Waterpipe tobacco smoking prevalence and illegal underage use in waterpipe-serving premises: a cross-sectional analysis among schoolchildren in Stoke-on-Trent

Waterpipe tobacco smoking prevalence and illegal underage use in waterpipe-serving premises: a cross-sectional analysis among schoolchildren in Stoke-on-Trent

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Available online at www.sciencedirect.com

Public Health journal homepage: www.elsevier.com/puhe

Original Research

Waterpipe tobacco smoking prevalence and illegal underage use in waterpipe-serving premises: a cross-sectional analysis among schoolchildren in Stoke-on-Trent M. Jawad a,*, C. McIver b a b

Public Health Policy Evaluation Unit, Imperial College London, Hammersmith, W6 8RP, United Kingdom Department of Public Health, Stoke-on-Trent City Council, Stoke-on-Trent, ST4 1HH United Kingdom

article info

abstract

Article history:

Objectives: Waterpipe tobacco smoking has received little epidemiological and policy

Received 16 August 2016

attention in the UK despite reports of increasing prevalence alongside an anecdotally non-

Received in revised form

compliant industry. This study aimed to determine how waterpipe tobacco smoking is

14 December 2016

changing among young people in the UK, both in terms of prevalence and sociodemo-

Accepted 18 December 2016

graphic correlates of use, and to quantify the extent of illegal underage use in waterpipeserving premises in the UK. Study design: Repeat cross-sectional.

Keywords:

Methods: A secondary analysis of two cross-sectional surveys (total N ¼ 3376), conducted in

Waterpipe

2013 and 2015 among secondary school students aged 11e16 years in Stoke-on-Trent,

Shisha

measured lifetime (both surveys) and regular (at least monthly; 2015 survey only) water-

Hookah

pipe tobacco prevalence and location of usual use. Logistic regression models measured

Tobacco

the association between independent variables (age, sex, ethnicity, presence of free school

Smoking

meals, cigarette smoking status) with lifetime and regular waterpipe tobacco use, and with

Legislation

illegal underage use; the latter defined as usually smoking waterpipe tobacco in a

Policy

waterpipe-serving premise. Results: Lifetime waterpipe tobacco prevalence remained similar in 2013 (13.7%, 95% confidence interval [CI] 12.0e15.4%) and 2015 (14.6%, 95% CI 12.8e16.4%), whereas regular use was measured at 2.9% (95% CI 2.1e3.8%) in 2015. Older, non-white, males who concurrently used cigarettes had higher odds of lifetime waterpipe tobacco use. Illegal underage use was reported among 27.1% of all regular users, correlates of which included increasing age and South Asian ethnicity. The presence of free school meals was not associated with lifetime or regular waterpipe tobacco prevalence, nor illegal underage use. Conclusions: Increased monitoring of waterpipe tobacco prevalence and patterns, including the underage policy compliance of waterpipe-serving premises, is needed to help inform policy decisions to control waterpipe tobacco use. © 2017 The Royal Society for Public Health. Published by Elsevier Ltd. All rights reserved.

* Corresponding author. http://dx.doi.org/10.1016/j.puhe.2016.12.028 0033-3506/© 2017 The Royal Society for Public Health. Published by Elsevier Ltd. All rights reserved.

p u b l i c h e a l t h 1 4 6 ( 2 0 1 7 ) 3 2 e3 8

Introduction Waterpipe tobacco smoking is a centuries-old practice where charcoal-heated tobacco smoke passes through a multistemmed, water-containing instrument before inhalation. It has been dubbed a ‘global epidemic’ given high prevalence estimates worldwide:1e3 in areas of Eastern Europe, over 20% of secondary school students have tried waterpipe tobacco in the past 30 days; a figure reaching over 30% for secondary school students in Lebanon and the West Bank.4 High prevalence of use is secondary to widespread social acceptability, accessibility of waterpipe-serving premises and affordability. Central to a reduced harm perception is the false belief that its smoke is safely filtered by the water at the base of the instrument;5 a fallacy that has been since disproven after the identification of significant quantities of tar, nicotine, carbon monoxide and other carcinogens in waterpipe tobacco smoke.6e9 As a combustible tobacco product, waterpipe tobacco has, expectedly, been shown to be associated with an array of tobacco-related diseases, including cancers of the lung and oropharynx, cardiovascular diseases and other respiratory conditions.10,11 Despite this, waterpipe tobacco has been given relatively little attention in the United Kingdom (UK), both epidemiologically and legislatively. The first prevalence study in the UK was published in 2008, reporting that 8.0% of students in one university were regular waterpipe tobacco users, and nearly 40% were lifetime users.12 Since then studies have been largely confined to non-nationally representative populations, such as local surveys among school students13,14 and university students,15,16 with lifetime waterpipe tobacco prevalence estimates ranging from 24% to 66%. No longitudinal or repeat cross-sectional studies on waterpipe tobacco prevalence have been conducted on young people in the UK. One large repeat cross-sectional online survey of adults in Great Britain (England, Wales and Scotland only) reported that 11.6% of adults had ever smoked waterpipe tobacco and that 1.0% smoked waterpipe tobacco at least monthly, with nonsignificant differences in prevalence between 2012 and 2013 .17 In this study, higher odds of use were seen among younger males of non-white ethnicities and higher socioeconomic groups. Despite reports of high prevalence in selected population groups, the UK has been slow to respond legislatively. While waterpipe tobacco is not exempt from any of the UK's tobacco laws, which are among the strongest in Europe,18 there have been numerous reports of difficulty in applying these laws to waterpipe-serving premises.19,20 A classic example is enforcing indoor public smoking bans on a product which is smoked for approximately an hour in duration, in a country with a generally cold climate. Another is enforcing health warning labels on the tobacco-packed apparatuses, often cumbersome and large, which are presented to customers at such premises.20 Illegal underage consumption is also a concern; whereas the legal age for tobacco purchases in England and Wales was increased from 16 to 18 years old in 2007, qualitative reports from law enforcers suggest illegal underage use is commonplace in waterpipe-serving premises,20 but this has not been quantified.

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In light of the lack of waterpipe prevalence data among young people in the UK, and the lack of research attention given to illegal underage use in waterpipe-serving premises, this study has two main aims. First, we aimed to determine how waterpipe tobacco prevalence is changing among young people, both in terms of prevalence and sociodemographic correlates of use. Second, we aimed to quantify the extent of illegal underage use in waterpipe-serving premises.

Methods Design, sample, setting This study was a secondary analysis of two cross-sectional surveys conducted in 2013 and 2015 among secondary school students aged 11e16 years in Stoke-on-Trent, one of the most deprived cities in the United Kingdom. Both surveys used similar methodological designs, in which all schools in Stoke-on-Trent were invited to participate. In the 2015 survey, fourteen secondary schools, two Pupil Referral Units and four Special Schools were invited to participate, of which six secondary schools agreed to take part. The main reasons given by schools declining to take part in the survey were lack of time and competing priorities (such as upcoming government inspections and regulatory visits). Two schools gave no response to the invitation. More details on the 2013 survey methodology can be found elsewhere.21

Questionnaire and measures The Stoke-on-Trent Young People's Lifestyle Survey was designed through a multi-partner consultation which included local schools, the Schools Health Education Unit, the National Health Service and the local government. Some questions were developed locally while others were taken from previously validated surveys. The 2013 survey contained 62 questions and the 2015 survey contained 64 questions; these were organised into six themes: tobacco use, food and drink, alcohol and drugs, emotional wellbeing, sexual health and sociodemographic questions. In both years, waterpipe tobacco prevalence was gathered using the following question: ‘have you ever smoked ‘shisha’ (also known as a ‘waterpipe’)?’ In 2013, the response options were ‘no/don't know/yes', whereas in 2015 the response options were ‘I have never smoked shisha/I have tried shisha once or twice/I use them sometimes (more than once a month)/I use them often (more than once a week)’. The 2015 survey also included an image of a waterpipe apparatus next to this question. Both surveys also asked ‘Where do you smoke it [waterpipe]?’ as a follow on question, and response options were ‘at home/at school/in a shisha bar or lounge/at a friend's house/other’. The primary outcome measures were lifetime waterpipe use (ascertained by answering ‘yes’ to the 2013 waterpipe tobacco prevalence question, and anything except ‘I have never smoked shisha’ for the 2015 waterpipe tobacco prevalence question), and regular waterpipe use, ascertained by answering positively to smoking either more than once a month or more than once a week in the 2015 survey. Independent variables included age (reported as a continuous

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variable from 11 to 16 years), sex, ethnicity (22 categories taken from the UK census, including ‘I don't know’ and ‘I don't want to say’), the presence of free school meals (yes/no/don't know/don't want to say) and lifetime (ever) and current (occasional or regular) cigarette use. The presence of free school meals was used as a proxy measure for low socioeconomic status.

Statistical analysis Ethnicity was recoded into three categories: white (white British, Irish, Traveller of Irish heritage, Romany or Gypsy, Polish and other white background), South Asian (British Asian, Indian Asian, Pakistani Asian, Bangladeshi Asian and any other Asian background) and other (mixed backgrounds, black backgrounds, other backgrounds not listed and those reporting ‘I don't know’ and ‘I don't want to say’). Free school meals was categorised into three categories: no, I don't know/I don't want to say, and yes. Categorical data were described using frequencies and percentages, and continuous data were described using means and standard deviations. Sample characteristics were descriptively reported, with independent sample ttests and Chi-squared tests to test the differences between both surveys' sample characteristics. Sample characteristics were also descriptively reported by waterpipe status (lifetime or regular). Two multi-variable logistic regression models assessed the association of the independent variables (age, sex, ethnicity, free school meals, current cigarette use) with each outcome measure (lifetime or regular waterpipe tobacco use). In the model reporting lifetime use, both the 2013 and 2015 samples were combined. In the model reporting regular use, only the 2015 sample was used. Due to the anonymised nature of the data repeat responders could not be identified. These models reported adjusted odds ratios (AORs) and 95% confidence intervals (95% CIs) and used age as a continuous variable rather than categorical. To assess illegal underage use, we measured the prevalence of regular waterpipe tobacco use by smoking location, then a final multi-variable logistic regression model assessed the association of the independent variables with usual waterpipe smoking location being at a shisha bar/ lounge, which for the purposes of this study is our measure of ‘illegal underage use’ given all respondents were under 18 years old.

Results Sample characteristics Both surveys had over 1500 respondents each, from which the pooled mean age was 13.5 ± 1.5 years, 48.0% were male, 83.2% were white, 18.2% reported having free school meals and the prevalence of lifetime and current cigarette use was 20.8% and 6.9%, respectively. Table 1 shows the sample characteristics for each survey. These were broadly similar however after statistical testing, the 2015 sample was found to be significantly older than the 2013 sample (13.3 vs 13.7 years, P < 0.001), have a lower proportion of white respondents

(85.2% vs 81.0%, P < 0.01) and a lower proportion of those reporting free school meals (21.0% vs 15.4%, P < 0.001).

Waterpipe tobacco prevalence Lifetime waterpipe prevalence remained similar in 2013 (13.7%, 95% CI 12.0e15.4%) and 2015 (14.6%, 95% CI 12.8e16.4%). In 2015, regular waterpipe use was measured at 2.9% (95% CI 2.1e3.8%). Table 2 shows sample characteristics by waterpipe tobacco status. The main difference in lifetime waterpipe prevalence between the two surveys was found for sex: while males reported lifetime waterpipe use more than females in 2013 (16.8% vs 10.9%), this appeared more balanced in 2015 (14.9% vs 14.0%). Otherwise, for both lifetime and regular use, waterpipe prevalence increased with age, nonwhite ethnicities and cigarette use. For example, in 2015 regular waterpipe prevalence was 5.5% among those aged 16 years compared with 1.6% among those aged 11 years, and 12.0% among lifetime cigarette users compared with 0.7% among never cigarette users. In adjusted logistic regression models (Table 3), the odds of lifetime waterpipe tobacco use increased by 45% for every year of age (AOR 1.45, 95% CI 1.34e1.59). Odds of lifetime use were also higher for males (AOR 1.48, 95% CI 1.17e1.86) non-White ethnicities (e.g. South Asian vs White: AOR 3.25, 95% CI 2.36e4.47) and current cigarette use (AOR 7.22, 95% CI 5.23e9.96). The odds of regular waterpipe tobacco smoking increased by 40% for every year of age (AOR 1.40, 95% CI 1.09e1.80). Odds of regular use were also higher for current cigarette users (AOR 8.87, 95% CI 4.16e18.91). For both measures of waterpipe use, no association was seen for free school meals.

Table 1 e Sample characteristics. Characteristic

Total Age 11 years 12 years 13 years 14 years 15 years 16 years Sex Female Male Ethnicity White South Asian Other Free school meals No Don't know/don't want to say Yes Lifetime cigarette use No Yes Current cigarette use No Yes

2013

2015

N

%

N

%

1772

100.0

1604

100.0

176 368 433 394 230 146

10.1 21.1 24.8 22.6 13.2 8.4

135 289 263 400 257 233

8.6 18.3 16.7 25.4 16.3 14.8

897 875

50.6 49.4

830 723

53.4 46.6

1490 147 112

85.2 8.4 6.4

1275 168 132

81.0 10.7 8.4

1320 63 368

75.4 3.6 21.0

1268 65 242

80.5 4.1 15.4

1324 375

77.9 22.1

1233 298

30.5 19.5

1576 123

92.8 7.2

1469 104

93.4 6.6

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Table 2 e Waterpipe tobacco smoking by sample characteristics. Characteristic

2013

2015

Lifetime waterpipe users

Total Age 11 years 12 years 13 years 14 years 15 years 16 years Sex Female Male Ethnicity White South Asian Other Free school meals No Don't know/don't want to say Yes Lifetime cigarette use No Yes Current cigarette use No Yes

Age Sex Female Male Ethnicity White South Asian Other Free school meals No Don't know/don't want to say Yes Current cigarette use No Yes

Regular waterpipe users

N

%

N

%

N

%

221

13.7

214

14.6

43

2.9

1 13 51 51 66 35

0.7 3.9 13.1 14.3 29.7 25.9

8 15 23 68 50 49

6.5 5.6 9.7 18.5 21.4 22.6

2 2 2 14 10 12

1.6 0.8 0.8 3.8 4.3 5.5

90 131

10.9 16.8

97 109

14.9 14.0

20 20

2.6 3.1

166 41 11

12.1 31.8 11.6

161 29 21

13.7 18.5 18.6

31 5 5

2.6 3.2 4.4

165 12 40

13.6 20.0 12.4

167 8 35

14.3 13.3 16.1

32 3 7

2.7 5.0 3.2

90 115

7.4 33.3

94 109

8.2 38.5

8 34

0.7 12.0

146 59

10.1 52.2

164 45

12.1 45.5

27 16

2.0 16.2

Table 3 e Correlates of regular waterpipe tobacco use (2015 sample only) and lifetime waterpipe tobacco use (2013 and 2015 pooled samples). Characteristic

Lifetime waterpipe users

Regular waterpipe users

Table 4 e Regular waterpipe tobacco use by location of use (2015 sample only). Location

Lifetime waterpipe users

AOR

95% CI

AOR

95% CI

1.40

1.09, 1.80**

1.45

1.34, 1.59***

1.00 1.22

0.63, 2.39

1.00 1.48

1.17, 1.86**

1.00 2.20 2.48

0.79, 6.15 0.88, 6.98

1.00 3.25 1.70

2.36, 4.47*** 1.10, 2.62*

1.00 1.15

0.24, 5.38

1.00 1.10

0.62, 1.94

1.20

0.50, 2.87

0.94

0.69, 1.27

1.00 8.87

4.16, 18.91***

1.00 7.22

5.23, 9.96***

Abbreviations: AOR, adjusted odds ratio; CI, confidence interval. *P < 0.05, **P < 0.01, ***P < 0.001.

Friend's home No Yes Home No Yes Shisha bar/lounge No Yes School No Yes Other No Yes

Regular waterpipe users N

%

18 22

13.3 40.7

31 7

18.8 35.0

26 13

18.2 27.1

16 22

14.0 29.3

28 10

21.1 18.5

However, the prevalence of regular waterpipe tobacco use was the highest in friend's homes (40.7%) and own homes (35.0%) than in shisha bars/lounges (27.1%).

Location of waterpipe tobacco smoking

Underage use

Table 4 shows regular waterpipe tobacco use prevalence, as a proportion of all waterpipe tobacco users, by location of usual use. The prevalence of regular waterpipe tobacco use was higher in all reported locations except the ‘other’ location.

Table 5 presents the correlates of illegal underage shisha bar/ lounge use. For every 1 year increase in age, the odds of illegal underage use increased by 36% (AOR 1.36, 95% CI 1.14e1.62). The odds of illegal underage use were also higher among

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Table 5 e Correlates of illegal underage shisha bar/lounge use pooled across both samples. Characteristic

Age Sex Female Male Ethnicity White South Asian Other Free school meals No Don't know/don't want to say Yes Current cigarette use No Yes

Illegal underage shisha bar/lounge use AOR

95% CI

1.36

1.14, 1.62**

1.00 1.20

0.78, 1.84

1.00 2.99 0.83

1.65, 5.42*** 0.35, 1.94

1.00 0.83 0.76

0.29, 2.39 0.43, 1.32

1.00 1.80

1.09, 2.99*

Abbreviations: AOR, adjusted odds ratio; CI, confidence interval. *P < 0.05, **P < 0.01, ***P < 0.001.

South Asians (vs White, AOR 2.99, 95% CI 1.65e5.42) and current cigarette users (AOR 1.80, 95% CI 1.09e2.99).

Discussion Main findings This study among 11- to 16-year-old secondary school students in Stoke-on-Trent showed that nearly one in seven had tried waterpipe tobacco smoking, with no significant change in use between 2013 and 2015, and that 3% were regular users. Waterpipe tobacco use was associated with increasing age, males, non-white ethnicities and current cigarette use, but not the presence of free school meals, our proxy measure for low socioeconomic status. Our correlates of use are largely in line with the reports from the US22 and Europe.4 Regular use was highest in those reporting usual smoking locations being friends' or own homes, although over a quarter of lifetime users reported illegal underage use, which was more apparent among older and South Asian students.

Previous literature To the best of knowledge, there are no published national surveys of waterpipe tobacco prevalence among young people in the UK, however similar school-based surveys in London report a higher lifetime prevalence (24.0e39.6%)13,14 than our sample (13.7e14.6%). This difference may be due to the higher proportion of non-White students in London, who are most likely to use waterpipe tobacco, or the extremely high number of waterpipe-serving premises (approximately 400) in known operation there.20 Online cross-sectional surveys among adults in Great Britain in 2012 and 2013 showed 11.6% had tried waterpipe tobacco, and there was little variation between the two years.17 In the absence of longitudinal data, the existing evidence may therefore suggest waterpipe tobacco

smoking prevalence is plateauing in the UK, but longitudinal studies are needed to confirm or refute this. The 2015 wave of a yearly multiple cross-sectional survey of school students in the US also suggests a plateau in waterpipe tobacco use (at around 7%);23 however, continual rising rates have been documented in several Arab countries24,25 and Sweden.26 Our findings on illegal under age use in waterpipe-serving premises are informative to health policy makers. Studies from the US and UK have shown that educational establishment proximity to waterpipe-serving premises are an independent predictor of waterpipe use.14,27,28 While this suggests that such premises should be a focus of policy intervention, our findings showed that regular use is more highly reported in domestic settings. This corroborates with qualitative research from university students who report smoking in commercial waterpipe premises can be expensive and less accessible than domestic use28,29 and lends itself to the need for a multi-faceted policy approach that goes beyond simply stronger enforcement of waterpipe-serving premises. Illegal underage use in waterpipe-serving premises has been previously identified in London, both from surveys among young people14 and law enforcers.20 In addition to accessibility, affordability and acceptability, reasons for this are likely to include the attraction towards flavoured tobacco,30 the general lack of tobacco legislation compliance from the waterpipe tobacco industry,20 and ritualistic aspects of waterpipe tobacco use.31 It is important to note that waterpipe-serving premises are not homogenousdsome resemble loud club-like environments, whereas others resemble quiet coffee shops.31 Further research should identify which types, if any, young people are particularly attracted to, and interventions to kerb such use.

Implications Given a quarter of lifetime waterpipe users report illegal underage use, this calls into question the degree of tobacco legislation self-enforcement in waterpipe-serving premises. Such premises are required to display a statutory notice explaining that it is illegal to sell tobacco products to under 18s; however, qualitative reports with law enforcers in London suggest waterpipe-serving premises are deliberately and recurrently non-compliant with such regulations.20 Turkey and several Gulf countries have zoning laws in place to prohibit the sale of waterpipe tobacco within a certain distance of educational establishments in a bid to kerb youth waterpipe tobacco smoking.19 Research evaluating tobacco control policy on waterpipe tobacco smoking behaviour are lacking32 and should be considered a research priority in this field. This study has other research implications. Research should explore how the location and frequency of waterpipe tobacco smoking changes over time. Whether students are introduced to waterpipe tobacco at commercial premises then transition to regular waterpipe tobacco smoking at home remains unknown. This has implications for tobacco control policy: an emphasis on enforcing policy on commercial premises may simply be offset by increased home use.29 Better quality epidemiological data concerning prevalence of use and surveillance of waterpipe-serving premises are also needed.

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Limitations The sampling method may be affected by selection bias; schools whose staff believe tobacco smoking is an issue for them may be more likely to agree to take part in this survey. However, our sample characteristics are broadly representative of the local population.21 Due to the low number of regular waterpipe tobacco users, statistical analysis may be underpowered to detect important associations; this may have been the case looking at the association between ethnicity and regular waterpipe tobacco use, which displayed a high odds ratio (greater than 2) but non-significant associations due to wide confidence intervals. Tobacco use prevalence is selfreported and may be prone to measurement bias (underreporting); however, self-reported tobacco use is known to correlate well with biochemical markers such as serum cotinine.33 Finally, given we could not identify data repeat responders from the anonymised data sets, students may have been double counted for the lifetime pooled analyses shown in Tables 3 and 5; however, we believe this to be minimal.

Conclusions Nearly one in seven students in this sample have tried waterpipe tobacco smoking, of which a quarter report illegal underage use in waterpipe-serving premises. Increased monitoring of waterpipe tobacco prevalence and of waterpipe-serving premises is required with a view to generate more policy evaluation in this public health area.

Author statements

5.

6.

7.

8.

9. 10.

11.

12.

13.

14.

Ethical approval Data from this study were taken from routine health survey data and as such ethical approval was not required.

Funding

15.

16.

None.

Competing interests

17.

None declared.

references

18. 19.

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