Safety and Effectiveness of Varenicline in Korean Smokers: A Nationwide Post-Marketing Surveillance Study.

PURPOSE: Varenicline has demonstrated its safety and efficacy in Western studies including <3% of Asian participants. This prospective multi-center observational study investigated the safety and effectiveness of varenicline in Korean smokers. PATIENTS AND METHODS: Smokers prescribed varenicline for the first time were enrolled from 252 medical institutions. Investigators recorded and graded all adverse events (AEs). To assess the effectiveness of varenicline, the 7-day point prevalence (PP) of smoking cessation was evaluated at the four visits during the 12-week treatment course. Rates of AE incidence and smoking cessation were analyzed using Chi-squared test or Fisher's exact test. This study is registered with ClinicalTrials.gov, number NCT00483002.
RESULTS: A total of 3719 and 3700 study subjects were included in the safety and effectiveness analyses, respectively. Overall, 346 (9.3%) subjects experienced 471 AEs: 358 mild, 97 moderate, 9 severe, and 7 serious. The most frequent AEs were nausea (5.1%), dyspepsia (0.8%), abnormal dreams (0.8%), insomnia (0.8%), and headache (0.7%). Among the subjects with AEs, 73 subjects discontinued treatment, of which 68 were due to AE occurrence. The 7-day PP of smoking cessation at weeks 1-2, 3-6, 7-10, and ≥ week 11 were 51.7% (387/749), 59.6% (1740/2922), 73.3% (1114/1520), and 77.0% (1116/1449), respectively (p for trend = 0.023). Comorbidities and allergies were associated with a higher incidence of AEs and lower smoking cessation rate (p < 0.05). Younger subjects, infrequent alcohol drinkers, and lighter smokers showed a higher smoking cessation rate (p < 0.05).
CONCLUSION: Varenicline in adult Korean smokers was well tolerated and effective as a smoking cessation aid in routine clinical practice.

Plain Language Summary

Can varenicline be used safely and effectively in Korean smokers?

In this largest observational study in Asia, we evaluated the tolerability and effectiveness of varenicline in routine clinical setting. Nausea was the most common adverse event (AE); however, most reported cases were of mild or moderate intensity. Other commonly occurring side effects included dyspepsia, abnormal dreams, insomnia, and headache. AE incidence doubled in smokers with allergy/comorbidity history. Neuropsychiatric adverse events such as depression or anxiety were rarely documented although no subjects were excluded for related criteria. Smokers with young age, less frequent drinking, less smoking amount, few attempts to quit smoking, and without concomitant use of medications were more likely to quit smoking. Varenicline’s effectiveness in smoking cessation as assessed by the never-smoking rate in the last 7 days was 67.9%, which was higher than that from other interventional or observational studies. Our study significantly contributes to the safety and effectiveness of varenicline in Asian population.

Introduction

Smoking causes major diseases like cardiovascular disease, chronic obstructive pulmonary disease, and lung cancer.1 Globally, 25.0% males and 5.4% females smoke daily, and 11.5% global deaths in 2015 were attributed to smoking.2 Despite the well-known health risks associated with tobacco use, smoking is highly prevalent in South Korea, particularly in males. According to the Korea National Health and Nutrition Examination Survey report from 2008 to 2011, the smoking rate based on urinary cotinine results was 52.7% and 15.4% for Korean adult males and females, respectively, and surprisingly, the female result was more than twice the self-reported smoking rate (6.8%).3

Smoking can be attributed to nicotine addiction; therefore, aggressive addiction treatment using smoking cessation medications may be implemented for a better outcome.4 Among various smoking cessation aids, varenicline has proved its efficacy for smoking cessation and is often recommended to use by clinicians.5,6 Varenicline has a high affinity for the predominant brain nicotinic receptor, α4β2, responsible for mediating the reinforcing properties of nicotine in animal models.7 As a partial agonist, varenicline has advantages over currently available therapies. The agonist property may reduce cravings and withdrawal symptoms, whereas the antagonist property may reduce the reward experienced by those who smoke during therapy, thereby reducing the likelihood of relapse.4

There were several concerns regarding the adverse events (AEs) of varenicline. Nausea, headache, insomnia, constipation, and abdominal pain are common AEs regardless of ethnicity.8–12 Although serious neuropsychiatric AEs are anecdotally reported, no causal relationship has been reported in clinical trials or large cohort studies.11,13,14 As these studies were conducted in Western countries with a limited number of Asian participants, and AEs can be diverse and unpredictable among different ethnicities, caution is needed when considering the safety outcomes in Asian populations. Recently, there has been a safety issue related to potential carcinogenicity in the varenicline products. Therefore, a long-term and large-scale post-marketing surveillance (PMS) for varenicline that monitors both common and unrecognized AEs15 may provide evidence in these regards. In addition, information on the effectiveness of varenicline collected from PMS performed in a real-world setting will be useful in evaluating the risk-benefit profile of the drug in Korean population.

This is a nationwide PMS study wherein varenicline was administered to 3719 Korean smokers over a 12-week period. We aimed to evaluate the safety and effectiveness of varenicline in usual medical practice in South Korea.

Materials and Methods

Study Design and Population

This prospective non-interventional monitoring study was conducted at 252 medical institutions from 2007 to 2013 according to routine clinical practice of physicians from different departments, including cardiology, pulmonology, endocrinology, family medicine, and general practitioners’ clinics. The study enrolled subjects aged ≥18 years, who were prescribed varenicline for the first time. They were excluded from the study if they did not meet the prescribing criteria for varenicline or disagreed to participate in the study. There was no systemic assignment for treatment, and the medication was prescribed at the discretion of physicians, independent of study participation.

Treatment and Follow Up

Investigators and study subjects made a shared decision to use varenicline, and the drug was dispensed with product information, followed by the physician’s prescription. The first prescription visit was considered the baseline visit (week 0). Subjects decided on a quit date and started treatment for up to 2 weeks before this date. Subjects were advised to take varenicline for 12 weeks: 0.5 mg of varenicline once daily for the first 3 days, titrated to 0.5 mg twice daily on days 4–7, then 1 mg twice daily from day 8 to the end of the 12-week treatment phase. The start and end dates of treatment and the daily dose and frequency were recorded. If subjects did not complete the study, the reason for discontinuation was identified and classified as one of the following: “AE,” “lack of efficacy,” “success in smoking cessation,” “lost to follow up,” or “others.” Physicians recorded the concomitant medications administered continuously during or after enrollment.

Safety and Effectiveness Evaluation

AE was defined as any untoward medical occurrence in a study subject taking varenicline. All AEs were recorded from the time the subject has taken at least one dose of varenicline through last subject visit. The investigators obtained and recorded all observed or self-reported AEs and their severity (mild [does not interfere with subject’s usual function], moderate [interferes to some extent with subject’s usual function], or severe [interferes significantly with subject’s usual function]) on the case report forms along with their opinions on the causal relationship with the study drug. For all AEs, the investigators obtained adequate information to determine whether it met the criteria for classification as a serious adverse event (SAE). SAEs were classified as any untoward medical occurrence at any dose that resulted in death, was life-threatening (immediate risk of death), required hospitalization, or resulted in significant disability. SAEs were reported from the time that subject provides informed consent through and including 28 calendar days after the last administration of the study drug. Any SAE occurring after the reporting period was also reported if suspected of causal relationship to varenicline.

Effectiveness was measured by the 7-day point prevalence (PP) of smoking cessation, which was evaluated on visits 1 (weeks 1–2), 2 (weeks 3–6), 3 (weeks 7–10), and 4 (on or beyond week 11) during the 12-week treatment course. Subjects were considered to have quit when they answered “No” to both of the following two questions: “Have you smoked any cigarettes (even a puff) in the last 7 days?” and “Have you used any other product containing nicotine in the last 7 days?” Examples of products containing nicotine were nicotine patches/gums/nasal sprays/inhalers/tablets, snuff, pipes, and cigars.

Statistical Analysis

Demographic and baseline characteristics were reported as descriptive statistics. To describe continuous variables, mean ± standard deviation (SD) and range were presented. For categorical variables, frequency and percentage were used. AE incidence and smoking cessation rates with 95% confidence interval (CI) were estimated using Chi-squared test or Fisher’s exact test. Data with missing values were excluded. Statistical analyses were performed using SAS Software version 9.1. All statistical tests were two-sided with a significance threshold of 0.05.

Ethical Approval

The final protocol, amendments, and informed consent form were reviewed and approved by the institutional review board(s) and/or independent ethics committee(s) at each investigational center (). The study conformed to the European Medicines Agency Guidelines for Good Clinical Practice. The investigators explained the nature, purpose, and duration of the study to the subjects and informed them that they could withdraw from the study at any time for any reason. After providing sufficient time to consider the implications of the study, written informed consents were obtained from subjects before study participation. This study is registered with ClinicalTrials.gov, number NCT00483002.

Results

Study Subjects’ Characteristics

Figure 1 presents the study subject selection. Overall, 3722 subjects were enrolled, and 3719 who received at least one dose of the study drug were included in the safety analysis. Subsequently, 19 were excluded because no effectiveness assessments were available (Figure 1), and 3700 were included in the effectiveness analysis. Of these, 1165 (31.5%) completed our study and 2535 (68.5%) dropped out before the end of the 12-week treatment period. Discontinuations were attributed to either AEs (68, 2.7%), lack of efficacy (555, 21.9%), smoking cessation (935, 36.9%), failure to follow up (943, 37.2%), or other reasons (eg, patient refusal, expensive cost).

Figure 1

Flow chart for selection of study subjects.

The demographic characteristics of subjects in the safety analysis are provided in Table 1. Overall, 90.9% subjects were male with a mean age (± SD) of 49.4 ± 11.7 years. A high proportion of Korean smokers (59.3%) consumed alcohol once or twice per week. Furthermore, 1903 (51.2%) started smoking at the age of 21–30 years and 1594 (42.9%) at the age of 15–20 years. Most subjects (2118, 57.0%) smoked an average of one to two packs of cigarettes per day, and 1413 (38.1%) had previously attempted to stop smoking, at least two to four times. Overall, 48 subjects (1.3%) had a history of allergy. 1612 (43.3%) subjects had ≥1 comorbidity, including hypertension (714, 44.3%), chronic obstructive pulmonary disease or other pulmonary diseases (500, 31.0%), diabetes mellitus (414, 25.7%), dyslipidemia (331, 20.5%), coronary heart disease (120, 7.4%), stroke or transient ischemic attack (35, 2.2%), and others (21.5%) like gastrointestinal disease, osteoporosis, depression, cancer, liver disease, and thyroid disease. Furthermore, 1486 (40.0%) had been taking concomitant medications.

Table 1

Baseline Characteristics of Study Subjects

		Number of Subjects (%)
Sex	Male	3379 (90.9)
	Female	340 (9.1)
Age	18–44	1264 (34.0)
	45–64	2031 (54.6)
	≥65	424 (11.4)
	Mean ± SD (range)	49.4 ± 11.7 (18–86)
Number of drinks per weeka	None	733 (19.7)
	1–2	2205 (59.3)
	≥3	780 (21.0)
Age at smoking initiationa (years)	<15	121 (3.3)
	15–20	1594 (42.9)
	21–30	1903 (51.2)
	Others	100 (2.7)
Average smoking amount per day (packs)a	<1	1204 (32.4)
	1–2	2118 (57.0)
	2–3	379 (10.2)
	Others	17 (0.5)
Number of attempts to quit smokingb	None	975 (26.3)
	Once	729 (19.6)
	2–4 times	1413 (38.1)
	≥5 times	596 (16.1)
Allergy history	No	3671 (98.7)
	Yes	48 (1.3)
Comorbidityc	No	2107 (56.7)
	Yes	1612 (43.3)
Concomitant medication	No	2233 (60.0)
	Yes	1486 (40.0)

Notes: aOne missing. Among “Others” for age at smoking initiation, 83 subjects started smoking after 30 years of age, while 17 provided no information. Among “Others” for average smoking amount per day, 16 subjects smoked three packs or more per day on average, while one subject provided no information; bSix missing; cSome subjects had ≥1 concomitant disease: 714 cases of hypertension (44.3%), 500 cases of chronic obstructive pulmonary disease or other pulmonary diseases (31.0%), 414 cases of diabetes mellitus (25.7%), 331 cases of dyslipidemia (20.5%), 120 cases of coronary heart disease (7.4%), 35 cases of stroke or transient ischemic attack (2.2%), and others (21.5%), including gastrointestinal disease, osteoporosis, depression, cancer, liver disease, and thyroid disease.

Adverse Events

The mean total administration period of varenicline was 52.9 ± 32.3 days, and the mean daily dose and mean total dose of varenicline were 1.68 ± 0.3 and 94.2 ± 63.5 mg, respectively, in the safety analysis population (). Of the 3719 subjects, 346 (9.3%) experienced at least one AE, with 471 AEs (464 AEs and 7 SAEs) reported overall.

Table 2 summarizes AEs (excluding SAEs) with their severity information. Of the 464 AEs, 358, 97, and 9 were mild, moderate, and severe, respectively. The most frequently reported AEs were nausea (5.1%), dyspepsia (0.8%), abnormal dreams (0.8%), insomnia (0.8%), and headache (0.7%). Psychiatric AEs occurred in 2.1% of study subjects, including 8 (0.2%) events of depression. Four subjects experienced seven SAEs, including syncope, insomnia, anxiety, abnormal thinking, pneumonia, cerebral artery stenosis, and vestibular neuronitis. Aggravation of lung neoplasm was reported as an AE by one subject (). For long-term results, 6 (42.9%) subjects had experienced AEs among 14 subjects who took varenicline for 24 weeks or longer during the study period.

Table 2

Summary of Adverse Events with Occurrence in 5 Subjects or More

Events	Number of AEsa		Severity
	N	%	Mild	Moderate	Severe
Gastrointestinal disorders	239	6.4	195	42	4
Abdominal pain	13	0.3	10	3	0
Constipation	12	0.3	9	3	0
Dyspepsia	30	0.8	21	8	1
Nausea	191	5.1	157	31	3
Vomiting	9	0.2	7	2	0
Psychiatric disorders	78	2.1	63	17	0
Abnormal dreams	30	0.8	25	5	0
Depression	8	0.2	4	4	0
Insomnia	30	0.8	28	2	0
Nightmare	6	0.2	3	3	0
Sleep disorder	14	0.4	11	3	0
Nervous system disorders	42	1.1	32	7	3
Dizziness	5	0.1	3	1	1
Headache	26	0.7	20	5	1
Somnolence	9	0.2	8	1	0
Metabolism and nutrition disorders	9	0.2	7	2	0
Increased appetite	6	0.2	5	1	0
Skin and subcutaneous tissue disorders	8	0.2	5	3	0
Pruritus	5	0.1	3	2	0
Others	22	0.6	15	7	0
Appetite decreased/anorexia	7	0.2	5	2	0
Fatigue/malaise/adynamia	17	0.5	12	5	0
Total	464	100.0	358	97	9

Note: aSAEs were not counted and one subject could report more than one AE.

Abbreviations: AE, adverse event; SAE, serious adverse event.

A history of allergy or comorbidity was associated with a higher incidence of AE (history of allergy: 20.8% vs 9.2%, p = 0.011; comorbidity: 12.8% vs 6.6%, p = 0.0005) (Table 3). AEs were more frequently reported in subjects taking concomitant medications than those who were not (13.1% vs 6.8%, p < 0.001). Significantly more AEs were reported from the group with a mean daily dose of varenicline (mg) of 0.5–<1.0 or 1.0–<1.5 than the group taking a dose of 1.5–<2.0 (p = 0.027). The total varenicline administration period (weeks) was not associated with AE incidence. Among all subjects with AEs, 73 discontinued treatment, wherein 68 (19.7%) were due to AE occurrence. Dose reduction due to AE or death was not reported from this study.

Table 3

Incidence of Adverse Events by Baseline Characteristics and Treatment Pattern

		Number of Subjects (%)	95% CI (Lower, Upper)	Number of Events	Total N	p valuea
Sex	Male	319 (9.4)	(8.5, 10.4)	431	3379	0.364
	Female	27 (7.9)	(5.1, 10.8)	40	340
Age (years)	<30	20 (13.3)	(7.9, 18.8)	24	150	0.460
	30–39	64 (9.9)	(7.6, 12.2)	95	648
	40–49	95 (8.6)	(6.9, 10.2)	127	1111
	50–59	98 (9.2)	(7.5, 10.9)	132	1067
	60–69	56 (9.8)	(7.4, 12.2)	75	572
	≥70	13 (7.6)	(3.6, 11.6)	18	171
Alcohol use (drinking frequency per week)	None	76 (10.4)	(8.2, 12.6)	115	733	0.400
	1–2	194 (8.8)	(7.6, 10.0)	254	2205
	≥3	76 (9.7)	(7.7, 11.8)	102	780
Average smoking amount per day (pack)	<1	126 (10.5)	(8.7, 12.2)	174	1204	0.215
	1–2	185 (8.7)	(7.5, 9.9)	251	2118
	2–3	32 (8.4)	(5.6, 11.2)	43	379
	Others	3 (17.7)	(0.0, 35.8)	3	17
Allergy history	No	336 (9.2)	(8.2, 10.1)	455	3671	0.011
	Yes	10 (20.8)	(9.3, 32.3)	16	48
Comorbidity	No	139 (6.6)	(5.5, 7.7)	188	2107	0.0005
	Yes	207 (12.8)	(11.2, 14.5)	283	1612
	CHD	10 (8.3)	(11.2, 14.5)	14	120
	Diabetes mellitus	41 (9.9)	(3.34, 13.3)	54	414
	COPD and other pulmonary disease	73 (14.6)	(7.0, 12.8)	103	500
	Hypertension	83 (11.6)	(11.5, 17.7)	108	714
	Dyslipidemia	42 (12.7)	(9.1, 16.3)	58	331
	Stoke or TIA	0 (0.0)	(0.0, 0.0)	0	35
	Others	53 (15.3)	(11.5, 19.1)	82	347
Concomitant medication	No	151 (6.8)	(5.7, 7.8)	208	2233	<0.001
	Yes	195 (13.1)	(11.4, 14.8)	263	1486
Total administration period of varenicline (weeks)	<4	76 (8.8)	(6.9, 10.7)	119	865	0.088
	4–8	97 (8.1)	(6.6, 9.7)	123	1197
	>8	173 (10.4)	(9.0, 11.9)	229	1657
Mean daily dose of varenicline (mg)	0.5–<1.0	30 (12.8)	(8.5, 17.0)	49	235	0.027
	1.0–<1.5	52 (12.1)	(9.0, 15.1)	75	431
	1.5–<2.0	256 (8.6)	(7.6, 9.6)	337	2978
	≥2.0	8 (10.7)	(3.7, 17.7)	10	75
Total		346 (9.3)	(8.4, 10.2)	471	3719

Notes: ap value was calculated using the Chi-squared test.

Abbreviations: CI, confidence interval; N, number of study subjects; CHD, congestive heart disease; COPD, chronic obstructive pulmonary disease; TIA, transient ischemic attack.

Seven-Day Point Prevalence of Smoking Cessation

As shown in Figure 2, the 7-day PP of smoking cessation on visit week 1–2, 3–6, 7–10, and ≥week 11 was 51.7% (387/749), 59.6% (1740/2922), 73.3% (1114/1520), and 77.0% (1116/1449), respectively (p for trend = 0.023). When the smoking cessation rate evaluated by 7-day PP at the last observed study visit was analyzed according to the baseline characteristics and treatment pattern (Table 4), younger subjects exhibited significantly higher smoking cessation rate than older subjects (p = 0.019); however, age at smoking initiation was not associated with smoking cessation (p = 0.085). Subjects who drank alcohol more than thrice per week had a lower smoking cessation rate compared to those who drank less (p < 0.001). Lower smoking cessation rate was observed in subjects who smoked more than one pack per day compared to those who smoked less (p < 0.001). Subjects who had previously attempted to quit smoking more than five times were the least successful in smoking cessation among groups of the number of attempts to quit smoking with borderline significance (64.9%; p = 0.050). Allergy history, comorbidity, and concomitant medication were associated with lower smoking cessation rates (p < 0.01). Smoking cessation rate significantly increased with increasing mean total administration period of varenicline (p < 0.0001). Although the quit rate was significantly different between groups of mean daily dose of varenicline, no specific trend was observed.

Figure 2

Seven-day point prevalence (PP) of smoking abstinence. Error bars indicate 95% confidence intervals. The 7-day PP of smoking cessation at weeks 1–2, 3–6, 7–10, and at or beyond week 11 were 51.7% (387/749), 59.6% (1740/2922), 73.3% (1114/1520), and 77.0% (1116/1449), respectively (p for trend = 0.023). Using the total study subject number of 3700 as the denominator, the 7-day PP of smoking cessation at the four visits was 10.5%, 47.0%, 30.1%, and 30.2%, respectively (p for trend = 0.448).

Table 4

Smoking Cessation Rate by Baseline Characteristics and Treatment Pattern

		Smoking Cessation Rate % (N)	95% CI (Lower, Upper)	Total N	p valueb
Sex	Male	67.9 (2280)	(66.3, 69.4)	3360	0.800
	Female	68.5 (233)	(63.6, 73.5)	340
Age (years)	<30	70.5 (105)	(63.1, 77.8)	149	0.019
	30–39	71.4 (459)	(67.9, 74.9)	643
	40–49	69.7 (772)	(67.0, 72.4)	1107
	50–59	66.8 (711)	(63.9, 69.6)	1065
	60–69	63.2 (359)	(59.2, 67.2)	568
	≥70	63.7 (107)	(56.4, 71.0)	168
Alcohol use (number of drinks per week) at baseline	None	65.0 (474)	(61.6, 68.5)	729	<0.001
	1–2	70.7 (1551)	(68.8, 72.6)	2193
	≥3	62.7 (487)	(59.3, 66.1)	777
Age at smoking initiationa (years)	<15	62.8 (76)	(54.2, 71.4)	121	0.085
	15–20	66.7 (1058)	(64.4, 69.0)	1587
	21–30	69.6 (1316)	(67.5, 71.7)	1891
	Others	62.0 (62)	(52.5, 71.5)	100
Average smoking amount per day (packs)a	<1	72.7 (870)	(70.2, 75.2)	1197	<0.001
	1–2	65.8 (1388)	(63.8, 67.9)	2108
	2–3	64.7 (244)	(59.9, 69.6)	377
	Others	58.8 (10)	(35.4, 82.2)	17
Number of attempts to quit smoking	None	68.4 (663)	(65.5, 71.4)	969	0.050
	Once	71.7 (521)	(68.4, 74.9)	727
	2–4 times	67.0 (943)	(64.5, 69.4)	1408
	≥5 times	64.9 (383)	(61.1, 68.8)	590
Allergy history	No	68.2 (2489)	(66.6, 69.7)	3652	0.007
	Yes	50.0 (24)	(35.9, 64.2)	48
Comorbidity	No	72.6 (1517)	(70.7, 74.5)	2090	<0.001
	Yes	61.9 (996)	(59.5, 64.2)	1610
	CHD	50.0 (60)	(41.1, 59.0)	120
	Diabetes mellitus	57.5 (238)	(52.7, 62.3)	414
	COPD and other pulmonary disease	57.5 (287)	(53.2, 61.9)	499
	Hypertension	63.9 (455)	(60.4, 67.4)	712
	Dyslipidemia	60.9 (201)	(55.6, 66.2)	330
	Stroke or TIA	68.6 (24)	(53.2, 84.0)	35
	Others	60.4 (209)	(55.3, 65.6)	346
Concomitant medication	No	72.5 (1606)	(70.7, 74.4)	2215	<0.001
	Yes	61.1 (907)	(58.6, 63.6)	1485
Total administration period of varenicline (weeks)	<4	55.3 (474)	(52.0, 58.6)	857	<0.0001
	4–<8	60.4 (718)	(57.66, 63.22)	1188
	≥8	79.8 (1321)	(77.9, 81.8)	1655
Mean daily dose of varenicline (mg)	0.5–<1.0	49.3 (113)	(42.9, 55.8)	229	<0.0001
	1.0–<1.5	60.6 (260)	(56.0, 65.2)	429
	1.5–<2.0	70.6 (2096)	(69.0, 72.3)	2967
	≥2.0	58.7 (44)	(47.5, 69.8)	75
Total		67.9 (2513)	(66.4, 69.4)	3700

Notes: aAmong “Others” for age at smoking initiation, 83 subjects started smoking after 30 years of age, while 17 subjects provided no information. Among “Others” for average smoking amount per day, 16 subjects smoked three packs or more a day on average, while one subject provided no information; bp value was calculated using Chi-square test.

Abbreviations: CI, confidence interval; N, number of study subjects; CHD, congestive heart disease; COPD, chronic obstructive pulmonary disease; TIA, transient ischemic attack.

The smoking cessation rate at the last observed study visit was significantly higher in subjects who completed the study than those who did not (83.4% vs 60.8%; p < 0.001) (Table 5). The most common reason for discontinuation in the smoking cessation group was an early achievement of smoking cessation (60.4%) followed by loss to follow up (37.5%). In the continued smoking group, lack of efficacy (ie, continued smoking or increased smoking, 55.6%) was the most common reason for dropout followed by loss to follow up (38.1%). In both groups, AE was not the major determinant for dropouts.

Table 5

Smoking Cessation and Continuation at Last Visit by Study Completion and Drop Out Reasons

		Smoking Cessation at Last Visit, n (%)	Continued Smoking at Last Visit, n (%)	Total, n (%)	p value
Study completion at 12 weeks	Yes	971 (83.4)	194 (16.6)	1165 (31.5)	<0.001
	No	1542 (60.8)	993 (39.2)	2535 (68.5)
	Total	2513 (67.9)	1187 (32.1)	3700 (100)
Reasons for study discontinuation		Smoking cessation group	Continued smoking group		NA
Lost to follow up		578 (37.5)	378 (38.1)	956 (37.7)
Smoking cessation		931 (60.4)	7 (0.7)	938 (37.0)
Smoking continued or increased		3 (0.2)	552 (55.6)	555 (21.9)
Adverse events		25 (1.6)	43 (4.3)	68 (2.7)
Others or missing data		5 (0.3)	13 (1.3)	18 (0.7)
Total		1542 (100)	993 (100)	2535 (100)

Abbreviation: NA, not applicable.

Discussion

Overall, 3719 study subjects were treated with varenicline and analyzed for safety, and 3700 were analyzed for effectiveness. To our knowledge, this is the largest observational study to investigate the safety and effectiveness of varenicline in Asian smokers.

To ensure varenicline is properly prescribed to all who may benefit, it is necessary to address misconcerns regarding its AEs. Following reports of varenicline linked to mental health issues, the US Food and Drug Administration once mandated a boxed label warning for varenicline regarding neuropsychiatric or cardiovascular AEs.16,17 However, varenicline could provide evidence of its safety and tolerability.11,14,18–21 The EAGLES study, a large multi-national randomized controlled study, reported no significant increase in neuropsychiatric AEs due to varenicline in patients with and without psychiatric disorders.11 A meta-analysis of 39 randomized controlled trials showed no evidence of increased risk of neuropsychiatric AEs, including suicide, suicidal ideation, and depression.14 A network meta-analysis study on varenicline reported no increase in the risk of cardiovascular disease events with varenicline.21

According to our study results, there were no new or significant safety concerns for Korean smokers taking varenicline. Of the 3719 subjects, 346 (9.3%) experienced 471 AEs, most of which were mild (358/471 events; 76.0%). Nausea was the most common AE and developed in 5.1% of subjects, and most reported cases were of mild or moderate intensity. Overall, 68 subjects discontinued the study due to AEs, and four experienced seven SAEs, four of which were considered related to the study drug. Further, 78 subjects reported psychiatric AEs, most of which were sleep disturbances, and no severe cases were observed. No major AEs directly related to cardiovascular disease were reported except for one case of cerebral artery stenosis, which was considered as unrelated to varenicline by the investigator. These findings agreed with previous studies that showed no increase in the risk of psychiatric problems and serious cardiovascular AEs in the Asian populations.22 The malignancy was not observed even in long-term users of this study, except for one subject who had administered varenicline for about 2 months reporting aggravation of lung neoplasm; however, the investigator evaluated this as unrelated to the study drug. In previous studies of long-term varenicline use up to 52 weeks of treatment, cancer was not reported.23,24 AEs may have been somewhat underreported because the study was conducted in a real-world setting and the follow-up period was short; however, varenicline tend not to be used in long-term, and the AE profile and severity distribution were similar to the preceding studies.22

No other sociodemographic factors were associated with an increase in AE incidence except for allergy history or taking other medications. Presently, there are no reported drug interactions with varenicline, and it is not known to interact with cytochrome P450 enzymes.12 Further studies may be necessary to identify the possibility of interactions between varenicline and other drugs. A higher percentage of subjects reported AEs in the group with a lower mean daily dose of varenicline than the group taking a higher mean daily dose (p = 0.027), suggesting that AEs occur more frequently during the early titration period when the medication is first introduced into the body.

In line with previous reports, varenicline was effective for smoking cessation in this study. The 7-day PP of smoking cessation at the last observed study visit was 67.9%, which was high compared with other interventional or observational studies,9,10 suggesting that subjects with high will to quit made follow-up visits. When estimated in subjects who returned to clinics for each visit, 7-day PP increased from baseline to week 12 (Figure 2), supporting the trend of decreasing smoking rate after varenicline treatment in real-world clinical practice. A significantly higher cessation rate in subjects who completed the study (83.4% vs 60.8%) supports this finding. When subjects with missing visits were included in the calculation, the 7-day PP at week 12 was 30.2%, approaching the 7-day PP results from randomized controlled studies that enrolled smokers not yet ready to quit.25,26

According to a multi-center prospective observational study conducted in China, India, the Philippines, and South Korea, 20.3% Korean participants maintained smoking cessation after 12-week varenicline treatment.10 In this study, only 25% Korean participants completed the study; therefore, a large portion of subjects were unknown of their smoking status. This can be partially explained by the fact that varenicline is relatively expensive in South Korea and not reimbursed by the National Health Insurance System as well as the varenicline label being mandated to carry “black box warning” about the risk of serious neuropsychiatric events by the FDA in 2009; however, as shown in our study, early achievement of smoking cessation could have been a reason for high discontinuation rate, that is, many of those who successfully quit may have discontinued treatment early.

Age, frequency of alcohol intake, average number of cigarettes per day, number of previous attempts to quit, allergy history, comorbidity, and concomitant medications were significantly associated with smoking cessation in this study. Younger, lighter smokers and less frequent quit attempters were more likely to stop smoking than older, heavier smokers and more frequent attempters, which may have resulted from difference in nicotine dependence. The smoking cessation rate was significantly lower in subjects who consumed alcohol more than thrice per week than less frequent drinkers, and previous studies confirmed that drinking related to social factors increased the desire to smoke.27,28 To increase the chances of quitting smoking, it is necessary to encourage smokers to reduce or avoid alcohol consumption. Smokers with allergy history, comorbidities, and concomitant medications may have experienced more AEs, leading to less compliance and lower quit rate. It is important to note that subjects with underlying congestive heart disease, diabetes mellitus, and pulmonary diseases including chronic obstructive pulmonary disease, who already are suffering from smoking-related diseases, showed relatively low smoking cessation rate at 50s%. These patients may likely be chronic heavy smokers and need especially intensive care. Previous and recent works have shown consistent benefit of varenicline in various patient groups for smoking cessation and the following clinical outcomes.29–33

This study has several limitations. First, it is likely that AEs were underreported, considering non-interventional study, wherein subjects were not required to make predetermined study visits. Second, smoking cessation status was self-reported without any biological evidence like the carbon monoxide breath test result, which may lead to an overestimation of effectiveness. Third, the dropout rate was high, which may also have resulted in an underestimation of AE incidence and overestimation of the smoking cessation rate. When the baseline characteristics were compared between the study subjects who completed the study and who discontinued the study, the characteristics were all similar, except the proportion of concomitant medication users which was higher in completers (42.4%) than in discontinuers (38.8%) (p = 0.04) (). However, this difference in concomitant medication usage may not affect the clinical relevance of the overall study results. Also, high dropout rates from smoking cessation programs are common in real-world clinical practice; thus, our study results could be more generalizable. Also, many subjects who did not complete our study reported achieving smoking cessation before the end of the 12-week treatment course, which may mitigate the likelihood of overestimating the quit rate. Lastly, the 7-day PP of smoking cessation may provide only a rough indication of treatment effectiveness.

Despite these limitations, our study significantly contributes to the safety of varenicline in the Asian population. Although previous studies have evidenced the efficacy of varenicline in terms of smoking cessation rates,34–36 varenicline has not been sufficiently used for smoking cessation in South Korea, and there is still room for improvement in patient compliance to clinical guidelines.37 Therefore, it is necessary to continue to support varenicline use as a first-line drug for smoking cessation in all clinical settings.28,38

Conclusion

Taken together, varenicline was well tolerated and effective for smoking cessation in real-world clinical practice. The most common AEs in Korean smokers were gastrointestinal-related symptoms, and the AE incidence almost doubled in study subjects with a history of allergy, comorbidity, or concomitant medications. Varenicline was effective with a high smoking cessation rate that was associated with younger age, less frequent drinking, smoking less than one pack per day, few attempts to quit smoking, and no use of concomitant medications.