Abstinence Rate, Adverse Events and Withdrawal Symptoms after Varenicline Use and Predicting Factors of Smoking Abstinence: A Multicentre Single-State Study in Malaysia

Choo, Shea Jiun; Chang, Chee Tao; Tangiisuran, Balamurugan; Latif, Mohd Faiz Abdul; Sanusi, Nor Aida; Harun, Sabariah Noor

doi:10.3390/ijerph19137757

Open AccessArticle

Abstinence Rate, Adverse Events and Withdrawal Symptoms after Varenicline Use and Predicting Factors of Smoking Abstinence: A Multicentre Single-State Study in Malaysia

by

Shea Jiun Choo

^1,2,*,†,

Chee Tao Chang

^3,*,†

,

Balamurugan Tangiisuran

¹

,

Mohd Faiz Abdul Latif

⁴,

Nor Aida Sanusi

⁵ and

Sabariah Noor Harun

¹

School of Pharmaceutical Sciences, Universiti Sains Malaysia, Gelugor 11800, Malaysia

²

Pharmacy Department, Hospital Taiping, Ministry of Health Malaysia, Taiping 34000, Malaysia

³

Clinical Research Centre, Hospital Raja Permaisuri Bainun, Ministry of Health Malaysia, Ipoh 30450, Malaysia

⁴

Taiping Health Clinic, Ministry of Health Malaysia, Taiping 34000, Malaysia

⁵

Perak Pharmaceutical Services Division, Ministry of Health Malaysia, Ipoh 31250, Malaysia

^*

Authors to whom correspondence should be addressed.

^†

These authors contributed equally to this work.

Int. J. Environ. Res. Public Health 2022, 19(13), 7757; https://doi.org/10.3390/ijerph19137757

Submission received: 11 April 2022 / Revised: 30 May 2022 / Accepted: 30 May 2022 / Published: 24 June 2022

(This article belongs to the Special Issue Tobacco Smoke Exposure and Tobacco Product Use)

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Abstract

:

(1) Background: Varenicline is a widely prescribed agent in smoking cessation. However, the abstinence rate, the incidence of adverse events and withdrawal symptoms, have not been widely studied locally. This study aimed to determine the prevalence of smoking abstinence, adverse events and withdrawal symptoms associated with varenicline use, as well as possible factors contributing to successful smoking abstinence. (2) Methods: This was a retrospective, cohort study conducted in twenty-two government-operated smoking cessation clinics across the state of Perak, Malaysia. The medical records of adult smokers (age ≥ 18 years old) who were prescribed with varenicline between January 2017 and June 2018 were traced. The medical records of smokers who used pharmacotherapy other than varenicline, those who received less than four weeks of varenicline treatment, and with missing data were excluded. (3) Results: Sixty-eight out of 114 subjects (59.6%) successfully achieved smoking abstinence. Probable varenicline-induced chest pain was documented in three subjects. Altered behaviour (n = 2) and auditory hallucinations (n = 1) were also reported. Varenicline treatment duration is a significant predictive factor for successful smoking abstinence (odds ratio (OR) = 2.45; 95% confidence interval (CI) 1.74–3.45; p < 0.001), followed by age (OR = 1.25; 95% CI 1.005–1.564; p = 0.045), the presence of adverse events (OR = 0.096; 95% CI 0.014–0.644; p = 0.016) and withdrawal symptoms (OR = 0.032; 95% CI 0.016–0.835; p = 0.032). (4) Conclusion: Almost two-thirds of the subjects achieved smoking abstinence with varenicline. The duration of the treatment, as well as the patients’ ages had a significant influence on successful smoking abstinence. Rare cases of cardiovascular and neuropsychiatric-related adverse events were reported, warranting continuous surveillance and adverse drug reaction reporting.

Keywords:

varenicline; smoking cessation; treatment outcome; Malaysia

1. Introduction

Smoking remains a major public health problem in Malaysia. The prevalence of smokers in Malaysia was 22.8 percent in 2015 [1], and it was estimated that nearly 5.3 million Malaysians ages 15 years and older smoked [2]. Malaysia needs to reduce the prevalence of smoking to 15 percent by the year 2025 in order to achieve the World Health Organisation’s (WHO) non-communicable diseases global target [3]. However, Malaysia is projected to fail to reach the global target for reducing tobacco use [2]. Based on the Malaysian Global Adult Tobacco Survey (GATS) report in 2011, only nine percent of the smokers used pharmacotherapy in their attempts to quit. The majority attempted to quit without assistance and proper guidance, which might contribute to the low smoking cessation rate [4]. Hence, expanding the coverage of services that help people quit smoking is one of the approaches taken by the health authority to promote successful smoking cessation [4].

Varenicline is a partial agonist and blocks the nicotinic acetylcholine receptor, inhibits nicotine stimulation of the dopaminergic system [5]. In 2011, varenicline was introduced and approved for smoking cessation by the Malaysian Ministry of Health. As an alternative to nicotine replacement therapy (NRT), varenicline is prescribed to smokers who are treated under the government-operated smoking cessation clinics. Previous studies showed that varenicline has more favourable odds in achieving abstinence of six months or longer when compared to NRT monotherapy and bupropion [6,7,8].

Despite varenicline’s superiority, the U.S. Food and Drug Administration (FDA) issued a public health advisory to alert smokers, caregivers and healthcare professionals about the risks of varenicline causing neuropsychiatric and cardiovascular adverse events, as demonstrated in 2008 and 2011, respectively [9,10]. The FDA warning was subsequently removed based on the findings from later studies in 2012 and 2016 [11,12]. Nevertheless, healthcare professionals are constantly reminded to monitor patients for neuropsychiatric and cardiovascular adverse events and to weigh the risks against the benefits when prescribing varenicline.

Varenicline is a widely prescribed agent in the government-run smoking cessation clinic, also known as the Quit Smoking Clinic in Malaysia. Within the local context, the choice of nicotine replacement therapies or varenicline was primarily guided by the National Clinical Practice Guidelines for Treatment of Tobacco Use Disorder [13], followed by its availability, efficacy, safety, suitability and cost, and the final decision was made based on consensus between the clinician and patient. However, the abstinence rate, and the incidence of adverse events and withdrawal symptoms, as well as smoker characteristics related to successful smoking cessation with varenicline use, have not been widely studied locally. Moreover, no study has been done to determine the association between the occurrence of adverse events and withdrawal symptoms and smoking cessation outcomes. This study aimed to determine the prevalence of smoking abstinence, adverse events and withdrawal symptoms associated with varenicline use, as well as possible factors contributing to successful smoking abstinence.

2. Materials and Methods

2.1. Study Design and Population

This was an observational, retrospective cohort study, conducted in 22 government-operated smoking cessation clinics covering seven out of 12 districts in the Perak state of Malaysia. The study population comprised smokers who registered and followed up at the selected government-operated quit smoking clinics, which included those who were referred for smoking cessation and walk-in smokers who wished to quit voluntarily.

We used The National Clinical Practice Guidelines for Treatment of Tobacco Use Disorder as a guide for patient recruitment into the varenicline treatment [13]. Briefly, all patients who first visited the quit smoking clinics would be asked about their smoking status, including the number of cigarettes smoked per day and previous attempts to quit. Subsequently, advice to quit and assessment on the willingness to make a quit attempt was performed by the clinician. For patients who were willing to quit, counselling would be provided on the available pharmacotherapy agents, and follow-up was scheduled within the first week after the quit date. For patients who were not ready to quit, a motivational interview was conducted to explore reasons for unwillingness to quit, and explaining risks and rewards of quitting smoking.

All medical records of adult smokers (age ≥ 18 years old) who were prescribed varenicline as pharmacotherapy for smoking cessation between January 2017 and June 2018 were traced. The medical records (including abstinence and adverse events) were traced according to the quit smoking clinic visits schedule, at a bi-weekly time-point during the first 12 weeks (Week-2, 4, 6, 8, 10, 12) and four-weekly thereafter (Week-16, 20, 24). Medical records of smokers who used pharmacotherapy other than varenicline for smoking cessation, of those who received less than four weeks of varenicline treatment, and of those who had missing data were excluded.

The sample size was calculated using a Raosoft sample size calculator. Based on an abstinence rate of 47 percent [14], with a five percent margin of error and a 95 percent confidence level, the calculated sample size needed was 150 subjects.

2.2. Investigated Variables

Demographic characteristics of the subjects, along with their smoking history and behaviour, were extracted from the medical records into a standardised data collection form derived from variables in the smoking cessation clinic record booklet. Data on cardiovascular, neuropsychiatric-related and other adverse events, as well as withdrawal symptoms, were collected based on the doctor’s documentation in the follow-up booklet at the smoking cessation clinic.

The prevalence of smoking abstinence was derived by dividing the number of smokers who received varenicline and achieved smoking abstinence (self-reported, at least 2 weeks) by the total number of smokers receiving varenicline treatment [15]. Continuous abstinence was defined as the length of abstinence between quit time and a follow-up date [16].

The number of cigarettes smoked per day, the age the patients started smoking and their attempts to quit smoking were based on the smokers’ self-reporting during their visits at the clinic. The Fagerstrom score was used to assess the intensity of their physical addiction to nicotine, with 0–3 being low dependence, 4–5 being moderate dependence and 6–10 being high dependence [17].

Readiness to quit comprised four stages: (i) precontemplation: not planning to quit smoking within the next six months; (ii) contemplation: considering quitting within the next six months; (iii) preparation: planning to quit within the next 30 days; and (iv) action: having successfully quit for less than six months. Those at the precontemplation and contemplation stages were classified as not ready to quit, while those at the preparation and action stages were categorised as ready to quit.

2.3. Statistical Analysis

All the data collected were analysed using SPSS version 24 (Armonyx, NY, USA). Demographic characteristics, smoking behaviour and history, and abstinence rate, as well as incidence of adverse events and withdrawal symptoms, were analysed using descriptive analysis, presented in frequencies and percentages for categorical variables. Continuous data were described as mean and standard deviation. The chi-squared test or Fisher’s exact test was used to explore associations between varenicline treatment outcomes and smokers’ characteristics. Predictive effects of demographic characteristics and smokers’ behaviour and history, which may contribute to smoking abstinence, were analysed using univariate and multiple logistic regression. Variables with p < 0.25 in univariate analysis were entered into the multivariate regression model. The level of statistical significance for all the data presented was set at p < 0.05.

3. Results

3.1. Smoking Abstinence

A total of 245 medical records of smokers prescribed with varenicline for smoking cessation were screened. The 103 smokers who received varenicline for less than four weeks and 28 smokers with missing data were excluded. Eventually, a total of 114 smokers were included in the final analysis. Most of the smokers were male (n = 104, 91.2%), and more than half were Malays (n = 70, 61.4%). The mean age of the smokers was 46 ± 14.4 years, ranging from 21 to 78 years old. Most of the smokers had at least one comorbid condition (n = 69, 60.5%) and 39.5% (n = 45) reported no known medical illness. The most prevalent comorbidities were diabetes mellitus, followed by hypertension and dyslipidaemia (Table 1).

The mean duration of smoking was 26.6 ± 14.9 years. The number of smokers with high nicotine dependence (n = 44, 38.6%) was comparable to that of those with low nicotine dependence (n = 42, 36.8%). More than half of the smokers were prepared and took action to quit (n = 81, 71%), whereby most had attempted smoking cessation (n = 79, 69.3%). Situational factor (after meal; n = 89, 78.1%) was the most common trigger that stimulated smoking behaviour, followed by mood effect (feeling bored/drowsy; n = 84, 73.7%), peer influence (when colleagues/friends are smoking; n = 82, 71.9%), anxiety/stress (n = 63, 55.3%) and a social event or a festive season (n = 57, 50%) (Table 2).

The mean treatment duration among the varenicline users was 8.8 ± 3.3 weeks. The prevalence of smoking abstinence with varenicline therapy was 59.6% (n = 68). Amongst smokers who successfully quit, only 18.4% (n = 13) achieved continuous abstinence for 24 weeks (Table 3).

3.2. Adverse Events and Withdrawal Symptoms

Generally, varenicline was well tolerated among the users. Out of 114 smokers taking varenicline, 65 (57.0%) did not experience any adverse effects. The most common adverse events reported were increased appetite (n = 19, 16.7%), dizziness (n = 18, 15.8%) and dry mouth (n = 12, 10.5%). Notably, two smokers refused to continue varenicline therapy due to nausea and insomnia intolerance, respectively (Table 4). Three smokers developed chest pain after taking varenicline, and two of them required hospitalization. Regarding neuropsychiatric-related adverse events, two smokers were documented to have altered behaviour, and one had auditory hallucinations. Otherwise, there was no incidence of depression, seizure, suicidal attempt/ideation, or completed suicide. Varenicline therapy was discontinued for all smokers with cardiovascular and neuropsychiatric-related adverse events. Forty-five smokers experienced withdrawal symptoms. The top five frequently reported withdrawal symptoms among the smokers were fatigue (n = 21, 18.4%), headache (n = 18, 15.8%), irritability/restlessness (n = 15, 13.2%), anger/frustration (n = 14, 12.3%) and change in sleep pattern (n = 12, 10.5%) (Table 4).

3.3. Factors Associated with Successful Abstinence

Overall, 4 variables obtained a p-value of less than 0.25, i.e., race, comorbidity status, presence of adverse events and varenicline treatment duration. These variables were entered into the multivariate regression model. An additional 1 week of varenicline treatment duration is associated with nearly 1.8 times the odds of success in smoking cessation (OR 1.83; 95% CI 1.50–2.23; p < 0.001). No other significant predictors were found (Table 5). Interactions, multicollinearity and suppressor effects were checked and not found [18].

4. Discussion

To the best of our knowledge, this is amongst the first multicentre studies to study the prevalence of smoking abstinence among varenicline users in Malaysia. Most of the subjects successfully achieved smoking abstinence with varenicline use, while other local studies that used both NRT and varenicline demonstrated a relatively lower abstinence rate [19,20]. Compared to other regions of government-operated quit smoking clinics, the current study reported lower rates of smoking abstinence in the third month in Perak (19.3%) versus in Putrajaya and Selangor (35.4%) [21] and lower rates of smoking abstinence in the sixth month in Perak compared to a health clinic in Kuala Lumpur (18.4% vs. 50.5%) [22]. This might be attributed to the difference in income and educational status between the study population, where smokers with higher education and income reported higher odds of abstinence [23].

The current study shows that older age and the absence of underlying diseases are not significant factors associated with successfully quitting smoking. In contrast, a large-scale study in China found that older age was associated with higher odds of smoking abstinence [24]. Meanwhile, Joly et al. found that smoking-related diseases do not facilitate smoking cessation or the maintenance of abstinence, as smokers with comorbidities may be discouraged from stopping since the diseases have already occurred [25].

Varenicline treatment duration was notably a significant determinant of successful quit attempts in this study. The recommended duration of varenicline therapy as per prescribing information is 12 weeks. However, the mean duration of treatment reported in this study was approximately one month shorter. This could be due to the smokers’ early and high dropout rate from the smoking cessation programme [20]. Therefore, a targeted smoking cessation approach could be implemented, where the counselling should emphasize adherence to completion of the treatment regimen.

Smokers’ experiences of adverse events and withdrawal symptoms were reported to be associated with their maintenance of the smoking cessation pharmacotherapy, causing a failure to quit smoking [26,27]. Nevertheless, the presence of adverse events or withdrawal symptoms did not influence the odds of quitting smoking in this study. Two subjects opted for discontinuation of varenicline therapy despite minor and self-limiting adverse events. In a local qualitative study conducted by Chean et al., smokers highlighted withdrawal symptoms such as lethargy and constipation as barriers to quitting [28].

Psychosocial characteristics, such as motivation [25,29,30] and a high level of confidence [31,32], may interfere with the result of smoking cessation attempts. The frequency of success was four times higher when the smokers’ readiness to quit escalated from the “precontemplation” stage to the “contemplation” stage and two times higher from the “preparation” stage to the “action” stage [25]. Nevertheless, our study did not discover this relationship, most likely due to its small sample size. Since smokers at the precontemplation stage are unlikely to quit [29], approaches such as education about the positive outcomes of smoking cessation and the identification of misconceptions and barriers to quitting may encourage change in readiness to quit. On the contrary, Ussher et al. argued that the motivation to stop smoking only predicts the incidence of quit attempts, not the success of those attempts [33]. Future interventions may focus on facilitating quit attempts by employing trained clinical pharmacists to address the smokers’ urge to smoke, rather than solely assessing and boosting motivation towards quitting [34,35].

In the United States, the use of varenicline for 24 weeks elicited a continuous abstinence rate of 37.8%, while serious adverse events occurred in 3.7% of the varenicline users and 0.8% presented with suicidal ideation [36]. Meanwhile, a global study across Latin America, Africa and the Middle East reported a continuous abstinence rate of 39.7% at 24 weeks, and the severe adverse events were reported in 2.8% of varenicline recipients, including suicidal ideation and abnormal heart rate [37]. Likewise, Rennard and colleagues reported a continuous abstinence rate of 34.7% at week-24, with a serious adverse events rate of 1.2%, including carotid artery stenosis and peripheral arterial occlusive disease [38]. An Asian trial among subjects in China, Singapore and Thailand reported a continuous abstinence rate of 38.2% at 24 weeks, where 4.8% of the subjects experienced severe adverse events, including insomnia and elevated liver enzymes [39]. Gastrointestinal disturbances were the most common adverse events in these studies [36,37,38,39]. In contrast, the continuous abstinence rate at 24 weeks in the current study was notably lower at 18.4%. Nevertheless, the adverse events reported were similar, dominated by gastrointestinal disturbances, with few neurological symptoms and rare cardiovascular adverse events.

In the present study, incidences of suicide-related behaviour, such as ideation or self-harm behaviour, were not found. Nevertheless, altered behaviour was detected in one smoker who described starting to “isolate himself and becoming very quiet” after taking varenicline, which could be a presentation of depression. Meanwhile, the onset of psychosis symptoms in another smoker who experienced auditory hallucinations within a week of treatment is consistent with previously published cases [40]. Previous observational cohort studies and meta-analyses do not indicate a heightened risk of depression, suicidal ideation and self-harm among varenicline users [6,41,42]. Nevertheless, clinically important side effects, such as anxiety, irrational behaviour, aggression and restlessness [31], have been commonly reported, suggesting the need for structured pharmacovigilance regarding uncommon neuropsychiatric-related adverse events.

Although major adverse cardiovascular events are not reported in this study, population data consistently show the low occurrence of other cardiovascular diseases in smokers using varenicline [41,43]. Kortz et al. reported the incidence of events for ischaemic heart disease, cerebral infarct, heart failure and peripheral vascular disease as 23.4, 6.4, 2 and 4.8 incidences per 1000 patient years, respectively [41]. Three chest pain episodes requiring hospitalization were demonstrated in the current study. However, whether the smoker had progressed to myocardial infarction or heart failure was not investigated. The incidence of cardiovascular adverse events was relatively low among varenicline users, consistent with previous reports. Nevertheless, active surveillance of cardiovascular-related events is warranted, especially among smokers with such comorbidities.

The profile of other adverse events exhibited in this study is consistent with a previous Cochrane review [36]. The most frequently recorded adverse effect was nausea, which was mostly at mild-to-moderate levels and tended to subside over time [32]. The incidence of nausea in the varenicline groups was found to be dose-dependent, with higher prevalence in smokers taking a higher dose of 1 mg BD [44]. A case report demonstrated cessation of varenicline treatment due to nausea and insomnia intolerance [45]. In our study, as mentioned earlier, two smokers discontinued treatment due to intolerance to nausea and insomnia. Other common symptoms, such as dry mouth, constipation, stomach discomfort and flatulence, were not frequently observed. This could be because these symptoms were mild and did not warrant the attention of the smokers themselves, and the clinicians might not have proactively asked the patients regarding these symptoms.

This study had both strengths and limitations. To our knowledge, this is the first study to explore the association between varenicline adverse effects and withdrawal symptoms and smoking abstinence in Malaysia. There are several limitations worth mentioning. First, misclassification bias may be present since data collection was retrospective, based on previous records. Furthermore, the sample size was based on prevalence and not adequately powered to account for factors associated with smoking abstinence and adverse events. Hence, a future study with a larger sample size is needed to verify the findings of the current study. The types of concurrent medications was not captured, hence we could not rule out its confounding effects with the reported adverse events. As we excluded patients with missing data, the abstinence and adverse events rate might have been different if they were included. The absence of nicotine replacement therapy in several local health clinics limited our effort to make a useful comparison. While we followed up the adverse effects up to 24 weeks, future studies should examine the long-term side effects across the span of several years.

5. Conclusions

In conclusion, most of the subjects achieved smoking abstinence with varenicline. A longer duration of treatment, older age and the absence of comorbidities are significant predictors of successful abstinence. Despite the rare cases of cardiovascular- and neuropsychiatric-related adverse events, continuous surveillance and adverse drug reaction reporting is warranted.

Author Contributions

S.J.C., C.T.C., S.N.H. and B.T. contributed substantially to the concept and design of the study. S.J.C. and C.T.C. performed formal analysis for the study. S.J.C., C.T.C., M.F.A.L. and N.A.S. were involved with the investigation and data curation. S.J.C. led the original drafting of the manuscript, and S.N.H., B.T., C.T.C., M.F.A.L. and N.A.S. critically revised the manuscript for important intellectual content, and gave final approval of the version to be published. S.J.C., S.N.H., B.T., C.T.C., M.F.A.L. and N.A.S. agree to be accountable for all aspects of the work in ensuring that questions related to the accuracy or integrity of any part of the work are appropriately investigated and resolved. All authors have read and agreed to the published version of the manuscript.

Funding

This research did not receive any specific grant from funding agencies in the public, commercial, or not-for-profit sectors.

Institutional Review Board Statement

This study was registered under the National Medical Research Registry, with registration number NMRR-18-2984-44113 (IIR). The ethics for this study were obtained from the Malaysian Medical Research and Ethics Committee (MREC), with reference code KKM.NIHSEC.P18-2294(5). This study was also approved by the Joint Penang Independent Ethics Committee (JEPEM) with reference code USM/JEPeM/18100606.

Informed Consent Statement

Patient consent was waived due to retrospective nature of data collection.

Data Availability Statement

The dataset used in this study can be obtained from the authors upon reasonable requests.

Acknowledgments

We would like to thank the Director General of Health Malaysia for his permission to publish this article. We appreciate the administrative support by Leong Weng Choy, Deputy Head of Perak State Health Department. We appreciate the assistance from Jason Lee Choong Yin, pharmacist in Perak Pharmaceutical Services Division. Special thanks to all the Head of Pharmacy Department, Head of District Health Offices, Pharmacists in Charge of Health Clinics and quit smoking clinics in the Perak state for facilitating the data collection process.

Conflicts of Interest

The authors declare no conflict of interest.

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Table 1. Patient demographic characteristics (N = 114).

Demographic Characteristics	N (%)
Age (years), in mean ± SD	46 ± 14.4
Weight (kg), in mean ± SD	69.8 ± 14.99
Gender
Male	104 (91.2)
Female	10 (8.8)
Race
Malay	70 (61.4)
Chinese	17 (14.9)
Indian	27 (23.7)
Comorbidities
Diabetes mellitus	30 (26.3)
Hypertension	26 (22.8)
Dyslipidaemia	19 (16.7)
Asthma	13 (11.4)
Coronary artery disease (CAD) (Stable CAD, acute coronary syndrome)	11 (9.6)
COPD	8 (7)
Cerebrovascular disease (stroke, transient ischemic attack, cerebrovascular accident)	3 (2.6)
Others	5 (4.4)

Table 2. Smokers’ characteristics, smoking history and behavior before varenicline treatment (N = 114).

	N (%)
Age started smoking (years), mean ± SD	19.0 ± 5.9
Number of cigarettes smoked per day (sticks), in mean ± SD before varenicline treatment	17.0 ± 11.3
Duration of smoking (years), mean ± SD before varenicline treatment	26.6 ± 14.9
Fagerstrom score
Score 0 to 3: low nicotine dependence	42 (36.8)
Score 4 to 5: moderate nicotine dependence	28 (24.6)
Score 6 to 10: high nicotine dependence	44 (38.6)
Readiness to quit
Precontemplation	5 (4.4)
Contemplation	27 (23.7)
Preparation	38 (33.3)
Action	43 (37.7)
Attempts to quit before varenicline treatment
Yes	79 (69.3)
No	35 (30.7)
Triggering factors
After a meal	89 (78.1)
During social event/festive season	57 (50.0)
When feeling boring/drowsy	84 (73.7)
When feeling anxious/stressful	63 (55.3)
When colleagues/friends are smoking	82 (71.9)
When watching TV/videos/movies	31 (27.2)
In the bathroom	50 (43.9)
Staying with smokers	15 (13.2)

Table 3. Smoking abstinence and continuous abstinence among varenicline users. (N = 114).

Variables	N (%)
Treatment duration (week), in mean ± SD	8.8 ± 3.3
Successful smoking abstinence (for at least 2 weeks)
Yes	68 (59.6)
No	46 (40.4)
Continuous abstinence
≤12 weeks	22 (19.3)
13 to 16 weeks	12 (10.5)
17 to 20 weeks	13 (11.4)
24 weeks	21 (18.4)

Table 4. Adverse events and withdrawal symptoms after varenicline use (N = 114).

Adverse Events	N (%)
Cardiovascular-related adverse events
Hospitalisation due to cardiovascular adverse events	2 (1.8)
Angina pectoris	1 (0.9)
Neuropsychiatric-related adverse events
Altered behaviour	2 (1.8)
Auditory hallucination	1 (0.9)
Other adverse events
Increased appetite	19 (16.7)
Dizziness	18 (15.8)
Dry mouth	12 (10.5)
Nausea	10 (8.8)
Abnormal dreams	9 (7.9)
Insomnia	9 (7.9)
Stomach discomfort	6 (5.3)
Vomiting	5 (4.4)
Flatulence	5 (4.4)
Diarrhea	4 (3.5)
Constipation	3 (2.6)
Abdominal distension	2 (1.8)
Sore throat	2 (1.8)
Withdrawal symptoms	N (%)
Fatigue	21 (18.4)
Headache	18 (15.8)
Irritability/restlessness	15 (13.2)
Anger/frustration	14 (12.3)
Change in sleep pattern	12 (10.5)
Impatience	9 (7.9)
Poor concentration	9 (7.9)
Palpitation	7 (6.1)
Change in bowel movement	5 (4.4)
Tremors	1 (0.9)

Table 5. Univariate and multivariate logistic regression analysis on predicting factors of smoking abstinence.

	Univariate Logistic Regression			Multivariate Logistic Regression
Variables	Odds Ratio	Confidence Interval 95%	p-Value	Odds Ratio	Confidence Interval 95%	p-Value
Age	1.009	0.983–1.036	0.511
Gender
Female	Reference	Reference	Reference
Male	1.537	0.419–5.641	0.517
Race
Malay	Reference
Chinese	1.083	0.358–3.276	0.887
Indian	0.549	0.224–1.346	0.190
Comorbidities
Without	Reference
With	2.091	0.969–4.514	0.060
Age started smoking	1.028	0.960–1.102	0.423
Number of cigarettes smoked per day	1.010	0.977–1.045	0.554
Duration of smoking	1.005	0.980–1.031	0.700
Fagerstrom score
High	Reference
Low-to-moderate	0.890	0.412–1.924	0.767
Without quit attempt
With attempt	Reference
Without attempt	0.727	0.325–1.627	0.438
Readiness to quit
Precontemplation and contemplation	Reference
Preparation and action	1.500	0.655–3.433	0.337
Triggering factors
Situational factor	0.692	0.256–1.875	0.469
Mood effect	0.838	0.303–2.318	0.733
Peer influence	0.772	0.319–1.867	0.565
Treatment duration	1.828	1.501–2.226	<0.001 *	1.828	1.501–2.226	<0.001 *
Adverse events
Yes	Reference
No	0.566	0.262–1.223	0.147
Withdrawal symptoms
Yes	Reference
No	1.123	0.520–2.429	0.767

* significant values (p < 0.05).

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Choo, S.J.; Chang, C.T.; Tangiisuran, B.; Latif, M.F.A.; Sanusi, N.A.; Harun, S.N. Abstinence Rate, Adverse Events and Withdrawal Symptoms after Varenicline Use and Predicting Factors of Smoking Abstinence: A Multicentre Single-State Study in Malaysia. Int. J. Environ. Res. Public Health 2022, 19, 7757. https://doi.org/10.3390/ijerph19137757

AMA Style

Choo SJ, Chang CT, Tangiisuran B, Latif MFA, Sanusi NA, Harun SN. Abstinence Rate, Adverse Events and Withdrawal Symptoms after Varenicline Use and Predicting Factors of Smoking Abstinence: A Multicentre Single-State Study in Malaysia. International Journal of Environmental Research and Public Health. 2022; 19(13):7757. https://doi.org/10.3390/ijerph19137757

Chicago/Turabian Style

Choo, Shea Jiun, Chee Tao Chang, Balamurugan Tangiisuran, Mohd Faiz Abdul Latif, Nor Aida Sanusi, and Sabariah Noor Harun. 2022. "Abstinence Rate, Adverse Events and Withdrawal Symptoms after Varenicline Use and Predicting Factors of Smoking Abstinence: A Multicentre Single-State Study in Malaysia" International Journal of Environmental Research and Public Health 19, no. 13: 7757. https://doi.org/10.3390/ijerph19137757

APA Style

Choo, S. J., Chang, C. T., Tangiisuran, B., Latif, M. F. A., Sanusi, N. A., & Harun, S. N. (2022). Abstinence Rate, Adverse Events and Withdrawal Symptoms after Varenicline Use and Predicting Factors of Smoking Abstinence: A Multicentre Single-State Study in Malaysia. International Journal of Environmental Research and Public Health, 19(13), 7757. https://doi.org/10.3390/ijerph19137757

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Abstinence Rate, Adverse Events and Withdrawal Symptoms after Varenicline Use and Predicting Factors of Smoking Abstinence: A Multicentre Single-State Study in Malaysia

Abstract

1. Introduction

2. Materials and Methods

2.1. Study Design and Population

2.2. Investigated Variables

2.3. Statistical Analysis

3. Results

3.1. Smoking Abstinence

3.2. Adverse Events and Withdrawal Symptoms

3.3. Factors Associated with Successful Abstinence

4. Discussion

5. Conclusions

Author Contributions

Funding

Institutional Review Board Statement

Informed Consent Statement

Data Availability Statement

Acknowledgments

Conflicts of Interest

References

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