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Abstract
Background:
Some pregnant smokers try e-cigarettes, but effectiveness and safety of such use are unknown.
Objectives:
To compare effectiveness and safety of nicotine patches and e-cigarettes in pregnancy.
Design:
A pragmatic multi-centre randomised controlled trial.
Setting:
Twenty-three hospitals across England, and a Stop Smoking Service in Scotland.
Participants:
One thousand one hundred and forty pregnant daily smokers (12–24 weeks’ gestation) motivated to stop smoking, with no strong preference for using nicotine patches or e-cigarettes.
Interventions:
Participants in the e-cigarette arm were posted a refillable e-cigarette device with two 10 ml bottles of tobacco-flavoured e-liquid (18 mg nicotine). Participants in the nicotine patches arm were posted a 2-week supply of 15 mg/16-hour nicotine patches. Supplies were provided for up to 8 weeks. Participants sourced further supplies themselves as needed. Participants in both arms received support calls prior to their target quit date, on the quit date, and weekly for the next 4 weeks.
Outcome measures:
The primary outcome was validated prolonged abstinence at the end of pregnancy. Participants lost to follow-up or not providing biochemical validation were included as non-abstainers. Secondary outcomes included self-reported abstinence at different time points, treatment adherence and safety outcomes.
Results:
Only 55% of self-reported abstainers mailed back useable saliva samples. Due to this, validated sustained abstinence rates were low (6.8% vs. 4.4% in the e-cigarettes and nicotine patches arms, respectively, risk ratio = 1.55, 95% confidence interval 0.95 to 2.53; Bayes factor = 2.7). In a pre-specified sensitivity analysis that excluded abstainers using non-allocated products, the difference became significant (6.8% vs. 3.6%, risk ratio = 1.93, 95% confidence interval 1.14 to 3.26; Bayes factor = 10). Almost a third of the sample did not set a target quit date and the uptake of support calls was low, as was the initial product use. At end of pregnancy, 33.8% versus 5.6% of participants were using their allocated product in the e-cigarettes versus nicotine patches arm (risk ratio = 6.01, 95% confidence interval 4.21 to 8.58). Regular use of e-cigarettes in the nicotine patches arm was more common than use of nicotine replacement products in the e-cigarette arm (17.8% vs. 2.8%).
Rates of adverse events and adverse birth outcomes were similar in the two study arms, apart from participants in the e-cigarette arm having fewer infants with low birthweight (<2500 g) (9.6% vs. 14.8%, risk ratio = 0.65, 95% confidence interval 0.47 to 0.90; Bayes factor = 10.3).
Limitations:
Low rates of validation reduced the study power. A substantial proportion of participants did not use the support on offer sufficiently to test its benefits. Sample size may have been too small to detect differences in less frequent adverse effects.
Conclusions:
E-cigarettes were not significantly more effective than nicotine patches in the primary analysis, but when e-cigarettes use in the nicotine patches arm was accounted for, e-cigarettes were almost twice as effective as patches in all abstinence outcomes. In pregnant smokers seeking help, compared to nicotine patches, e-cigarettes are probably more effective, do not pose more risks to birth outcomes assessed in this study and may reduce the incidence of low birthweight.
Future work:
Routine monitoring of smoking cessation and birth outcomes in pregnant women using nicotine patches and e-cigarettes and further studies are needed to confirm these results.
Trial registration:
This trial is registered as ISRCTN62025374 and Eudract 2017-001237-65.
Funding:
This project was funded by the National Institute for Health and Care Research (NIHR) Health Technology Assessment programme and will be published in full in Health Technology Assessment; Vol. 27, No. 13. See the NIHR Journals Library website for further project information.
Plain language summary
Like many other smokers in the UK, some pregnant smokers try to limit or stop smoking with the help of e-cigarettes. It is not known whether this helps with stopping smoking and whether using e-cigarettes has any bad effects on the baby.
We recruited 1140 pregnant smokers who wanted to quit. A random half were given nicotine patches, which are commonly used to help smokers quit. The other half were given an e-cigarette. They also received six weekly phone calls to support them in stopping smoking. We then looked at how many in each group stopped smoking by the end of pregnancy.
More women stopped smoking in the group that was given an e-cigarette, but the difference was small and could be due to chance. However, some of the women in the nicotine patch group who had successfully stopped smoking were using e-cigarettes rather than patches. When these (and women in the e-cigarette group who used patches) were not counted, e-cigarettes helped almost twice as many women stop smoking than patches.
E-cigarettes were better than patches in preventing low birthweight (having babies who weigh less than 2.5 kg). Otherwise, women given patches and those given e-cigarettes (and their babies) had similar numbers of medical complications.
For pregnant women who smoke and need help to quit, e-cigarettes are probably more helpful than nicotine patches, and do not pose any additional risks to women or their babies.
Contents
- Scientific summary
- Chapter 1. Introduction
- Chapter 2. Methods
- Chapter 3. Outcomes
- Primary outcome
- Secondary smoking status outcomes
- Adherence outcomes
- Safety measures and health outcomes
- Data collection and entry
- Sample size
- Randomisation
- Treatment blinding
- Statistical methods
- Participant withdrawal
- Patient and public involvement
- Study approvals and trial conduct
- Quality control
- Saliva analysis
- Chapter 4. Results
- Chapter 5. Discussion
- Acknowledgements
- References
- Appendix 1. Example of study adverts
- Appendix 2. E-cigarette use instructions
- Appendix 3. Effects of COVID-19 lockdown on study data
- Appendix 4. Additional smoking cessation outcomes
- Appendix 5. Additional data on product use
- Appendix 6. Birth outcomes including twin births (nine in the arm and four in the arm)
- Appendix 7. Serious adverse events and AEs that occurred only once or twice
- List of abbreviations
About the Series
Disclosure of interests of authors
Full disclosure of interests: Completed ICMJE forms for all authors, including all related interests, are available in the toolkit on the NIHR Journals Library report publication page at https://doi
Primary conflicts of interest: Linda Bauld is on the Public Health Research (PHR) Research Funding Board. Peter Hajek received research funding from and provided consultancy to Pfizer Inc. (New York, NY, USA). Hayden McRobbie received honoraria for speaking at smoking cessation meetings and attending advisory board meetings that have been organised by Pfizer Inc. Felix Naughton received consultancy fees from ResMed for a project that he led, designing an app that provided smoking behaviour change advice and connected to a novel inhaled nicotine replacement therapy device, although the company did not/does not make the nicotine device. Peter Sasieni is an unpaid chair of a Trial Steering Committee for Yorkshire Cancer Research (YESS) and holds Cancer Research UK grants and National Institute for Health and Care Research (NIHR) Clinical Trials Unit Support Funding. Lesley Sinclair was awarded funding for the Cessation in Pregnancy Incentives Trial (CPIT).
Article history
The research reported in this issue of the journal was funded by the HTA programme as project number 15/57/85. The contractual start date was in May 2017. The draft report began editorial review in October 2021 and was accepted for publication in September 2022. The authors have been wholly responsible for all data collection, analysis and interpretation, and for writing up their work. The HTA editors and publisher have tried to ensure the accuracy of the authors’ report and would like to thank the reviewers for their constructive comments on the draft document. However, they do not accept liability for damages or losses arising from material published in this report.
Last reviewed: October 2021; Accepted: September 2022.
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