dr. Tasneem Chipty was commissioned by the Australian

Department of Health to assess the impact of Plain Packaging on smoking

prevalence in Australia, and is the only econometric analysis of data that seeks to

identify the actual effect of the 2012 Packaging Changes on smoking that is relied

on in the Australian Post Implementation Report. As explained below, I have

identified several flaws in in Dr. Chipty's approach that render it unreliable,

namely:

the use of overlapping indicator variables which create confounding

effects, meaning that any conclusions drawn from Dr. Chipty’s analysis

are highly speculative;

ii.

the use of a linear time trend when the time trend is nonlinear. Dr.

Chipty’s procedure violates basic principles of statistical analysis since

she reported no statistical tests of the use of a linear trend as opposed to a

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nonlinear trend. Capturing any nonlinear relationship with a linear trend

line, as Dr. Chipty does, leads to an unexplained “policy impact” that is

spurious, as it is not an effect of the policy but instead reflects an

underlying nonlinear trend; and

iii.

the use of indicator variables only for the major tax increases that occurred

in Australia, which fails to recognize the continuous nature of excise tax

levels and generates a source of error in the treatment of taxes; and

iv.

the failure to include a cigarette price variable in her model which is the

most important variable in models of the economic demand for any

consumer product.

As a result of these shortcomings, the report of Dr Chipty provides no sound

evidence in support of the efficacy of plain packs policies.

The two most

important flaws in her study were the failure to consider the nonlinearity of

the temporal trend in smoking prevalence rates and the omission of cigarette

prices from the model.

Three principal results from the RMSS data analysis are apparent in both

the analysis of the extended dataset that I used, as well as in my analysis

of the shorter time period considered in Dr. Chipty’s report:

Properly recognizing that the temporal trend is nonlinear rather

than linear (as Dr. Chipty wrongly assumes) alone accounts for the

downward trend in smoking rates;

Even with only a linear trend, reasonable specifications of the

model using either overall consumer prices or continuous measures

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of the recommended retail price of cigarettes rather than the crude

excise tax indicator variables approach used by Chipty eliminates

the statistical significance of the 2012 Packaging Changes variable.

It is only by ignoring both the nonlinearity of the smoking

prevalence time trend and the role of prices, as Dr. Chipty does,

that it is possible to generate non-zero statistically significant

estimates of the 2012 Packaging Changes variable; and

Third, even if there were a purported association of the 2012

Packaging Changes with smoking prevalence based on Dr.

Chipty's analysis, one should be skeptical of the import of these

results given that her statistical analysis includes four overlapping

indictor variables for the 2010 to 2015 period. Given her statistical

format, it is difficult to disentangle the effect of the multiple policy

shifts that occurred around the 2012 period. Attributing the lower

smoking prevalence rates to the 2012 Packaging Changes as

opposed to the excise tax increases both before and after the advent

of the 2012 Packaging Changes policy is not warranted.

vi. Properly specified multivariate regression analyses that corrects for the

flaws in Dr. Chipty’s analysis demonstrates that the estimated effect of the

2012 Packaging Changes on the smoking prevalence rate cannot be

distinguished statistically from zero. As noted above, I also extended Dr.

Chipty’s data period with an additional 15 months of data through to

December 2016 and found that the impact of the 2012 Packaging Changes

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on smoking prevalence rates cannot be distinguished statistically from

zero for this longer time period as well.

b. The article by Diethelm and Farley (2015) is identified as the only published

study that assesses the impact of Plain Packaging on smoking prevalence, in a

recent Cochrane review of the plain packing literature that was published in April

2017 (the "Cochrane Review").

However, as I explain below, the article lacks

scientific validity for several reasons:

The authors had no original data, but instead relied on estimates of

monthly averages inferred from a figure in a working paper by Kaul and

Wolf.

As a result, their sample size for their analysis only included 156

imputed monthly average figures, not the more than 700.000 individual

observations in the Kaul & Wolf sample.

While the authors express

concern about the possible error in imputing data based on the chart in

Kaul and Wolf, the more important limitation is that the aggregation of the

data by month reduces the informational content of the data and prevents

the ability to match any data to particular respondents;

ii.

Because of this reliance on monthly average data the authors have no

information by individual respondent and consequently their analysis

includes no controls in the model for individual characteristics such as

McNeill, A., Gravely, S., Hitchman, S.C., Bauld, L., Hammond, D., and Hartmann-Boyce, J., "Tobacco

Packaging Design for Reducing Tobacco Use," Cochrane Database of Systematic Reviews 2017, Issue 4,

Art. No.: CD011244.

Kaul, A. and Wolf, M. "The (Possible) Effect of Plain Packaging on Smoking Prevalence in Australia: A

Trend Analysis," University of Zurich Department of Economics Working Paper, June 2014.

I note that the Diethelm and Farley (2015) sample size is wrongly listed as 700,000 on p. 4 of the Cochrane

Review.

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age, gender, education, income level, and region, and changes in the

sample composition that may have occurred over time.

iii.

In addition to ignoring all demographic variables, the Diethelm and Farley

(2015) article also omitted other key determinants of smoking prevalence

rates. Cigarette prices are not included in the model. Excise tax rates are

ignored except in terms of a single tax shift. Also, the nonlinear nature of

the smoking prevalence rates before the advent of plain packaging is not

taken into account.

iv.

The net impact of these flaws is that this study lacks any scientific

credibility. The deficiencies I cited are not minor limitations nor matters

of a difference of opinion, but are fundamental problems that make it

inappropriate to rely on their study.

I note that the Cochrane Review graded the quality of the Diethelm and

Farley (2015) paper as “low” (p.4), which is an assessment I believe

nevertheless actually overstates the quality of the paper for the reasons

stated above.

Had the Cochrane Review also taken into account the

factors I cite above, the article’s value would be below the rating of “low,”

as it should not be regarded as having any scientific merit at all.

My examination of the outputs of each of the CITTS and NTPPTS datasets also indicates

that the published articles analyzing these data are disturbing from the standpoint of

academic integrity and are highly misleading. Rather than provide an unbiased

assessment of the survey results, the studies present selected findings that purport to

Diethelm and Farley (2015) faulted the study by Kaul and Wolf, which discarded the first 42 months of

observations because they were not consistent with a linear trend. However, Diethelm and Farley (2015)

do not present any statistical tests supporting the validity of a linear trend.

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demonstrate the efficacy of the 2012 Packaging Changes policy which a more thorough

analysis of the data shows is misleading.

In particular, these studies have ignored

substantial evidence from the same Australian datasets they purport to analyze; which

evidence is consistent with a lack of efficacy of the 2012 Packaging Changes and

underscores the point that the post-implementation publications analyzing these data have

selectively and misleadingly presented the results they do present. Viewed in their

entirety, the datasets consistently indicate that the 2012 Packaging Changes are not

associated with any reduction in smoking behaviors. Empirical assessments are biased if

a researcher only cites the results that portray a policy in a positive light and fails to

report the evidence that indicates not only a lack of a favorable impact, but also rather

important counterproductive effects.

A comprehensive analysis of a broader set of

questions in the CITTS and NTPPTS datasets leads to the conclusion that on balance the

2012 Packaging Changes policy is not working.

10.

The fact that these articles are peer reviewed does not provide any assurance that the

analyses and conclusions of the papers are valid. I have served for three decades as the

founding editor of a peer-reviewed journal and have been on the editorial boards of 20

other peer-reviewed journals. Peer review only means that one or more persons in the

field has reviewed the article and has recommended publication of it. The peer reviewers

do not generally have access to the data used in the article to replicate the study.

Reviewers typically only read the article to assess whether the methodology and findings

appear to be sound and novel contributions. Other researchers who have access to the

original data often can undertake a more thorough analysis than in a peer review, as I

have done with the data that I have reviewed.

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11.

Similar to my review of the data, the only consistent evidence that the recent Cochrane

Review of the Plain Packaging literature found was that Plain Packaging was associated

with a decrease in the appeal of the pack. However, the responses to these questions

could be a result of the increase in the size of the warning to 75% that result in the packs

being dominated by graphic health warnings, rather than Plain Packaging. Indeed the

Cochrane Review highlights the high risk of confounding in these studies given that Plain

Packaging was introduced alongside enhanced health warnings in Australia making it

difficult to isolate the effects of Plain Packaging. For studies that focused on the effects

of Plain Packaging on actual behavioral outcomes, including smoking prevalence and

consumption, the Cochrane Review concluded that the confidence in the findings was

“limited, due to the nature of the evidence available” and that the evidence was “mixed.”

The Cochrane Review also noted that: "[n]o studies assessed uptake, cessation, or relapse

prevention"(p. 2). The results of many of the studies on other intermediate outcomes were

also limited and mixed so that there is no consistent evidence of Plain Packaging being

effective across a large number of variables. The Cochrane Review concludes that "[t]he

available evidence suggests that standardised packaging may reduce smoking prevalence"

(p. 2), which itself doesn't demonstrate the efficacy of Plain Packaging. In addition,

based on my review of the actual data emanating from Australia and critical analysis of

the published papers on this data, which the Cochrane Review did not undertake, the

overwhelming evidence across all the datasets is not consistent with the 2012 Packaging

Changes being effective in reducing smoking, while there is also evidence consistent with

the policy being counterproductive on many of the intermediate or secondary measures

that are relied upon to promote Plain Packaging.

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12.

The Australian Government Post-Implementation Review Tobacco Plain Packaging 2016

report (the "PIR") provided an inadequate and incorrect assessment of the effect of the

2012 Packaging Changes on smoking. The PIR’s only statistical evidence of the effect of

the 2012 Packaging Changes is based on the flawed report by Dr. Chipty. What is also

striking is that the PIR did not review the implications of the NTPPTS and CITTS data

with respect to smoking prevalence and consumption.

The PIR merely relies on

published papers without any critique or review of those papers. Based on my review of

the papers and the underlying NTPPTS and CITTS datasets, I conclude that they cannot

be relied upon. There is not a sound basis for the PIR’s conclusion (p. 4): “[i]n light of all

this evidence, the PIR concludes that tobacco plain packaging is achieving its aim of

improving public health in Australia and is expected to have substantial public health

outcomes in the future.” The PIR’s reference to “all this evidence” is especially

inappropriate because the cited studies did not report all the evidence from the NTPPTS

and CITTS datasets, but only the selected results that provide the most favorable

perspective on the performance of plain packs. In addition, as noted above my extended

analysis of the RMSS data and the CITTS data which is the most extensive data analysis

undertaken to date (and includes 15 months of additional data to the analysis undertaken

by Dr Chipty) confirms that Plain Packaging has not been effective, as the statistical

association of the 2012 Packaging Changes with smoking prevalence rates cannot be

distinguished from zero. This result further demonstrates that the conclusion reached in

the PIR is unjustified.

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III.

13.

ROY MORGAN RESEARCH DATA

The most extensive set of individual survey data on smoking prevalence in Australia are

the RMSS data from Roy Morgan Research. This independent firm employs a large

nationally representative Australian sample using cross-sectional surveys to generate

survey data on individuals aged 14 and over regarding their smoking status, where

interviewers are dispatched weekly and all areas are covered monthly.

The data have

been used in previous peer-reviewed published research to obtain estimates of smoking

prevalence in Australia.

14.

Previous reports have provided analyses of the effect of Plain Packaging on smoking

prevalence in Australia using the RMSS data, including:

A non-peer-reviewed report prepared for the Australian Department of Health by

Dr. Tasneem Chipty, which analyzed the RMSS data from January 2001 to

September 2015, and concluded based on a regression analysis that during the

period after the implementation of the 2012 Packaging Changes in Australia

through to September 2015, smoking prevalence rates declined by 0.55

percentage points relative to what the prevalence would have been without the

2012 Packaging Changes;

and

Diethelm and Farley (2015) which assessed the effect of Plain Packaging on

smoking prevalence in Australia using the RMSS data for adults (aged 18+) for

For details of how Roy Morgan Research collects the RMSS data see Roy Morgan Research. "How we

collect and process Single Source data in Australia". Available from:

http://www.roymorgan.com/products/single-source/single-source-fact-sheets,

accessed 2 May 2017.

See Wakefield MA, Durkin S, Spittal MJ, Siahpush M, Scollo M, Simpson JA, et al. "Impact of tobacco

control policies and mass media campaigns on monthly adult smoking prevalence" Am J Public Health.

2008;98:1443-50. doi: 10.2105/AJPH.2007.128991; and Wakefield MA, Coomber K, Durkin SJ, Scollo M,

et al. "Time series analysis of the impact of tobacco control policies on smoking prevalence among

Australian adults," 2001-2011. Bull World Health Organ 2014; 92:413-422 doi: 10.2471/BLT.13.118448.

Dr. Tasneem Chipty, "Study of the Impact of the Tobacco Plain Packaging Measure on Smoking

Prevalence in Australia," Report of Dr. Tasneem Chipty, January 24, 2016, supra at footnote 5.

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the period from January 2001 to December 2013 (one year after mandatory full

implementation of PP in Australia) and found a statistically significant reduction

of smoking prevalence of 3.7% following the introduction of Plain Packaging in

Australia.

I note that the recently published Cochrane Review of the Plain

Packaging literature notes that this paper is the only peer-reviewed published

paper that assesses the impact of Plain Packaging on smoking prevalence in

Australia.

15.

In this report I present an analysis of a larger Roy Morgan Research sample that includes

a longer post-2012 Packaging Changes time period than that provided in Diethelm and

Farley (2015), and in the report of Dr. Chipty. I also present analysis of the time period

considered in Dr. Chipty’s report to facilitate a comparison of the results. The starting

date for my Roy Morgan Research data is January 2001, which is the same as that of

Diethelm and Farley (2015) and Dr. Chipty's report. However, the data I analyze extend

through December 2016, thus providing 3 years of additional data in the post-2012

Packaging Changes period than was addressed in Diethelm and Farley (2015) and 15

additional months of data in the post-2012 Packaging Changes period than was

considered in the report of Dr. Chipty, making my analysis the most up to date available.

According to Dr. Chipty, the inclusion of the new data should lead to even larger

estimates of the effect of plain packs as she hypothesizes, “the benefits of the Packaging

Changes will likely grow over time.”

Analysis of RMSS Data

McNeill A, Gravely S , Hitchman SC, Bauld L, Hammond D, Hartmann-Boyce J. "Tobacco packaging

design for reducing tobacco use". Cochrane Database of Systematic Reviews 2017, Issue 4. Art. No.:

CD011244. DOI: 10.1002/14651858.CD011244.pub2.

Chipty Report, p. 3.

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16.

Here I provide a detailed analysis of the RMSS data on smoking prevalence rates. The

principal matter of interest is the effect of the 2012 Packaging Changes in Australia on

smoking prevalence rates based on a regression analysis of whether the respondent is a

smoker as a function of pertinent demographic and policy variables. My assessment of

the RMSS data is patterned generally after that in the report of Dr Chipty. The table

below lists the extensive set of demographic and locational variables from the RMSS data

that I include in my multivariate regression analysis for which the detailed estimates

appear in Appendix A. My variables address the same range of demographic influences

as in Dr. Chipty’s report, though there are a few minor differences. For example, I use

continuous measures of age and income rather than a large series of categorical variables

for different age and income categories.

Explanatory Variables Used in Regressions

Variable

Female

Marital status, single

Marital status, divorced

Marital status, widowed

Marital status, separated

Student

Years of education

Age

Non-adults (14-17)

Employed full time

Retired

Income (thousands)

Income, multiple household members

Bread winner

Mean

0.5181

0.2422

0.0818

0.0781

0.0370

0.0238

12.34

47.46

0.0575

0.5524

0.0111

47.63

0.4162

0.6502

Std. Dev.

0.4997

0.4284

0.2741

0.2683

0.1887

0.1525

3.18

19.30

0.2328

0.4972

0.1048

40.93

0.4929

0.4769

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Household size

Home owner

Victoria

Queensland

South Australia

Western Australia

Tasmania

Darwin-Alice Springs

Lives in capital city

17.

2.7263

0.6812

0.2300

0.1985

0.0780

0.0950

0.0481

0.0101

0.5812

1.3806

0.4660

0.4208

0.3988

0.2681

0.2932

0.2139

0.1001

0.4934

The principal differences between my analysis and Dr. Chipty’s, as I discuss below, are

with respect to the following matters. First, I include different measures of cigarette

prices in the equation to account for the important economic dependence of smoking

behavior on the cost of cigarettes. Second, my analysis accounts for the nonlinear trend

in smoking prevalence rates and includes a statistical test of the importance of

nonlinearity, whereas Dr Chipty assumes without any testing that the trend is linear.

Thirdly, my analysis also accounts for the continuous changes in cigarette excise tax rates

rather than focusing on the major increases alone. As I discuss below, if the analysis

correctly includes either a measure of cigarette prices or a nonlinear trend, or both of

these influences, then the estimated statistical association of the 2012 Packaging Changes

with smoking prevalence rates is zero. The only sound conclusion based on this evidence

is that the 2012 Packaging Changes are not associated with any change in smoking

prevalence rates.

18.

I begin with an analysis of the RMSS data time period used in Dr. Chipty’s report and

excluding October and November 2012 from the sample. As noted above, my variables

address the same range of demographic influences as do Dr. Chipty’s, with only a few

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minor differences. In addition to these variables, I have constructed a series of policy-

related variables based on the different time periods relating to the policies noted above.

These include indicator variables for the 2006 graphic warnings policy and the 2012

Packaging Changes as well as measures of consumer prices and the recommended retail

price of cigarettes. I capture the effect of the cost of cigarettes in several separate ways.

First, I use indicator variables for the major excise tax eras indicated in the table above.

However, as I discuss further below in my critique of the report of Dr. Chipty, this

formulation ignores the continuous nature of excise tax changes and also ignores the level

of the taxes. Second, instead of these indicator variables I include a variable for the level

of excise taxes per pack, in real inflation-adjusted terms. This measure accounts for both

the excise tax level embodied in the major excise tax increases and also recognizes the

periodic updates of the excise taxes during the year. Third, as a measure of the cost of

cigarettes I have used two different measures of the total cigarette prices, not simply the

excise tax component. The first cost variable is the overall consumer price index (CPI),

which is a measure of general price trends in the economy, not just the cost of cigarettes.

I also use a more cigarette-specific price measure, which is the recommended retail price

per pack for Craven Cork Tip 20s cigarettes. This data is provided in Scollo, and

Winstanley, "Tobacco in Australia: Facts and Issues," where the authors explain that

Craven is a longstanding brand in Australia and one of a handful of brands available in

1940 that is still available in 2016.

Scollo, and Winstanley also provide recommended

See table 13.3.1 in Section 13.3 in Scollo, MM and Winstanley, MH. "Tobacco in Australia: Facts and

issues". Melbourne: Cancer Council Victoria; 2016. Available from

www.TobaccoInAustralia.org.au.

recognize that the actual cost per pack may be different due to the influence of discounting. However, if

discounting policies are consistent across time, the retail price will differ from the discounted price by a

multiplicative constant, leaving the statistical significance of the estimated impact of prices unaffected.

Even if discounting policies change over time, recommended retail prices will be strongly correlated with

actual prices as evidenced by the negative effect of prices on smoking prevalence rates.

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retail price data for Winfield 25s which they state is a popular Australian brand, and I

obtained similar results using these data in results which are not reported here.

19.

For simplicity I report here only the estimates for the 2012 Packaging Changes policy

variable. Representative regression results for my full sample appear in Appendix A. The

table below summarizes 10 different ways in which the model could be formulated—

whether the model includes a linear or nonlinear trend and the formulation of the

cigarette cost variables using indicator variables, the excise tax level, the overall

consumer price index, the retail price per pack for Craven 20 cigarettes, and an

instrumental variables (IV) version of the Craven 20 measure to account for the possible

mutual dependence of cigarette prices and smoking prevalence.

In 8 of the 10 estimates

reported below, it is not possible to reject the hypothesis that the coefficient for the 2012

Packaging Changes in the smoking prevalence rate equation is zero. The estimated

coefficient is statistically indistinguishable from zero for all models including a nonlinear

time trend or either a linear or nonlinear time trend but also including the consumer price

index, the Craven 20 price level, or the IV version of the Craven 20 prices. It is only by

ignoring both the nonlinearity of the smoking prevalence trend and the role of prices, as

Dr. Chipty does, that it is possible to generate non-zero statistically significant 2012

Packaging Changes coefficient. Given the strong correlation of the nonlinear trend

variable and the nonlinear trend in cigarette prices, including both these variables is not

needed to eliminate the statistical significance of the 2012 Packaging Changes. Thus, the

only two estimates below that can be distinguished from zero assume a linear time trend

and use either indicator variables or the cigarette excise tax as a proxy for cigarette

prices, which as explained below is unjustified.

The instruments used to predict the Craven 20 price are the consumer price index and the excise tax levels.

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Estimates of the 2012 Packaging Changes Coefficient for Equations Using

the Chipty Sample

2012 Packaging Changes Variable

Equation characteristics

Tax policy indicators and linear time trend

Tax policy indicators and nonlinear time trend

Cigarette tax levels and linear time trend

Cigarette tax levels and nonlinear time trend

Consumer price index and linear time trend

Consumer price index and nonlinear time trend

Cost per pack and linear time trend

Cost per pack and nonlinear time trend

IV cost per pack and linear time trend

IV cost per pack and nonlinear time trend

Notes:

Significance levels: *0.10, **0.05, ***0.01

Coefficient

–0.0062 ***

–0.0029

–0.0050 ***

–0.0012

–0.0026

–0.0004

–0.0027

–0.0006

–0.0024

–0.0006

Standard Error

0.0021

0.0026

0.0015

0.0024

0.0022

0.0023

0.0021

0.0023

0.0022

0.0023

20.

Similar results are found for the entire RMSS data time period extending through

December 2016. The Roy Morgan Research sample that I use includes 857,355

observations from January 2001 through December 2016. Here I report results not

excluding October and November 2016 from the sample and using December 2012 as the

2012 Packaging Changes starting date. As indicated in Appendix A, the results are

similar when using October 1 as the starting date, December 1 as the starting date, or

December 1 as the starting date but discarding the October and November 2012 data. As

with the results above, the 2012 Packaging Changes variable is negative and statistically

significant in only 2 of the 10 equations. However, in the other specifications, the 2012

Packaging Changes coefficient is substantially reduced and is never statistically

significant. The estimated effect of the 2012 Packaging Changes is always

indistinguishable from zero if the model includes a nonlinear trend term or includes a cost

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measure based on the overall CPI, the recommended retail price of Craven 20 cigarettes,

or an IV version of the Craven 20 variable.

Estimate of the 2012 Packaging Changes Coefficient for Equations Using

the Full Sample

2012 Packaging Changes Variable

Equation characteristics

Tax policy indicators and linear time trend

Tax policy indicators and nonlinear time trend

Cigarette tax levels and linear time trend

Cigarette tax levels and nonlinear time trend

Consumer price index and linear time trend

Consumer price index and nonlinear time trend

Cost per pack and linear time trend

Cost per pack and nonlinear time trend

IV cost per pack and linear time trend

IV cost per pack and nonlinear time trend

Notes:

Significance levels: *0.10, **0.05, ***0.01

Coefficient

–0.0061***

–0.0030

–0.0058***

–0.0019

–0.0029

–0.0013

–0.0032

–0.0015

–0.0029

–0.0015

Standard Error

(0.0021)

(0.0026)

(0.0018)

(0.0023)

(0.0021)

(0.0022)

(0.0021)

(0.0022)

(0.0021)

(0.0022)

21.

Using a Roy Morgan Research RMSS dataset that includes an additional 15 months of

data not included in Dr. Chipty's report should have led to larger estimates of the effect of

2012 Packaging Changes if the impact of the policy is increasing over time, as Dr. Chipty

hypothesizes. What I find instead is that the estimated effect is not distinguishable from

zero if one correctly recognizes either the nonlinear nature of the time trend or the impact

of cigarette prices on smoking prevalence rates.

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Critique of Previous Analyses of RMSS Data

Report of Dr. Tasneem Chipty entitled “Study of the Impact of the Tobacco Plain

Packaging Measure on Smoking Prevalence in Australia” (24 January 2016).

22.

The report of Dr. Chipty was commissioned by the Australian Department of Health and

is the only econometric analysis of data that is relied on in the Australian Government's

Post Implementation Review Report. I also understand that it has been cited by a number

of other regulators and proponents of Plain Packaging to support claims that the policy

has been successful in reducing smoking.

23.

The report focuses on the effect of policy changes in Australia on the probability that

members of the RMSS sample report are smokers. As noted above, Dr. Chipty

acknowledges that it is not possible to separately identify the effects of tobacco plain

packaging from those of the updated and enlarged graphic health warnings which

Australia implemented at the same time. As such, Dr. Chipty's analysis, as well as the

analysis in my report, encompasses the estimated effects of Plain Packaging and the

updated and enlarged graphic health warnings (which Dr. Chipty also refers to as the

2012 Packaging Changes). Dr. Chipty’s multivariate regression analysis controls for

demographic factors, a linear time trend, and various tax increases and other policy shifts.

24.

The principal matter of interest for this analysis is the estimated effect of the 2012

Packaging Changes. Dr. Chipty’s model captures this influence with an indicator variable

that takes on a value of 1 from December 1, 2012 through 2015, and a value of zero

otherwise. Her particular 2012 Packaging Changes variable excludes the transition period

See e.g. U.S. National Cancer Institute and World Health Organization.

The Economics of Tobacco and

Tobacco Control.

National Cancer Institute Tobacco Control Monograph 21. NIH Publication No. 16-CA-

8029A. Bethesda, MD: U.S. Department of Health and Human Services, National Institutes of Health,

National Cancer Institute; and Geneva, CH: World Health Organization; 2016.

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of October and November 2012 during which plain packs began to appear in the

Australian market, so that the variable has a value of 0 through September 2012, with a

value of 1 starting in December and the months of October and November excluded from

the analysis. In Appendix A, I report representative parallel results using an October 1

start date, a December 1 start date, or a December 1 start date but excluding the October

and November transition period from the analysis altogether, as does Dr. Chipty. The

results are similar in all these cases. Dr. Chipty’s indicator variable for the 2012

Packaging Changes is intended to capture shifts in smoking rates with the advent of the

2012 Packaging Changes. Smoking behavior will, of course, also be affected by other

factors such as the cost of cigarettes. Dr. Chipty's analysis seeks to isolate the effect of

the 2012 Packaging Changes on smoking prevalence rates by including indicator

variables for different excise tax eras, notably the increases in excise taxes in 2010, 2013,

and 2014. Similar to the indicator variable for the 2012 Packaging Changes, these

variables take on a value of 0 in the years before the excise tax increase and 1 in those

years and thereafter. In my analysis above, I also present models that avoid this

undesirable variable overlap by using continuous measures of prices and taxes.

25.

The following table lists the different policy events affecting smoking. In Dr. Chipty's

analysis each of the events leads to an indicator variable with a value of 0 before the

event and 1 after the policy event. For Dr. Chipty's report, that ends with data from

September 2015, the analysis includes four overlapping 0-1 indicator variables beginning

in 2010: from 2010 through 2015 for excise taxes, from 2012 through 2015 for the 2012

Packaging Changes, from 2013 through 2015 for excise taxes, and from 2014 through

2015 for excise taxes. Given the overlapping nature of the construction of her variables

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that fall just short of having an indicator for every year, any conclusions drawn from her

analysis are highly speculative. Dr. Chipty’s procedure is not wrong from a statistical

analysis standpoint, but the use of multiple time period indicators provides very limited

insight into the separate effects of the 2012 Packaging Changes policy. In particular,

there is only a single year in which the 2012 Packaging Changes indicator variable’s

effect is not also confounded with other policy shifts.

Moreover, any lag time in

behavioral responses to policy changes due, for example, to the difficulty of quitting

cigarettes, will tend to lead to smoking prevalence shifts from the earlier excise tax

increases that extend over multiple periods, thus contaminating the purported effect

associated with subsequent time period indicators.

Relevant Policy Changes During Period of Dr. Chipty's Analysis

Year

2006

2010

2012

2013

2014

26.

Policy

Graphic warning labels on cigarette packages (Jan. 1)

Tax increase, 25% per pack (May)

Plain packaging of cigarette packs and increase in graphic health warnings

from 30% to 75% of the front of pack (Oct. 1 begin / Dec. 1 full)

Tax increase, 12.5% per pack (Dec.)

Tax increase, 12.5% per pack (Sept.)

The policy change summary above and the chart below indicate the year overlaps and the

difficulties they create. Excise tax increases in 2010 may have an impact in reducing

smoking cessation rates in 2012, creating a confounded effect along with any impact of

the 2012 Packaging Changes and the possibility of attributing an association with the

2012 Packaging Changes where there isn't one. Similarly, the influence of the 2012

Packaging Changes that is captured with an indicator variable starting in December 2012

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spans a period that includes subsequent cigarette excise tax increases. The only year in

which the 2012 Packaging Changes are introduced but no new excise tax measure is

introduced is 2012.

The overlapping nature of Dr Chipty's indicator variables leads to

results that suggest statistically that the analysis may be capturing general time trends due

to the impact of excise taxes rather than effects correlated with the role of the 2012

Packaging Changes.

Dr. Chipty’s Indicator Variables Specification

Year

Policy

Excise Tax 2010

2012 Packaging

Changes

Excise Tax 2013

Excise Tax 2014

2009

2010

2011

2012

2013

2014

2015

27.

Dr. Chipty’s use of indicator variables for the major tax increases is also a crude

empirical approach that generates a source of error in the treatment of taxes. The reliance

on the indicator variables fails to recognize the continuous nature of excise tax levels,

which are updated periodically for inflation. From 2001 through September 2015 (the

period of Dr Chipty's analysis), cigarette excise tax levels in Australia had 32 different

values.

My excise tax variable accounts for the level of excise taxes throughout my

More specifically, if the full implementation of the 2012 Packaging Changes was in December 2012, and

the 2013 excise tax was introduced in December 2013, the time period in which the 2012 Packaging

Changes alone is the incremental change is from December 2012 to November 2013. My analysis accounts

for the monthly policy changes, but for simplicity, the chart above focuses on years.

See table 13.2.3 of Scollo, M, Bayly, M. 13.2 "Tobacco taxes in Australia". In Scollo, MM and Winstanley,

MH [editors]. "Tobacco in Australia: Facts and issues". Melbourne: Cancer Council Victoria; 2016.

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estimation period, more accurately characterizes the tax rate than simply identifying the

major tax increase periods, and avoids the use of overlapping indicator variables.

28.

The chart below also indicates the nature of Dr. Chipty's analysis and its fundamental

shortcomings with respect to her analysis of temporal factors. As illustrated, there is a

pronounced decline over time in smoking prevalence rates. Smoking prevalence rates

over time may be affected by factors other than those explicitly captured by variables in a

regression model. Progressive changes in public space smoking restrictions, differences

across different population cohorts in attitudes toward smoking, and the rising role of

vaping as an alternative to smoking are among the time-related variables that may not be

accounted for in a regression model. To incorporate the role of omitted temporal factors,

researchers may include variables reflecting the time period. However, there is no

theoretical basis for assuming a particular temporal relationship as Dr. Chipty has done,

as it might be linear or nonlinear. The proper form is an empirical question which Dr.

Chipty doesn't consider. In estimates reported in Appendix A, I report multivariate

regression equations including both time and time squared in the analysis.

The

statistically significant coefficient on the time squared variable is the statistical test that

shows that the temporal trend in smoking prevalence rates is consistent with the time

trend being nonlinear. Contrary to Dr. Chipty’s analysis, one can reject the hypothesis

that the trend is linear.

29.

Using data from the pre-2012 Packaging Changes period, I have fitted a nonlinear

temporal relationship to the data indicated by the gray curve, focusing solely on the

relationship between smoking propensities and time as well as time squared. The curve

Thus, for example, for the first month of data in the RMSS sample the value of Time would be 1, in the

second month it would be 2, the third month would be 3, etc. The value of Time squared is just the square

of this value, or 1, 4, 9, etc.

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fitting the pre-2012 Packaging Changes data generates the illustrated post-2012

Packaging Changes projections that track the overall trend nicely.

Thus, there is no

discontinuous shift in the trajectory of smoking prevalence rates once one takes into

account the nonlinear trend in smoking prevalence rates that already existed before the

advent of the plain packs policy. My conclusion that there is no discontinuous shift in

smoking prevalence rates that took place in 2012 is also consistent with findings by other

researchers using a different statistical approach.

30.

A graphical analysis indicates the mistaken conclusions that will be generated by

assuming that an underlying nonlinear trend is linear. Imposition of a linearity

assumption when the underlying trend is nonlinear will always result in the projected

values of smoking rates exceeding the actual future levels. This phenomenon can be

illustrated using a variety of different time periods which, according to Dr. Chipty’s

logic, would indicate a shift in smoking prevalence rates, whereas in fact no shift has

occurred, only a continuation of the underlying nonlinear trend.

The equation is a regression of the 0-1 smoking prevalence variable on a constant term, time in months, and

time squared in months, where the smoking probability = 0.24 – 1.32E-4 time – 1.76E-6 time squared,

where all coefficients are statistically significant at the 0.05 level or better.

Lilico, A. (2016). "Analysis of the Chipty Report’s Conclusions Regarding Packaging Changes and

Smoking Prevalence in Australia", August 30, 2016, available at

http://www.jti.com/about-tobacco/key-

regulatory-submissions/.

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25%

24%

23%

2012

Smoking Prevalence

22%

21%

20%

19%

18%

17%

16%

15%

2001

2002

2003

2004

2005

2006

2007

2008

2009

2010

2011

2012

2013

2014

2015

Date

31.

Dr. Chipty's analysis assumes a linear trend indicated by the blue line in the chart, which

she estimated for the time period up to the 2012 Packaging Changes. As her analysis

points out, this linear trend line does not predict the post- 2012 Packaging Changes trend,

which exhibits an additional drop after the advent of the 2012 Packaging Changes. She

then attributes the unexplained drop in smoking prevalence rates to the impact of the

2012 Packaging Changes. That there is a shift if one assumes that trends must be linear is

illustrated by the green line, which is Dr. Chipty’s linear trend line using only post-2012

Packaging Changes data. The blue line and the green line have clearly different slopes,

indicating a purported drop in smoking prevalence rates associated with the 2012

Packaging Changes. However, one can generate other possible purported policy effects

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for any time period in the chart since the underlying trend is nonlinear. Similar linear

trend lines such as the red trend line based on the first 3 years of data indicate an

unpredicted drop in smoking prevalence rates thereafter, as does the purple linear trend

line based on the first 6 years of data, and the 9-year trend line in yellow. The

“unexplained” departures from the trend lines occur because a linear trend line does not

properly capture the nonlinear trend. Capturing any nonlinear relationship with a linear

trend line as Dr. Chipty does, will lead to an unexplained subsequent apparent “policy

impact” that is spurious, as it is not an effect associated with the policy but instead

reflects an underlying nonlinear trend.

32.

While there are multiple factors that could contribute to such a nonlinear trend such as

progressive restrictions on public smoking and cohort effects as the population changes

over time, an additional influence is the rising cost of cigarettes. The figure below

indicates the recommended retail price trajectory for Craven 20 cigarettes, which has

undergone a steep nonlinear increase, reflecting in part the influence of multiple boosts in

the excise tax rate. The nonlinear nature of the price hikes is consistent with the nonlinear

decline of smoking prevalence rates. Any increases in the non-monetary costs of

smoking, such as the convenience costs arising from smoking restrictions, would

reinforce such influences.

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Price of a Pack of Craven 20 Cigarettes Over Time

33.

Three principal results from the RMSS data analysis are apparent in both the analysis of

the extended dataset that I used as well as in my analysis of the shorter time period

considered in Dr. Chipty’s report. First, if one properly recognizes that the temporal trend

is nonlinear rather than linear (i.e., by including a quadratic time trend term), that

reformulation alone accounts for the downward trend in smoking rates without there

being any additional downward shift associated with the 2012 Packaging Changes.

Second, even with only a linear trend, reasonable specifications of the model using either

overall consumer prices or continuous measures of the recommended retail price of

cigarettes rather than the excise tax indicator variables approach used by Dr. Chipty

eliminates the statistical significance of the 2012 Packaging Changes variable. Third,

even if there were a purported association of the 2012 Packaging Changes with the

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decline in smoking prevalence rates based on Dr. Chipty's analysis, one should be

skeptical of the import of these results. Her statistical analysis ignores the multiple

changes in excise tax rates and includes four overlapping indicator variables for the 2010

to 2015 period in which there is only a single year in which the 2012 Packaging Changes

are introduced without any other new smoking policies also being introduced. Attributing

the decline in smoking prevalence rates to the 2012 Packaging Changes as opposed to the

excise tax increases, both before and after the advent of the 2012 Packaging Changes

policy, is not warranted. While the final concern may reflect a difference in statistical

approaches, the first two shortcomings are fundamental. Dr. Chipty’s failure to consider

the pivotal role of prices on smoking behavior and the underlying nonlinear trend in

smoking prevalence rates have generated the mistaken conclusion that the 2012

Packaging Changes are associated with an unexplained drop in smoking prevalence rates.

ii.

34.

Diethelm and Farley (2015)

The article by Diethelm and Farley (2015) analyzed the average monthly smoking

prevalence rates in the RMSS data which they derive from a research paper by Kaul and

Wolf.

They did not use any original RMSS data but instead relied on visual inspection

of the figure in Kaul and Wolf to impute 156 monthly smoking prevalence rates. Because

they have no individual respondent data, their analysis includes no demographic

variables. As a result, changes in sample composition over time, such as the age and

income level of respondents, are ignored. Similarly, there are no controls for different

Pascal A Diethelm, Timothy M Farley, “Refuting tobacco-industry funded research: empirical data shows a

decline in smoking prevalence following the introduction of plain packaging in Australia,” Tob. Prev.

Cessation 2015;1(November):6

http://dx.doi.org/10.18332/tpc/60650.

Kaul, A. and Wolf, M. "The (Possible) Effect of Plain Packaging on Smoking Prevalence in Australia: A

Trend Analysis" University of Zurich Department of Economics Working Paper, June 2014.

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Australian state territories so that the mix of the sample across states and any state-

specific smoking-related policies are not taken into account and may be incorrectly

attributed to the 2012 Packaging Changes. The only explanatory variables included in

the regression analysis reported in the paper are a linear time trend, an indicator variable

for the 2010 excise tax increase, an indicator variable for smoke-free policies, and a plain

packaging indicator variable. Even setting aside the omitted demographic and regional

variables, the equation is a very 'bare-bones' specification. The many other excise tax

changes, cigarette prices, and the nonlinear smoking prevalence trend are all omitted.

The recent Cochrane Review notes the nonlinearity in the smoking prevalence trend but

claims that the “additional covariates” in Diethelm and Farley (2015) address the

nonlinearity. This claim is simply not true since their specification includes only two

policy indicator variables and no variables that capture the evident nonlinearity in the

trend apart from these shifts.

35.

The impact of the limitations and flaws in the Diethelm and Farley (2015) paper is that

this study lacks any scientific credibility. The deficiencies I cite above are not minor

limitations or matters of a difference of opinion, but are fundamental problems that make

it inappropriate to rely on their study. The paper has no scientific merit at all.

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IV.

36.

IMPLICATIONS OF THE CITTS DATA

Overview of the CITTS Data

The CITTS data that I analyze consists of cross-sectional telephone data utilizing a

sample of 17,468 adult smokers and recent quitters (people who quit smoking in the past

12 months). The CITTS data (and the NTPPTS data) only include smokers and recent

quitters, so they cannot be used to assess the effect of the 2012 Packaging Changes on

smoking prevalence. However, these data provide valuable insights into smoking-related

behaviors of smokers and recent quitters, which is clearly an important target group of

the policy. The survey also includes a number of variables relating to the perceptions of

the 2012 Packaging Changes by this group even setting aside issues pertaining to the

efficacy of these ‘intermediate’ variables in predicting actual smoking behaviors. The

CITTS is undertaken in New South Wales, which is the most populous state in Australia.

Further details of this survey are provided in the paper by Dunlop et al. (2014).

The

sample analyzed by Dunlop et al. focused on smokers interviewed between April 2006

and May 2013, which includes only six months of data post the implementation of PP in

Australia. My sample through June 2016 adds an additional 37 months and 2,045

observations to the sample, which takes it through June 2016 (i.e., 3 1/2 years of data post

the implementation of the 2012 Packaging Changes in Australia).

Accordingly, the

analysis I present here is the most up to date analysis of this dataset.

Sally M. Dunlop, Timothy Dobbins, Jane M. Young, Donna Perez, and David C. Currow, “Impact of

Responses: Results from a Continuous Tracking Survey,"

BMJ Open

2014; 4(12): e005836;

As noted above, I have previously addressed the CITTS data in reports that I submitted for British

American Tobacco in October 2015 in UK legal proceedings in which the 2012 packaging change

regulation was being challenged, and in November 2015 in relation to the Australian Government

Department of Health Post-Implementation Review (PIR) of the Tobacco Plain Packaging Act 2011 (TPP).

In this report, in addition to using a larger sample, I also undertake new analyses using more detailed

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37.

The 2012 Packaging Changes took full effect in Australia on December 1, 2012. October

and November of that year were a transition period in which some packs began to

conform to the 2012 packaging change format. To streamline the exposition below, I only

report results in the main body of the report using the December 1, 2012 starting date for

the 2012 Packaging Changes. Results reported in Appendix B indicate that the results are

stable using other policy starting dates.

38.

The sampling procedure for the CITTS survey changed in 2013, as recruitment of

respondents changed to include mobile phone users instead of only landline users.

As a

result, my analysis of the CITTS data draws on the findings using multiple regression

analyses in which there is a statistical control for the mobile phone recruitments in the

sample as well as detailed set of demographic variables.

39.

Many of the CITTS data questions are in the form of qualitative Likert rating scales in

which some measures are rated on a scale from 1 to 5 (strongly disagree, somewhat

disagree, neither, somewhat agree, strongly agree), where 1 equals strongly disagree and

5 equals strongly agree. These qualitative scales do not provide a basis that permits a

comparison either within or across people since the cut-off between these categories will

vary across individuals and across questions so that the distinctions are not very

meaningful. For example, there is no way of knowing whether person A’s score of a 4 for

pack attractiveness implies a lower or higher level of attractiveness than person B’s score

of 3. Similarly, we cannot tell if a drop of a score from 4 to 2 is twice the size as a

decrease from 4 to 3. Accordingly, focusing on only one set of extreme responses, such

as shifts in the “strongly agree” category, will distort the assessment of the implications

controls than in my previous assessments. In my previous reports I controlled for cell phone usage and

time trends, but the current report also includes controls for a detailed demographic variables.

Cancer Institute NSW’s Tobacco Tracking Survey (CITTS) Research Plan 2013-2014 at page 11.