Positive Effects of the National Cigarette Price Increase Policy on Smoking Cessation in South Korea.

BACKGROUND: In January 2015, South Korea's government raised the cigarette tax, and the retail price of cigarettes abruptly increased by 80% compared to the previous year. This research aimed to determine the effect of this increase on smoking cessation among South Korean smokers.
METHODS: We analyzed data collected by the 2013-2015 South Korea National Health and Nutrition Examination Survey of 15,203 South Koreans over 19 years old using regression analysis. We examined the recent non-smoking period of nonsmoking people, prepared according to the survey, and analyzed the recent smoking cessation ratio.
RESULTS: Among smokers, from 2013 to 2014, the smoking cessation rate was 7.2%, and it increased to 9.9% in 2015 after the increase in the cigarette tax. In 2015, the recent smoking cessation rate was higher among people over the age of 60 (odds ratio [OR], 2.67) compared to those between the ages of 40 and 49. The recent smoking cessation rate was higher among people with below elementary education (OR, 2.28) and above university education (OR, 1.94) compared to high school, higher for those with apartments (OR, 1.74) compared to general type residences, and higher among those with a household income in the low-middle quartile (Q2) (OR, 2.32) compared to the highest quartile (Q4).
CONCLUSION: This innovative policy including increase in cigarette prices affected smoking cessation, and its impact varied by sub-group of smokers in South Korea. Copyright©2020. The Korean Academy of Tuberculosis and Respiratory Diseases.

Introduction

Consistent with the global trend and based on inflation, South Korea has gradually increased its cigarette tax by 10%–30% in an attempt to reduce the smoking rate1. However, even with these increases, the price of cigarettes in South Korea was still low, and the prevalence of smoking was high compared to other Organisation for Economic Co-operation and Development countries2. Moreover, the price of cigarettes in South Korea had not increased in 10 years from 2004 to 20143. From 2008 to 2011, the smoking rate among male South Koreans did not vary very much, reduce from 47.7% to 47.3%, slightly decreased to 43.7% in 2012, and to 42.1% in 20134. In January 2015, the government abruptly increased the cigarette tax, and the retail price of cigarettes increased by 80% compared to the previous year (Figure 1A). In addition, smoke-free areas were expanded from public places to indoor areas, including worksites, restaurants, coffee shops, and bars. Although previous studies have examined the effects of national policy on smoking prevalence5, there has been no study on the significant effects of the recent policy, which increased the price of cigarettes by 80% in January 2015, on smoking cessation.

Figure 1

Effects of abrupt cigarette price increase on recent smoking cessation rate in Korea. (A) The price change for one pack of cigarettes from 1989 to 2015 in Korea. (B) Habit changes after cigarette price increase. (C) Changes in recent smoking cessation rates before (2013–2014) and after (2015) cigarette price increase. *p<0.05 signifies changes in recent smoking cessation rates according to year.

The South Korea National Health and Nutrition Examination Survey (KNHANES) is a large-scale annual survey conducted systemically by the South Korea Centers for Disease Control and Prevention (KCDC). The data in the KNHANES represents the entire general population of South Korea6. The KNHANES survey includes various questionnaires that contain demographics and clinical manifestations. In addition, detailed questionnaires concerning smoking habits are included, especially in the 2013–2015 surveys. Thus, KNHANES data will be useful for confirming any significant changes in the smoking habits of South Korean smokers before and after the implementation of the new policy.

The goal of this study was to determine the effects of the innovative policy including the increase in tobacco prices and expansion of smoke-free areas on cigarette smoking cessation among South Korean smokers, and which sub-groups of smokers more readily responded to the new policy.

Materials and Methods

1. Participants

We used data from the KNHANES, a national survey performed in 2013–2015. The survey used complex probability procedures to provide a sample representative of the South Korean general population, with stratification and multiple stages of cluster selection using age, sex, residence type, education level, and other variables. We followed the guidelines for reporting sample weight (sampling weights) and stratification as indicated by the KCDC; this information is available on the KNHANES website (http://knhanes.cdc.go.kr).

Among 20,482 subjects surveyed in 2013–2015, a total of 15,203 subjects ≥19 years of age responded to the health survey, including a questionnaire concerning smoking habits. Using regression analysis, 3,086 subjects who were current smokers and who had smoked more than 100 cigarettes in their lifetime or who had stopped smoking within the past six months were examined to detect the significant factors for recent smoking cessation. Recent smoking cessation was defined as having stopped smoking within the past six months: they answered, “I smoked cigarettes in the past but do not smoke now” to a question asking “Current smoking status,” and gave a variable period less than 6 months to a question asking “Non-smoking period.” The recent smoking cessation rate (%) was calculated as follows: subjects with recent smoking cessation×100 (%)/total enrolled subjects (current smoker and ever smoker including subjects with recent smoking cessation). This retrospective study was approved by the Institutional Review Board (IRB) of Yong-in Severance Hospital (No. 3-2017-0020). The requirement of informed consent was waived considering the retrospective nature of this study.

2. Definition of variables

All data were collected by self-reported questionnaires, including diabetes status, hypertension status, marital status, education level, residence type, and household income. Household income was determined based on each subject's self-reported monthly household income in South Korea. Income level was categorized into four quartiles. Body mass index (BMI; measured as body weight divided by the square of the body weight, and expressed in units of kg/m2) was measured by the healthcare provider.

3. Statistical analysis

We used KNHANES stratification variables and sampling weights. Differences in categorized variables and continuous variables from before and after the policy change were analyzed by chi-square tests and t-tests, respectively. Univariate and multivariate logistic regression analyses were conducted to identify factors associated with recent smoking cessation.

The interaction odds ratio (OR) value refers to the relative size of the OR value after the increase of cigarette tax in preparation for a before-tax change. This was used to determine if there were significant differences in the critical factors; that is, if the interaction OR value is greater than 1, it is a positive effect that relatively increases the smoking cessation rate, and if it is smaller than 1, it has a negative effect that has a relatively lower smoking cessation rate.

Results

1. Clinical characteristics of enrolled subjects before and after the policy change

We enrolled 10,219 subjects (representing a population of 23,879,830) and 4,984 subjects (representing a population of 12,071,069) in 2013–2014 (before the policy change) and in 2015 (after the policy change), respectively. Subjects from before and after the price increase policy were not significantly different in clinical characteristics, including sex, age, height, weight, BMI, diabetes, hypertension, marital status, education level, type of residence, and household income (Table 1).

Table 1

Clinical characteristics of total enrolled subjects before and after policy change

Variable	Before increase policy (2013–2014)	After increase policy (2015)	p-value
Male sex, n (%)	5,068 (49.6)	2,487 (49.9)	0.836
Age, yr			0.806
19–29	1,982 (19.4)	951 (19.1)
30–39	1,992 (19.5)	927 (18.6)
40–49	2,125 (20.8)	1,026 (20.6)
50–59	1,982 (19.4)	981 (19.7)
≥60	2,135 (20.9)	1,096 (22.0)
Height, cm	164.2±0.1	164.3±0.2	0.195
Weight, kg	64.7±0.1	64.0±0.2	0.170
BMI, kg/m2	23.9±0.1	23.7±0.1	0.296
Diabetes	950 (9.3)	428 (8.6)	0.303
Hypertension	2,482 (24.3)	1,290 (25.9)	0.140
Married	7,918 (77.5)	1,513 (76.3)	0.343
Education level			0.247
Below elementary	1,716 (16.8)	797 (16.1)
Middle school	939 (9.2)	433 (8.7)
High school	3,218 (31.5)	1,869 (37.5)
Above university	3,606 (35.3)	1,883 (37.8)
Type of residence			0.694
General type	5,251 (51.4)	2,467 (49.5)
Apartment	4,965 (48.6)	2,516 (50.5)
Household income			0.551
Lowest quartile (Q1)	1,532 (15.0)	757 (15.2)
Low–middle quartile (Q2)	2,615 (25.6)	1,156 (23.2)
High–middle quartile (Q3)	2,983 (29.2)	1,500 (30.1)
Highest quartile (Q4)	3,085 (30.2)	1,569 (31.5)
Enrolled number	10,219 (100)	4,984 (100)
Representing number	23,879,830	12,071,069

Values are presented as percentage or mean±SD unless otherwise indicated.

2. Effects of policy change on smoking cessation and smoking habits

We analyzed data of 3,086 smokers to define the effects of policy change on smokers. Cigarette prices had not changed for ten years before the announcement of the new policy; however, in January 2015, the government abruptly increased the price of cigarettes (Figure 1A). There was a question in KNHANES on the impact of an 80% increase in cigarette prices in 2015. Some smokers commented that because of the new policy they had stopped (7.5%) or reduced (32.1%) their cigarette smoking (Figure 1B). A smoking cessation period in the past was investigated in the 6th KNHANES (2013–2015), and this illustrated that before the policy change, the recent smoking cessation rate was 7.2% from 2013 to 2014. Compared to 2013–2014, however, it significantly increased to 9.9% in 2015, after the policy change (p=0.047) (Figure 1C).

3. Significant factors for recent smoking cessation before the policy change among smokers

We defined the significant factors for subjects who recently stopped smoking within the past six months (recent smoking cessation) among 3,086 smokers. In the univariate analysis, age, BMI, hypertension, and marital status were significant factors contributing to recent smoking cessation before the new policy. The multivariate analysis illustrated that marital status was a significant factor for recent smoking cessation (OR, 0.36; 95% confidence interval [CI], 0.28–0.74; p=0.002) (Table 2).

Table 2

Significant factors for recent smoking cessation before policy change (2013–2014) among smoker

	Representing number of recent smoking cessation group	Representing number of current smoker group	Univariate analysis			Multivariate analysis
			OR	95% CI	p-value	OR	95% CI	p-value
Sex
Male	376,663 (85.7)	4,952,193 (87.0)	0.90	0.54–1.49	0.675
Female	62,912 (14.3)	742,908 (13.0)	1
Age, yr
19–29	191,027 (43.5)	1,117,223 (19.9)	3.89	2.09–7.24	<0.001	1.97	0.92–1.02	0.052
30–39	91,489 (20.8)	1,461,478 (25.7)	1.43	0.74–2.74	0.287	1.11	0.57–2.18	0.753
40–49	62,734 (14.3)	1,428,726 (25.1)	1			1
50–59	44,523 (0.1)	1,001,436 (17.6)	1.01	0.49–2.10	0.973	1.05	0.50–2.19	0.894
≥60	49,800 (11.3)	686,236 (12.0)	1.65	0.91–3.02	0.102	1.79	0.95–3.36	1.788
BMI	23.33±0.31	24.10±0.09	0.94	0.89–0.99	0.022	0.97	0.92–1.02	0.194
Diabetes	30,351 (7.6)	553,483 (10.6)	0.69	0.34–1.39	0.301
Hypertension	60,761 (13.9)	1,277,485 (22.5)	0.56	0.37–0.92	0.023	0.82	0.49–1.39	0.472
Married	205,430 (46.7)	4,196,181 (73.7)	0.31	0.21–0.48	<0.001	0.36	0.28–0.74	0.002
EC user for the last month	42,058 (42.1)	319,607 (24.2)	0.98	0.58–1.65	0.976
Asthma history	12,589 (2.9)	155,585 (2.7)	1.05	0.37–2.94	0.926
Education level
Below elementary	31,924 (7.3)	596,618 (10.5)	0.85	0.44–1.66	0.642
Middle school	42,535 (9.7)	498,676 (8.8)	1.36	0.67–2.77	0.393
High school	160,384 (36.5)	2,560,539 (45.0)	1
Above university	204,730 (46.6)	2,039,266 (35.8)	1.6	0.96–2.68	0.072
Type of residence
General type	118,737 (43.3)	1,428,219 (57.0)	1
Apartment	155,243 (56.7)	1,075,412 (43.0)	1.17	0.77–1.76	0.469
Household income
Lowest quartile (Q1)	69,654 (15.8)	725,621 (12.7)	1.14	0.60–2.15	0.695
Low–middle quartile (Q2)	113,910 (25.9)	1,504,570 (26.4)	0.90	0.52–1.56	0.697
High–middle quartile (Q3)	119,522 (37.2)	1,849,396 (32.5)	0.77	0.46–1.27	0.301
Highest quartile (Q4)	136,487 (31.0)	1,615,513 (28.4)	1

Values are presented as number (%) or mean±SD unless otherwise indicated.

OR: odds ratio; CI: confidence interval; BMI: body mass index; SD: standard deviation.

4. Significant factors for recent smoking cessation after the policy change among smokers

In the univariate analysis, age, hypertension, education level, residence type, and household income were significant factors for recent smoking cessation after the policy change. The multivariate analysis illustrated that the significant factors for recent smoking cessation were: subjects ≥60 years old (OR, 2.82; 95% CI, 1.15–6.91; p=0.023) compared to those 40–49 years old; education levels of below elementary (OR, 2.28; 95% CI, 1.00–4.95; p=0.049) and above university (OR, 2.17; 95% CI, 1.08–4.34; p=0.029) compared to high school education; and subjects living in apartment residences (OR, 1.77; 95% CI, 1.02–3.08; p=0.043) compared to general type residences. In addition, subjects with low-middle quartile (Q2) household income were more likely to stop smoking compared to subjects with the highest quartile household income (OR, 3.03; 95% CI, 1.40–6.58; p=0.005). Although there is no significant difference, subjects with the lowest quartile (Q1) household income were more likely to stop smoking than subjects with the highest quartile (Q4) household income (OR, 1.68; 95% CI, 0.70–4.01, p=0.243) (Table 3).

Table 3

Significant factors for recent smoking cessation after policy change (2015) among smoker

	Representing number of recent smoking cessation group	Representing of current smoker group	Univariate analysis			Multivariate analysis
			OR	95% CI	p-value	OR	95% CI	p-value
Sex
Male	235,204 (85.8)	2,184,381 (87.1)	0.89	0.46–1.71	0.718
Female	38,778 (14.2)	319,252 (12.8)	1
Age, yr
19–29	58,123 (21.2)	542,971 (21.7)	1.82	0.68–4.84	0.230	1.76	0.64–4.83	0.269
30–39	87,071 (31.8)	589,032 (23.5)	2.51	0.93–6.79	0.069	1.71	0.60–4.86	0.313
40–49	35,623 (13.0)	605,034 (24.2)	1			1
50–59	48,422 (17.7)	481,869 (19.2)	1.71	0.64–4.53	0.282	1.91	0.72–5.08	0.197
≥60	44,741 (16.3)	284,724 (11.4)	2.67	1.29–6.32	0.026	2.82	1.15–6.91	0.023
BMI	24.54±0.52	24.28±0.15	1.02	0.95–1.09	0.629
Diabetes	32,055 (12.1)	204,627 (9.0)	1.39	0.65–2.97	0.393
Hypertension	42,953 (16.7)	661,728 (26.6)	0.56	0.32–0.97	0.037	0.44	0.24–0.79	0.007
Married	215,299 (78.6)	1,674,891 (66.9)	1.82	0.93–3.55	0.081
EC user for the last month	24,310 (27.6)	400,889 (41.9)	0.77	0.47–1.27	0.302
Asthma history	1,429 (0.5)	65,782 (2.6)	0.19	0.03–1.48	0.114
Education level
Below elementary	42,189 (15.4)	246,118 (9.8)	2.28	1.10–4.73	0.027	2.28	1.00–4.95	0.049
Middle school	15,181 (5.5)	213,117 (8.5)	0.95	0.38–2.35	0.907	0.80	0.32–2.00	0.629
High school	86,897 (31.7)	1,155,759 (46.2)	1			1
Above university	129,712 (47.3)	888,636 (35.5)	1.94	1.04–3.64	0.039	2.17	1.08–4.34	0.029
Type of residence
General type	118,737 (43.3)	1,428,219 (57.0)	1			1
Apartment	155,243 (56.7)	1,075,412 (43.0)	1.74	1.01–2.98	0.045	1.77	1.02–3.08	0.043
Household income
Lowest quartile (Q1)	39,801 (14.5)	401,236 (16.0)	1.16	0.51–2.61	0.728	1.68	0.70–4.01	0.243
Low–middle quartile (Q2)	101,409 (37)	509,031 (20.3)	2.32	1.17–4.60	0.016	3.03	1.40–6.58	0.005
High–middle quartile (Q3)	68,135 (24.9)	840,694 (33.6)	0.94	0.46–1.94	0.874	0.92	0.41–2.07	0.838
Highest quartile (Q4)	64,635 (23.6)	752,670 (30.1)	1			1

Values are presented as number (%) or mean±SD unless otherwise indicated.

OR: odds ratio; CI: confidence interval; BMI: body mass index; EC: electronic cigarette; SD: standard deviation.

5. Significant factors for recent smoking cessation after policy change compared to those before the policy change

We obtained the interaction OR and p-values to determine whether there is a significant gap between factors before and after the policy change. Subjects between 19 and 29 years of age were more likely to stop smoking compared to those between 40 and 49 before the policy change (OR, 3.89). After the policy went into effect, the recent smoking cessation rate was still higher for people aged between 19 and 29 years of age (OR, 1.82), but it is decreasing. (interaction OR, 0.48; interaction p=0.197). However, in women, compared to men, the smoking rate increased (OR, 6.05) after the price increase (Supplementary Tables S1, 2). Married subjects were less likely to stop smoking compared to unmarried subjects before the policy change (OR, 0.31), whereas after the policy went into effect, married subjects were significantly more likely to stop smoking (OR, 1.82). When comparing men and women separately, the recent smoking cessation rate in men's groups has increased (OR, 1.82) (Supplementary Tables S3, 4). There was also a significant difference between the likelihood before and after the policy was implemented (interaction OR, 5.79; p<0.001). After the policy change, for the subjects with below elementary school education, there was a statistically increasing trend compared to before the policy change (interaction OR, 2.67; p=0.051). Subjects with low-middle quartile (Q2) household incomes were more likely to stop smoking compared to subjects with the highest quartile (Q4) household income (OR, 2.32) compared to before the policy change (OR, 0.90) (interaction OR, 2.59; p=0.034) (Table 4).

Table 4

Significant factors for recent smoking cessation after policy change, compared to before policy change among smoker

	Before increase policy		After increase policy		Interaction
	OR	p-value	OR	p-value	OR*	p-value†
Male sex	0.90	0.675	0.89	0.718	0.987	0.975
Age, yr
19–29	3.89	<0.001	1.82	0.230	0.48	0.197
30–39	1.43	0.287	2.51	0.069	1.76	0.351
40–49	1		1		1
50–59	1.01	0.973	1.71	0.282	1.69	0.397
≥60	1.65	0.102	2.67	0.026	1.62	0.370
BMI	0.94	0.022	1.02	0.629	1.09	0.073
Diabetes	0.69	0.301	1.39	0.393	2.01	0.181
Hypertension	0.56	0.023	0.56	0.037	1	0.994
Married	0.31	<0.001	1.82	0.081	5.79	<0.001
Education level
Below elementary	0.85	0.642	2.28	0.027	2.67	0.051
Middle school	1.36	0.393	0.95	0.907	0.7	0.538
High school	1		1		1
Above university	1.6	0.072	1.94	0.039	1.21	0.642
Type of residence
General type	1		1
Apartment	1.17	0.469	1.74	0.045	1.49	0.252
Household income
Lowest quartile (Q1)	1.14	0.695	1.16	0.728	1.02	0.975
Low–middle quartile (Q2)	0.9	0.697	2.32	0.016	2.59	0.034
High–middle quartile (Q3)	0.77	0.301	0.94	0.874	1.23	0.638
Highest quartile (Q4)	1		1		1

*Ratio of OR after policy changes: if OR >1, it has a positive effect that relatively increases the smoking cessation rate; and if OR <1, it has a negative effect that has a relatively lower smoking cessation rate. †Interaction p-value <0.2 signifies changes in recent smoking cessation rates compared to before policy change.

OR: odds ratio; BMI: body mass index.

Discussion

We found that the innovative policy change by the South Korean government was successful in encouraging smokers to stop smoking. The stop smoking rate was 7.2% before the policy change but significantly increased to 9.9% per year after the policy change (an increase of 27.3%). In addition, many smokers (39.6%) commented that they had stopped or reduced smoking because of the 2015 policy.

Cigarette price increase policies have been considered as one of the most effective strategies for smoking cessation789. Many countries have adopted a cigarette price increase policy and obtained significant effects on the number of individuals who stop smoking11011. In South Korea, cigarette prices were relatively low and had not significantly increased beyond the inflation rate in recent periods. The South Korean government decided to increase the cigarette tax suddenly, and the final price of a packet of cigarettes increased from $2.09 in 2014 to $3.76 in 2015. We demonstrated that this dramatic increase in cigarette prices positively affected the cessation of cigarette smoking in South Korean smokers.

Smoking rates are higher in subjects with lower socioeconomic status. In South Korea, subjects with lower household income are 1.3–2.3 times more likely to smoke cigarettes, compared to subjects with the highest household income12. Smokers with a lower socioeconomic status are the main targets for antismoking policies, as many studies have reported that a cigarette price increase policy is more effective on subjects with low socioeconomic status1314. We also illustrated that subjects with low household income are more likely to stop cigarette smoking after the implementation of a cigarette price increase policy. Subjects in the low-middle quartile (Q2) of household income were significantly more likely to stop smoking because of the price increase compared to subjects in the highest quartile (Q4) of household income (interaction p=0.034). Although we could not demonstrate that this positive effect is stronger with a serial decrease in household income, we can assume that subjects with low household incomes tend to be more responsive to a price increase policy.

Although a low socioeconomic level is a well-known susceptibility factor for smoking cessation because of an increase in cigarette prices, higher BMI, diabetes, education level, and marital status are not well-known factors. Previous studies abroad have reported that young adults more easily respond to cigarette price increase policies1516. We demonstrated that the smoking cessation rate was high in subjects aged between 19 and 29, but they are less susceptible to an increase policy. This different result may be due in part to the fact that we excluded adolescents (those under the age of 19). In addition, the South Korean culture's devotion to children, even if it requires a parent's own sacrifice, might support this result; grandparents may give up smoking instead of their grandchild. People with diabetes want to stay healthy, and the smoking cessation rate has gone up. Married individuals may feel a stronger responsibility to stop smoking compared to those who are unmarried. This may lead a married person to stop smoking after the cigarette price increase policy. Furthermore, we compared the recent smoking cessation rate between men and women. In women, the smoking cessation OR value of 19 to 29 years old has risen from 2.97 to 6.05 after policy changes. In married women, the recent smoking cessation OR value has decreased from 11.62 to 1.51, and in groups that are above university level education, OR values decreased from 0.28 to 0.2. However, they did not affect when compared with the overall smoking cessation rate. This suggests that the overall smoking cessation rate has changed depending on the influence of men because they make up the majority of smokers (Supplementary Tables S1, 2, 3, 4).

There are several ways to stop smoking. Electronic cigarettes (EC) are considered as one of the ways to stop smoking. In one review article, EC helped people to stop smoking for 6 to 12 months compared to a placebo (4% vs. EC 9%), but the result is rated ‘low’ by GRADE standards17. The smoking cessation effect of EC remains inconclusive and more research is under way17. This paper shows EC users' recent smoking cessation rate was low before and after the price increase, but it was not statistically significant (Tables 2, 3).

The policy to expand smoke-free areas was implemented to reduce exposure to second-hand smoke. Previous studies have revealed the positive effects of smoke-free area policy on smoking rate and health1819. Expansion of smoke-free areas also might attribute to the reduction in smokers. However, we think that the price increase policy has more powerful effects on smoking cessation compared to the expansion of smokefree areas. This was because the difference in the price before and after the policy change was large.

We are well aware that smoking is a significant risk factor for important diseases, including lung cancer and asthma20212223. It is even more harmful to pregnant women and children, and second-hand smoke is also dangerous242526. Tobacco control policies established by governments affect not only smoking cessation but also smoking-related diseases and mortality272829. Although we did not perform an analysis, we can expect that smoke-related diseases, associated admissions, and mortality might be improved after policy changes. Further studies using large-scale national data will help examine the accuracy of this expectation.

The KNHANES data are obtained from a well-designed national program with complex, multi-stage probability sample extraction. We also used a complex sample analysis, recommended by KNHANES; therefore, this data represents 46,946,471 South Koreans, which is close to the total population of South Korea30. The innovative cigarette policy was implemented nationwide, and subsequently, national data is necessary to determine the effects of this new policy. This means that the hypotheses in this research can best be confirmed using KNHANES data.

The study has some limitations. First, this is a cross-sectional observational study, not a longitudinal cohort study. Therefore, analysis of the smoking cessation rate was conducted using different populations in 2013, 2014, and 2015. As a result, we should be careful in interpreting the results of this study. Second, we used an operational definition of recent smoking cessation. This measurement of recent smoking cessation may not fully reflect the real recent smoking cessation caused by the policy change. Third, we could not analyze the potential variables that affect smoking cessation, including the severity of underlying respiratory disease and lung function, and distances between homes and cigarette stores3132. The available variables are limited because the data was not collected by the authors, but by KCDC. Fourth, this is a questionnairebased study; therefore, recall bias cannot be excluded. Last, this paper looked at the variables in consideration of the basic sociological variables other than lifestyle and failed to reflect lifestyle indicators such as drinking and exercise that could change. We will be able to follow up on this in future research.

In conclusion, using a large amount of national scale data, this study confirmed that an innovative policy change positively affected smoking cessation of current smokers in South Korea. In addition, this positive effect was more pronounced in people who were married and people with a high BMI, diabetes, below elementary education level, and with low household incomes.

Many countries have adopted cigarette price increase policies, and these have had a significant impact on the number of individuals who have stopped smoking. This is the first study to determine the positive effects of the national cigarette price increase policy conducted by South Korea's government. The retail price of cigarettes abruptly increased by 80% compared to the previous year, and this increased the number of people who stopped smoking. This positive effect was more pronounced in people who are ≥60 years of age, married, and with low household incomes. The findings suggest that this innovative cigarette increase policy should be maintained over the long term to retain this positive effect on the cessation of cigarette smoking in South Korea.