Next Article in Journal
More than a Pretty Place: Assessing the Impact of Environmental Education on Children’s Knowledge and Attitudes about Outdoor Play in Nature
Previous Article in Journal
Surveillance of Hepatitis E Virus Contamination in Shellfish in China
 
 
Font Type:
Arial Georgia Verdana
Font Size:
Aa Aa Aa
Line Spacing:
Column Width:
Background:
Article

Drinking Patterns and the Association between Socio-Demographic Factors and Adolescents’ Alcohol Use in Three Metropolises in China

1
National Institute for Nutrition and Health, Chinese Center for Disease Control and Prevention, Xicheng District, Beijing 100050, China
2
Shanghai Municipal Center for Disease Control and Prevention, Changning District, Shanghai 200336, China
3
Guangzhou Center for Disease Control and Prevention, Baiyun District, Guangzhou 510440, China
4
Beijing Chaoyang District Center for Disease and Prevention, Chaoyang District, Beijing 100021, China
*
Author to whom correspondence should be addressed.
Int. J. Environ. Res. Public Health 2015, 12(2), 2037-2053; https://doi.org/10.3390/ijerph120202037
Submission received: 19 December 2014 / Revised: 15 January 2015 / Accepted: 28 January 2015 / Published: 12 February 2015

Abstract

:
The current study was designed to investigate the drinking patterns and association between socio-demographic factors and adolescents’ alcohol use among high school students from China’s three metropolises, Beijing, Shanghai, and Guangzhou. Using a self-administered questionnaire, we conducted a cross-sectional survey among 13,811 high school students from 136 schools between May and June 2013. A two-stage stratified sampling method was used for subject selection. The prevalence of lifetime drinking was 52.5%; in addition, 38.5% of the students were past-year drinkers, while 20.1% of them had consumed alcohol in the past 30 days. During the past year, 29.7% of the students reported that they drank once per month or less, and 22.0% of the students drank less than one standard drink (SD) per occasion. For the students who were not living with their mothers, as well as the students in higher socioeconomic status (SES), the adjusted odds of past and current drinking were significantly higher, compared with those who lived with both parents and low SES. Due to the high prevalence of alcohol consumption among junior and senior high school students in metropolises, attention should be paid by parents, school administrators, educational and public health agencies for making efforts collectively to reduce alcohol availability and drinking among adolescents.

1. Introduction

Adolescent drinking continues to be a significant social and public health issue worldwide [1]. It has been shown that adolescent drinking is associated with abnormalities in brain functioning, including memory deficits and poor academic performance [2,3,4,5]. In addition, adolescent drinking brings about many health risks, such as drunk driving, violence, illicit drug use, unsafe sex, and suicide [6,7,8,9]. Thus, during the past few years, numerous attempts have been developed for preventing and controlling of alcohol-related problems among youth [10].
To develop appropriate interventions, it is essential first to understand the nature and the trend of adolescent drinking within a given cultural context. Many countries have carried out periodic surveillance activities to monitor drinking behavior among youth [11,12]. Although China has century-long history of alcohol use [13] as well as a large population of adolescent [14], the population data of adolescent alcohol use in multi-metropolises as well as its correlates during the past decades are surprisingly limited.
In addition to estimating the prevalence of alcohol use among teenagers, the accurate measurement in quantity and drinking patterns (particularly heavy episodic or binge drinking) are necessary. Usually, a “standard drink” (SD) is considered as optimum unit for analysis, to estimate true quantity of alcohol consumption [15,16]. To facilitate the use of SD measure, exact descriptions for converting different alcoholic beverage products and serving sizes into corresponding SDs have been developed [17]. However, there is no SD definition being developed, whereas a uniform method for estimating alcohol consumption has not been reported in China yet.
Previous studies showed evidence of the association between social-demographic factors and the adolescent drinking behavior. For example, compared to living with two-biological parents, teenagers living with other family members tend to be associated with a wide variety of problematic behaviors [18,19]. Similarly, adolescents with a downward socioeconomic mobility during childhood were more likely to use alcohol [20]. Thus, increasing divorce/separation rate [21] and family income [22] become hot topics among current Chinese public; therefore, it is crucial to examine the relationship between specific socio-demographic factors and adolescents’ drinking behavior.
The current study was designed to examine: (1) Currentprevalence and patterns of alcohol use; and (2) the association of alcohol use among these adolescents with socio-demographic variables. This information could help inform future policy regarding alcohol use among youth in China.

2. Methods

2.1. Sampling Methods and Recruitment

A cross-sectional survey with a two-stage stratified sampling approach was used in this study. Four administrative districts from each city, Beijing, Shanghai, and Guangzhou, (4/16, 4/16, and 4/12) were selected for the survey. Subsequently, in each district, we selected subjects from junior and senior high schools (nearly 1:1, based on the total number of junior and senior students). The senior high school includes regular and vocational senior high school (nearly 1:1, based on the total number of students in the two kinds of schools). Totally, 136 schools were selected in the 12 districts, and the number of the sampling students in each district based on the registered number of students. In China, both junior and senior high schools have three grades. Due to the entrance examinations for college or internship during the period of the survey, students in the third year were unable to complete the survey. Thus, our study sample was comprised of two grades (7th and 8th grades in junior high school, 10th and 11th grades in senior high school) of each school. The average class sizes were 25–60 students per class, and one regular class was selected in each grade. The study protocol was approved by the Ethics Committee for Research in Human Subjects of the National Institute for Nutrition and Food Safety, Chinese Center for Disease Control and Prevention, and written informed consent was given before the survey, and obtained from all participating students and their guardians.
All students in the selected classrooms were informed to complete a self-administered questionnaire that is voluntary, and anonymous during a regular class period (approximately 40 min). Students selected for the survey were informed about the objectives of the study, and had the right to refuse to participate without any consequences on their lives or study in school. The students who finished the questionnaire could get a mechanical pencil. Among all the students recruited, only a small proportion of them declined to complete the questionnaire, thus the total response rate of 96.5% in individual level. In all, no school refused to join in the survey, and the response rate was 100%. Data collection was undertaken from May to June 2013 during the second semester of the academic year in China.

2.2. The Questionnaire

The questionnaire used in this study was developed based on three questionnaires reported previously, i.e., the alcohol section of the questionnaire used China’s National Nutrition and Health Survey in 2002 [23], the Global School-based Student Health Survey (GSHS) core questionnaire modules in China [24], and the Youth Risk Behavior Survey (YRBS) questionnaire in the United States [11]. These questionnaires were modified by adding items including demographic characteristics (e.g., gender, age) and drinking pattern (frequency of drinking, amount of alcohol per occasion). The questionnaire includes of the following sections: (1) socio-demographic information, (2) drinking behavior and patterns. Specifically, the section on drinking behavior and patterns included detailed questions on lifetime drinking history, drinking frequency and quantity, heavy episodic or binge drinking, and typical number of drinks per occasion.
Prior to the implementation, this questionnaire was reviewed by an expert panel representing key professional fields, including psychiatrists, psychologists, school teachers and administrators, senior alcohol researchers, and health promotion specialists. The questionnaire was then pilot-tested in three schools in Beijing that targeted each grade of junior and senior high students; the survey was judged to be feasible and acceptable.

2.3. Study Measures and Definitions

In the present study, we have several definitions for various drinkers. For a lifetime drinker, it was defined as a student who had consumed any alcohol previously, regardless of the quantity of alcohol consumed; for a past-year drinker, as a student who had consumed alcohol during the past one year before the survey; for a current drinker, we defined it as a student who consumed alcohol during the past 30 days, and for those students who drink at least 6 drinks (equal to 60 grams pure alcohol) on an occasion, they will be classified as heavy episodic or binge drinkers based on their immediate past 30-day drinking history. Drinking until intoxication was defined as the drinkers who show slurred speech, talkative or diminished senses, such as speaks louder, inability to hear and see clearly, glassy, unfocused eyes, or slowed mental processing (forgetting things, or losing their train of thought, cannot listen well, follow conversations well, or understand what others are saying). These behaviors usually told by the people drinking together.
We then specified that one SD contains 10 grams of pure alcohol, which corresponded to one can (330 mL) of beer, one small glass (25 mL) of moderate distilled wine, one glass (100 mL) of grape wine, one glass (80 mL) of yellow wine, or one serving (30 mL) liquor. To aid with the estimation of SD while completing the questionnaire, each survey respondent will be provided with a chart printed in color for describing a variety of common alcoholic beverages with their corresponding SD equivalents.
The family affluence scale (FAS) was used as an alternative measurement of family socio-economic status (SES). The final FAS score was calculated by adding the responses to four indicators; does your family own a car (0, 1, 2, or more); how many times did you travel away on holiday with your family during the past 12 months (0, 1, 2, 3 or more); do you have your own bedroom for yourself (0, 1 representing no, yes); and how many computers does your family own (0, 1, 2, 3, or more), which ranged from 0 to 9. The FAS scores were subsequently recoded into tertiles (high, middle, low socio-economic status, SES) within each district. This measure of socio-economic status was selected as previous research has demonstrated that students’ report on the component items of the FAS are in agreement with reports of their parents [25,26].

2.4. Statistical Analysis

The primary sampling unit was the district and the secondary unit was the school. The sampling probability at the class level was not taken into account because in different types of schools, class-setting rules are not the same. The sampling weight for the two-stage survey was calculated by multiplication of the total number of districts in the developed and geographic area divided by the number of selected districts and the total number of students in the selected district divided by the number of sampled students in that district. The number of districts in the three metropolises and the number of junior and senior high school students in each selected district were used as finite population corrections. Data on the students in these districts were obtained from the local education department.
Weighted means, percentages and standard errors (SE) for sample characteristics by school type were calculated. Weighted percentages for lifetime, past year, past 30 day, binge drinking, drinking to intoxication and frequency and usual quantity of alcohol were calculated for the entire sample by school type, and compared between males and females using the Rao–Scott Chi-Square test. To evaluate associations between socio-demographic factors and drinking behavior among students, adjusted odds ratios (aORs) and 95% confidence intervals (CI), adjusted for all other variables in the model, were calculated using multiple logistic regression.
Subjects with missing values were removed from the analysis on a case-by-case basis in each analysis. Statistical analyses were conducted using SAS software V.9.3.

2.5. Quality Control

In this study, a standard training manual had been provided prior to the survey, accompanied by lecture presentations to explain the survey aim and the visual aid for estimating SDs. The data were collected by educators, doctors, and staff from the local Centers for Disease Control and Prevention, who were experienced in epidemiological surveys. Questionnaires were completed by students using scannable answer sheets. At the data entering stage, an automatic laser reader was used to scan the answer sheets, and double entry was performed and compared for identifying discrepancies. Finally, the optical scanning machine that connected with a computer, could convey the data in an excel file.

3. Results

Among the 136 selected schools, 67 were junior high schools, and 69 were senior high schools, including 36 regular senior high schools and 33 that were vocational senior high schools. The total number of students was 13,811 (49.7% males, 50.3% females), with 6575 and 7236 students in junior and senior high schools, respectively. The average age of all students was 15.3. The socio-demographic characteristics of the sample are listed in Table 1, which were similar to the range for general characteristics of high school students in China.
As shown in Table 2, the prevalence of lifetime drinking was 52.5%; 38.5% of the students were past-year drinkers, 20.1% had alcohol in their past 30 days, 4.8% had reached the binge drinking level, and 15.0% reported drinking until intoxication. The prevalence of drinking among male students for the five categories of consumption (56.3%, 43.5%, 23.8%, 6.7%, and 17.8%, respectively) was significantly higher in each category than the prevalence of drinking among female students (48.9%, 33.4%, 16.6%, 2.8%, and 12.3%, respectively).
Alcohol use increased with grade level in all five categories of consumption (Table 2). Lifetime alcohol use increased from 44.1% to 64.7%; drinking in the past 12 months increased from 30.5% to 50.1%; current drinking increased from 16.0% to 26.0%; binge drinking increased from 3.1% to 7.2%; and drinking to intoxication increased from 10.3% to 21.9% in junior high vs. senior high school students. In senior high school, the prevalence of drinking in the vocational senior high school was higher than for their counterparts in regular senior high school.
Table 1. Sample characteristics.
Table 1. Sample characteristics.
CharacteristicsJunior High School (%SEa)Senior High School (%SEa)Total Numberb
G7 (n = 2821)G8 (n = 3754)G10r (n = 1790)G11r (n = 1873)G10v (n = 1711)G11v (n = 1862)
Age
Mean (Sc)13.2 (0.91)14.2 (0.76)16.1 (0.70)17.0 (0.79)16.6 (1.09)17.2 (1.03)13,811
Gender
Male50.6 (1.33)50.6 (1.06)50.6 (1.28)48.7 (2.01)48.2 (3.64)45.5 (5.63)6726
Female49.4 (1.33)49.4 (1.06)49.4 (1.28)51.3 (2.01)51.8 (3.64)54.5 (5.63)7085
Living with:
Parents82.3 (1.36)82.9 (1.02)79.1 (1.26)79.3 (0.92)72.3 (2.78)75.9 (1.42)10,936
Mother9.2 (0.65)7.5 (0.61)9.2 (0.83)8.9 (0.84)9.1 (1.25)8.8 (0.53)1180
Father3.2 (0.40)3.4 (0.29)2.5 (0.48)2.2 (0.42)3.9 (0.53)5.0 (0.59)426
Others5.3 (0.79)6.3 (0.81)9.2 (1.10)9.6 (1.04)14.6 (2.47)10.3 (1.37)1,269
SES
Low19.5 (2.04)19.7 (2.15)16.9 (1.26)17.5 (1.14)30.3 (4.55)25.6 (1.31)2729
Middle50.6 (1.26)51.1 (1.05)55.3 (1.85)57.8 (1.35)51.5 (2.88)52.7 (1.48)7031
High30.0 (2.00)29.2 (2.06)27.8 (2.58)24.7 (1.57)18.2 (2.62)21.7 (1.61)3619
a Based on the weighted data. b Based on the unweighted data, excluding missing data. c Indicates the standard deviation. r Indicates the regular senior high school. v Indicates the vocational senior high school.
Table 2. Prevalence of alcohol consumption by school and gender.
Table 2. Prevalence of alcohol consumption by school and gender.
Drinking Patterns Junior High School, %SEaSenior High School, %SEaTotal
G7G8TotalG10rG11rG10vG11vTotal
Lifetime drinking (nb = 7075)Male42.9 (2.33)52.0 (2.37)48.0 (1.69)61.6 (1.64)64.3 (3.15)75.2 (4.40)78.5 (2.67)68.5 (1.92)56.3 (1.82)
Female36.8 (1.91)42.7 (2.33)40.1 (1.59)49.2 (2.37)53.4 (2.59)71.1 (2.01)76.9 (1.61)61.1 (2.21)48.9 (1.72)
Total39.8 (1.77)47.4 (2.18)44.1 (1.58)55.5 (1.65)58.7 (2.50)73.1 (2.73)77.6 (1.44)64.7 (1.71)52.5 (1.65)
pc0.010<0.001<0.001<0.001<0.0010.3210.6380.002<0.001
Drinking in the past 12 months (nb =5119)Male29.0 (2.33)38.3 (1.96)34.1 (1.27)51.1 (2.00)52.7 (2.68)62.6 (4.70)68.4 (4.09)57.3 (1.83)43.5 (1.81)
Female22.5 (1.77)30.1 (2.34)26.8 (1.74)35.7 (2.41)36.0 (1.50)51.2 (3.01)56.0 (2.98)43.0 (1.92)33.4 (1.45)
Total25.8 (1.39)34.2 (1.92)30.5 (1.34)43.9 (1.75)44.2 (1.85)56.8 (3.60)62.0 (2.33)50.1 (1.49)38.5 (1.44)
pc0.033<0.001<0.001<0.001<0.0010.0010.026<0.001<0.001
Current drinking (nb = 3010)Male15.8 (1.44)20.1 (1.63)18.2 (1.00)27.7 (2.27)25.1 (1.73)40.3 (2.96)41.7 (3.63)32.1 (1.50)23.8 (1.30)
Female12.2 (1.48)15.2 (1.31)13.9 (0.91)14.7 (1.90)11.9 (1.00)28.0 (2.87)32.3 (1.73)20.3 (1.40)16.6 (0.82)
Total14.0 (0.86)17.6 (1.09)16.0 (0.78)21.2 (2.03)18.3 (0.93)34.0 (2.66)36.6 (1.63)26.0 (1.17)20.1 (0.88)
pc0.1300.013<0.001<0.001<0.001<0.0010.033<0.001<0.001
Binge drinking (nb = 761)Male3.8 (0.78)4.4 (0.38)4.1 (0.41)6.4 (1.26)6.2 (0.71)16.3 (2.50)18.3 (3.10)10.7 (1.22)6.7 (0.65)
Female1.3 (0.33)2.5 (0.51)2.0 (0.38)1.6 (0.48)1.4 (0.42)6.9 (1.22)7.6 (1.44)3.9 (0.58)2.8 (0.37)
Total2.6 (0.43)3.5 (0.34)3.1 (0.28)4.0 (0.74)3.8 (0.44)11.4 (1.53)12.4 (1.51)7.2 (0.72)4.8 (0.43)
pc<0.0010.008<0.001<0.001<0.001<0.0010.001<0.001<0.001
Drinking until intoxication (nb = 2332)Male10.1 (0.87)14.8 (1.36)12.7 (0.93)18.2 (1.11)17.6 (2.03)36.7 (4.30)37.6 (3.70)25.5 (1.99)17.8 (1.21)
Female5.9 (0.50)9.5 (1.15)7.9 (0.67)10.5 (1.33)9.1 (1.23)28.3 (2.81)32.9 (3.31)18.4 (1.95)12.3 (1.07)
Total8.3 (0.41)12.1 (1.04)10.3 (0.64)14.3 (0.85)13.2 (1.34)32.4 (3.15)35.1 (2.69)21.9 (1.77)15.0 (1.03)
pc<0.001<0.001<0.001<0.001<0.0010.0140.291<0.001< 0.001
a Based on the weighted data, excluding FAS missing data. b Indicates the total number of drinking students of that category. c Rao–Scott Chi-square tests were performed to examine the differences between males and females. r Indicates the regular senior high school. v Indicates the vocational senior high school.
The distribution of past-year frequency and quantity of alcohol use by gender is presented in Table 3. As with past and current history of alcohol use, frequency and quantity of alcohol consumption increased with grade level. Overall, during the past year, 29.7% of students at any grade level reported that they drank either once a month or less, 6.7% drank two to four times per month, and 2.0% drank two or more times weekly. With respect to quantity per occasion, among students at any grade level, 22.0% drank less than one drink, 11.4% consumed one to two drinks, 4.8% consumed three to six drinks, and 1.8% reached the maximum level of drinking of more than six drinks per occasion in the past year.
As shown in Table 4, the aORs for lifetime drinking (aOR = 0.72, 95% CI: 0.65–0.78), drinking in the past 30 days (aOR = 0.62, 95% CI: 0.54–0.71), and drinking in the past year (aOR = 0.64, 95% CI: 0.56–0.72) were lower among girls to boys. With the increase in grade level, students were more likely to report lifetime, past-year, or current drinking in comparison to younger students, after adjustment for covariates. This was especially true for vocational senior high school students where, for example, the 11th grade of vocational senior high school was associated with higher adjusted odds of drinking history (lifetime: aOR = 5.48, 95% CI: 4.37–6.88; past 30 days: aOR = 3.83, 95% CI: 3.16–4.71; past 12 months: aOR = 4.84, 95% CI: 3.79–6.17) than regular senior high school when compared to the youngest junior high students. Compared to students in Beijing, Shanghai’s students were more likely to consume alcohol in past-year (aOR = 1.49, 95% CI: 1.14–1.93) and Guangzhou’s students more likely to drink both in lifetime (aOR = 1.70, 95% CI: 1.40–2.08) and past-year (aOR = 1.98, 95% CI: 1.61–2.44). Students who did not live with their mothers, i.e., living with their fathers or the other relatives were more likely to report history of drinking in all three categories as compared by living with both parents. Similarly, students in high SES were also more likely to report a history of alcohol in all three categories compared to low SES.
Results of further examination of the riskiest patterns of drinking, i.e., binge drinking and drinking to intoxication, in association with socio-demographic factors is presented in Table 5. Females were less likely to engage in these drinking patterns (binge drinking: aOR = 0.39, 95% CI: 0.30–0.50; drinking to intoxication: aOR = 0.61, 95% CI: 0.53–0.69). From the junior high to senior high school students, higher-grade level was associated with riskier drinking patterns compared to younger students. As noted with history of alcohol, vocational senior high school students tend to drink in a risky pattern than regular senior high students compared to younger students. For example, the aOR for binge drinking in the overall senior high school second grade was 1.47 (95% CI: 0.97–2.22), whereas the aOR in the subset of those in the second grade of vocational high school was 6.01 (95% CI: 3.78–9.55). Students from Shanghai were less likely to involve in binge drinking (aOR = 0.62, 95% CI: 0.47–0.81) compared with Beijing. Students living with their fathers or living with the other relatives were significantly more likely to report binge drinking (fathers: aOR= 1.77, 95% CI: 1.20–2.62; others: aOR = 1.80, 95% CI: 1.38–2.36) and drinking until intoxication (fathers: aOR = 1.88, 95% CI: 1.42–2.49; others: aOR = 1.38, 95% CI: 1.21–1.69) in comparison to those who lived with both their parents. The high SES group tends to report binge drinking (aOR = 2.14, 95% CI: 1.58–2.88) and drinking until intoxication (aOR = 1.49, 95% CI: 1.26–1.76) in comparison to the low SES group.
Table 3. Drinking patterns during the past year by school and gender.
Table 3. Drinking patterns during the past year by school and gender.
PatternsJunior High School, % SEaSenior High School, % SEaTotal, % SEa
MaleFemaleTotalpcMaleFemaleTotalpcMaleFemaleTotalpc
Frequencyb <0.001 <0.001 <0.001
Did not drink last 12-months (n = 6693)65.9 (1.27)73.2 (1.74)69.5 (1.34)--42.7 (1.83)57.0 (1.92)49.9 (1.49)--56.5 (1.81)66.6 (1.45)61.5 (1.44)--
No more than once a month (n = 3916)25.7 (1.03)22.3 (1.36)24.0 (1.08)--41.0 (1.41)35.0 (1.61)38.0 (1.20)--31.9 (1.37)27.5 (1.09)29.7 (1.10)--
2–4 times a month (n = 916)6.3 (0.99)3.7 (0.46)5.0 (0.49)--11.9 (0.81)6.4 (0.69)9.1 (0.60)--8.6 (0.71)4.8 (0.43)6.7 (0.42)--
2–3 times a week (n = 191)1.4 (0.29)0.7 (0.18)1.0 (0.20)--2.5 (0.39)1.1 (0.19)1.8 (0.16)--1.9 (0.25)0.8 (0.14)1.3 (0.15)--
At least 4 times a week (n = 96)0.7 (0.19)0.1 (0.05)0.4 (0.10)--1.8 (0.39)0.5 (0.20)1.2 (0.21)--1.1 (0.20)0.3 (0.09)0.7 (0.11)--
Usual quantityb <0.001 <0.001 <0.001
Non-drinker (n = 6840)64.3 (1.36)71.9 (1.66)68.0 (1.33)--41.3 (1.75)55.5 (1.79)48.5 (1.40)--55.0 (1.85)65.1 (1.38)60.0 (1.43)--
<1 SDd (n = 2894)21.8 (0.89)18.5 (1.29)20.2 (0.90)--23.7 (1.02)25.6 (0.89)24.7 (0.82)--22.6 (0.70)21.4 (0.90)22.0 (0.69)--
1–2 SD (s) (n = 1614)9.9 (0.47)7.5 (0.56)8.7 (0.44)--18.8 (1.14)11.9 (0.75)15.3 (0.62)--13.5 (0.75)9.3 (0.38)11.4 (0.42)--
3–4 SDs (n = 535)1.9 (0.18)1.2 (0.13)1.6 (0.10)--8.3 (0.53)4.2 (0.58)6.2 (0.37)--4.5 (0.46)2.4 (0.32)3.5 (0.33)--
5–6 SDs (n = 205)0.9 (0.16)0.3 (0.08)0.6 (0.08)--3.3 (0.33)1.3 (0.21)2.3 (0.19)--1.8 (0.24)0.7 (0.11)1.3 (0.14)--
>6 SDs (n = 269)1.3 (0.33)0.7 (0.18)1.0 (0.19)--4.6 (0.53)1.5 (0.28)3.0 (0.32)--2.6 (0.34)1.0 (0.17)1.8 (0.21)--
a Based on the weighted data. b Indicates the total number of drinking students of that category. c Rao–Scott Chi-square tests were performed to examine the differences of the whole group. d One SD contains 10 grams of pure alcohol.
Table 4. Prevalence, adjusted odds ratios, and 95% confidence interval of lifetime drinking, drinking in the past 30 days and drinking in the past year by socio-demographic characteristics.
Table 4. Prevalence, adjusted odds ratios, and 95% confidence interval of lifetime drinking, drinking in the past 30 days and drinking in the past year by socio-demographic characteristics.
CharacteristicsLifetime DrinkingPast 30 Days DrinkingPast-Year Drinking
n%SEaaOR (95% CI)bpn%SEaaOR (95% CI)bpn%SEaaOR (95% CI) bp
Gender
Male349756.0 (1.84)1 (Reference)--165523.7 (1.29)1 (Reference)--271343.2 (1.82)1 (Reference)--
Female335848.9 (1.73)0.72 (0.65, 0.78)<0.001126216.7 (0.83)0.62 (0.54, 0.71)<0.001224933.6 (1.47)0.64 (0.56, 0.72)<0.001
Grade
Y7101439.5 (1.80)1 (Reference) --38914.0 (0.88)1 (Reference)--65725.6 (1.42)1 (Reference) --
Y8158547.3 (2.28)1.30 (1.06, 1.61)0.01464117.6 (1.12)1.28 (1.06, 1.53)0.009111334.1 (2.05)1.44 (1.18, 1.75)<0.001
Y10r90555.4 (1.70)2.05 (1.68, 2.49)<0.00135921.5 (2.03)1.71 (1.31, 2.22)<0.00169443.5 (1.74)2.45 (2.04, 2.95)<0.001
Y11r101659.0 (2.36)2.30 (1.93, 2.74)<0.00134618.3 (0.97)1.40 (1.15, 1.70)<0.00177044.4 (1.73)2.49 (2.12, 2.92)<0.001
Y10v109372.9 (2.78)4.63 (3.36, 6.39)<0.00154333.7 (2.68)3.47 (2.63, 4.58)<0.00179556.7 (3.52)4.21 (3.05, 5.80)<0.001
Y11v124277.5 (1.43)5.48 (4.37, 6.88)<0.00163936.7 (1.69)3.83 (3.16, 4.71)<0.00193361.7 (2.33)4.84 (3.79, 6.17)<0.001
Region
Beijing185047.1 (2.68)1 (Reference) --90520.5 (1.41)1 (Reference) --117629.7 (2.63)1 (Reference)--
Shanghai162250.1 (2.26)1.12 (0.89, 1.42)0.33867418.8 (1.29)0.86 (0.71, 1.03)0.103127138.3 (1.98)1.49 (1.14, 1.93)0.003
Guangzhou338358.8 (2.60)1.70 (1.40, 2.08)<0.001133821.6 (1.24)1.08 (0.89,1.31)0.455251544.2 (2.41)1.98 (1.61, 2.44)<0.001
Living with
Parents538351.6 (1.76)1 (Reference)--226519.5 (0.94)1 (Reference) --390337.7 (1.55)1 (Reference) --
Mother53450.0 (2.09)0.94 (0.79, 1.12)0.46421218.3 (1.29)0.93 (0.76, 1.13)0.43736934.8 (2.39)0.90 (0.73, 1.10)0.286
Father24062.8 (2.59)1.59 (1.30, 1.95)<0.00112428.4 (1.98)1.51 (1.21, 1.89)<0.00116845.7 (2.71)1.40 (1.16, 1.69)<0.001
Others69859.3 (1.85)1.15 (1.02, 1.31)0.02531625.5 (1.53)1.19 (1.01, 1.41)0.03752246.8 (2.00)1.26 (1.08, 1.47)0.003
SESc
Low134048.0 (1.87)1 (Reference)--50917.1 (1.15)1 (Reference) --91733.1 (1.65)1 (Reference)--
Middle355651.1 (2.19)1.18 (1.02, 1.37)0.026149519.0 (1.06)1.22 (1.04, 1.41)0.012255737.0 (1.94)1.26 (1.07,1.49)0.006
High195958.2 (1.73)1.74 (1.51, 2.01)<0.00191324.7 (1.23)1.82 (1.53, 2.15)<0.001148845.0 (1.77)1.98 (1.65,2.36)<0.001
a Percentage by column was based on the weighted data, excluding FAS missing data. b Odds ratio was adjusted for the other variables in the model. c SES was based on the FAS score. r Indicates the regular senior high school. v Indicates the vocational senior high school.
Table 5. Prevalence, adjusted odds ratios, and 95% confidence interval of binge drinking and drinking until intoxication based on socio-demographic characteristics.
Table 5. Prevalence, adjusted odds ratios, and 95% confidence interval of binge drinking and drinking until intoxication based on socio-demographic characteristics.
CharacteristicsBinge DrinkingDrinking until Intoxication
n%SEaaOR (95% CI)bpn%SEaaOR (95% CI)bp
Gender
Male5106.6 (0.62)1 (Reference)--127717.8 (1.17)1 (Reference)--
Female2252.9 (0.37)0.39 (0.30, 0.50)<0.00197912.2 (1.07)0.61 (0.53, 0.69)<0.001
Grade
Y7752.6 (0.43)1 (Reference)--2138.0 (0.42)1 (Reference)--
Y81143.5 (0.34)1.31 (0.91, 1.89)0.14741312.2 (1.00)1.56 (1.30, 1.87)<0.001
Y10r754.0 (0.73)1.54 (0.91, 2.63)0.11026514.4 (0.90)1.96 (1.62, 2.36)<0.001
Y11r733.7 (0.47)1.47 (0.97, 2.22)0.07028013.0 (1.14)1.74 (1.38, 2.20)<0.001
Y10v18810.9 (1.56)5.19 (3.30, 8.15)<0.00149332.2 (3.21)5.85 (4.34, 7.88)<0.001
Y11v21012.1 (1.62)6.01 (3.78, 9.55)<0.00159234.9 (2.65)6.54 (4.94, 8.65)<0.001
Region
Beijing2835.7 (0.66)1 (Reference)--71015.2 (1.21)1 (Reference)--
Shanghai1554.0 (0.63)0.62 (0.47, 0.81)<0.00149114.3 (1.36)0.84 (0.66, 1.06)0.132
Guangzhou2974.8 (0.57)0.83 (0.59, 1.17)0.288105515.7 (1.44)1.03 (0.82, 1.28)0.816
Living with
Parents5184.2 (0.40)1 (Reference)--169014.0 (1.01)1 (Reference)--
Mother614.6 (0.85)1.07 (0.73, 1.57)0.73718614.6 (1.05)1.03 (0.88, 1.21)0.701
Father418.4 (1.05)1.77 (1.20, 2.62)0.00410525.0 (2.27)1.88 (1.42, 2.49)<0.001
Others1159.2 (1.17)1.80 (1.38, 2.36)<0.00127521.8 (2.02)1.38 (1.21, 1.69)0.002
SESc
Low1214.1 (0.62)1 (Reference)--46114.5 (1.40)1 (Reference)--
Middle3363.8 (0.51)1.03 (0.81, 1.31)0.801113714.1 (1.18)1.09 (0.90, 1.32)0.392
High2787.0 (0.54)2.14 (1.58, 2.88)<0.00165817.1 (1.04)1.49 (1.26, 1.76)<0.001
a percentage by column based on the weighted data, excluding FAS missing data. b Odds ratio was adjusted for the other variables in the model. c SES was based on the FAS score. r Indicates the regular senior high school. v Indicates the vocational senior high school.

4. Discussion

By examining representative samples of students attending junior and senior high schools in three metropolises in China, this study provides the most current estimates of the prevalence of alcohol consumption and the characteristics of drinkers among Chinese youth. In addition, to our knowledge, this study is the first that incorporated standard drink size using a visual aid into the calculation of alcohol consumption which not only improves the estimation of quantity, but also helps with recall [27,28,29].
We found that the prevalence of drinking in senior high school students was higher than that in junior high school students; specifically, the drinking rate of vocational senior high school students was highest. In addition, a clear male and female difference regarding alcohol use were observed, except in the vocational senior high school students.
There has been no uniform definition of “drinker” used in alcohol research conducted among adolescents in China [30]; therefore, all results from previous surveys cannot be compared with each other. For example, one definition used previously defined “drinker” as an individual who drank at least one time, regardless of the quantity of alcohol consumed [31,32,33]. In another previous study, “drinker” was defined as an individual who drank a certain quantity of wine, for example, at least one glass or a small amount excluding a few sips [34,35]. Nevertheless, compared with studies using these former definitions, our findings regarding the prevalence of current drinking, which was 16.0% for all students (18.2% for boys and 13.9% for girls) in junior high school (usually in the age range of 13 to 15 years) was higher than rates reported in the GSHS fact sheet (13.0% for all students; 17.7% for boys; 8.6% for girls). Similarly, prevalence of lifetime and current drinking are higher in the present study than those were previously observed in a previous report in 2002 [32]. Notably, 21.6% of current junior high school students in Guangzhou consumed alcohol in the present study, higher than 15.7% that was reported in 2009 [36]. These figures might be interpreted as an escalation in drinking among youth in metropolises.
We also find higher rates in the present study compared with similar research in some other Asian countries, where the definition of “drinker” consisted of drinking any amount of alcoholic beverage. For example, in a 2008 Japanese study, 60.9% of 11th grade students consumed alcohol [37], which was lower than the 64.7% of our senior high school students who consumed alcohol. However, in a study of Korean students grades 6 through 12, 61.9% of males and 61.1% of females reported lifetime drinking, which was comparable to our results in China [38].
In contrast, our prevalence estimates were generally lower than those reported in western countries. For example, 70.8% of 9th to 12th grade adolescents reported any lifetime drinking in the U.S. (Centers for Disease Control and Prevention, 2011); 59.0% of 12 to 17 year olds in Mexico reported any lifetime drinking [39]; 25.9% of Asian/Pacific Islander adolescents reported drinking in the last 30 days [40]; and 82.6% of Swiss high school students 13 to 16 years of age reported drinking in the past year [41].
Although the prevalence of alcohol use among Chinese students was lower than certain western countries, an increasing trend has been observed in the past decades, as could be explained by a number of interconnected reasons. From the aspect of Chinese tradition, high school students are still considered as ‘‘children’’ by their parents and therefore they usually live with their family and obey parental orders with less rebellion at this age, yet in Western societies, this is less commonly observed. However, probably as a result of globalization, the Chinese youth are more likely to be exposed and influenced by Western culture during the past decades, which may change the Chinese tradition to some extent. The reasons for alcohol consumption in younger adolescents maybe due to the following reason: in some major Chinese festivals or parties, alcohol use is allowed and sometimes encouraged by parents, especially the grandfathers because drinking alcohol can contribute to the happiness. However, only a small amount or sips of alcoholic beverage may be allowed for most of the children.
The prevalence of lifetime alcohol use in this sample is associated with various factors, such as being male, having a higher SES, and living with fathers only. Past year drinking, current drinking, and drinking until intoxication, were associated with similar variables. The high-grade level students reported a higher frequency and quantity of consumption. There were no grade differences in the prevalence of binge drinking in the junior high school and regular senior high school students. There are numbers of interconnected reasons for this. Alcohol is considered an important tool of social communication in Chinese culture, especially for male drinkers. To some extent, this concept may also affect the social activities among young people. Some vocational senior high school individuals may start their professional career, having no limitation in alcohol consumption. Hence, there is a higher prevalence of binge drinking and drinking until intoxication among this group. Meanwhile, the prevalence showed the regional discrepancies. The following reasons may explain this. As coastal metropolis, Shanghai and Guangzhou have more trade opportunities and culture communications than Beijing, and the students' minds in these areas are more active, more like some stimulus.
Adolescent parental divorce/separation and parental history of alcohol abuse were significantly related to offspring drinking behavior [42,43,44]. In particular, males were more susceptible to binge drinking or drinking until intoxication [45,46]. Thus, adolescents who lived with their fathers may have received more encouragement to drink. In addition, adolescents with higher SES may have more pocket money to purchase drinks in pubs and parties. This is consistent with findings among British adolescents [47].
There are certain limitations in our study. First, as in most observational studies, all data were obtained through self-reports, and inaccurate recall or under-reporting may affect our results. Second, students were selected from the classes with mixed academic performance, and dropouts who were in a similar age range were excluded. If students who drop out from school are at high risk for drinking, we may have underestimated the prevalence for the whole population. Next, the study was carried out in three metropolises in China; therefore, the results cannot represent the entire country's actual adolescent drinking prevalence and patterns.

5. Conclusions

The information obtained from the current study among young students should draw attention to the need for school administrators as well as educational and public health agencies to collaborate in attempts to reduce alcohol availability, and to reduce drinking among young people.

Acknowledgements

Many thanks to the Pernod Ricard (China) Trading Co. Ltd. for funding the Survey on alcohol use among school students. We grateful thank Christina Chambers and Wenqiang Chen for the helpful editorial assistance, and Rhonghui Xu for the statistical method assistance on the manuscript. We thank the co-investigators of the survey for coordinating in data collection and management, namely, Chaoyang District Center for Disease Control and Prevention (CDC), Xicheng District CDC, Huairou District CDC and Tongzhou District CDC for Beijing region, Changning District CDC, Zhabei District CDC, Pudong new area CDC, Minhang District CDC and Shanghai CDC for Shanghai region, Guangzhou CDC and the Health Care Institution for the Primary and Junior School for Guangzhou region.

Author Contributions

Shijun Lu was responsible for implementation of the survey, undertook the statistical analysis and wrote the first draft of the manuscript. Guansheng Ma designed the survey and provided substantive revisions to the initial draft. Songming Du was responsible for quality control during fieldwork and made a significant intellectual contribution to the study design, interpretation of data. Xiaoqi Hu, Shurong Zou, Weijia Liu and Lei Ba participated in the supervision of fieldwork and interpretation of the data. All authors discussed the results and commented on the final versions of the manuscript and have approved the final manuscript. The Pernod Ricard (China) Trading Co. Ltd. have no future role in study design, the collection, analysis and interpretation of data, the writing of the report or in the decision to submit the paper for publication.

Conflicts of Interest

The authors declare no conflict of interest.

References

  1. Kuntsche, E.; Kuntsche, S.; Knibbe, R.; Simons-Morton, B.; Farhat, T.; Hublet, A.; Bendtsen, P.; Godeau, E.; Demetrovics, Z. Cultural and gender convergence in adolescent drunkenness: Evidence from 23 European and North American countries. Arch. Pediatr. Adolesc. Med. 2011, 165, 152–158. [Google Scholar] [CrossRef] [PubMed]
  2. Zeigler, D.W.; Wang, C.C.; Yoast, R.A.; Dickinson, B.D.; McCaffree, M.A.; Robinowitz, C.B.; Sterling, M.L. The neurocognitive effects of alcohol on adolescents and college students. Prev. Med. 2005, 40, 23–32. [Google Scholar] [CrossRef] [PubMed]
  3. Guerri, C.; Pascual, M. Mechanisms involved in the neurotoxic, cognitive, and neurobehavioral effects of alcohol consumption during adolescence. Alcohol 2010, 44, 15–26. [Google Scholar] [CrossRef] [PubMed]
  4. Squeglia, L.M.; Jacobus, J.; Tapert, S.F. The effect of alcohol use on human adolescent brain structures and systems. Handb. Clin. Neurol. 2014, 125, 501–510. [Google Scholar] [PubMed]
  5. López-Caneda, E.; Mota, N.; Crego, A.; Velasquez, T.; Corral, M.; Rodríguez Holguín, S.; Cadaveira, F. Neurocognitive anomalies associated with the binge drinking pattern of alcohol consumption in adolescents and young people: A review. Adicciones. 2014, 26, 334–359. [Google Scholar] [PubMed]
  6. Salome, H.J.; French, M.T.; Matzger, H.; Weisner, C. Alcohol consumption, risk of injury, and high-cost medical care. J. Behav. Health Serv. Res. 2005, 32, 368–380. [Google Scholar] [CrossRef] [PubMed]
  7. Gilder, D.A.; Ehlers, C.L. Depression symptoms associated with cannabis dependence in an adolescent American Indian community sample. Am. J. Addict. 2012, 21, 536–543. [Google Scholar] [CrossRef] [PubMed]
  8. Hermens, D.F.; Lagopoulos, J.; Tobias-Webb, J.; De Regt, T.; Dore, G.; Juckes, L.; Latt, N.; Hickie, I.B. Pathways to alcohol-induced brain impairment in young people: A review. Cortex 2013, 49, 3–17. [Google Scholar] [CrossRef] [PubMed]
  9. World Health Organization. Alcohol Use and Sexual Risk Behaviour: A Cross-Cultural Study In Eight Countries; World Health Organization: Geneva, Switzerland, 2005. [Google Scholar]
  10. Hildebrand, J.; Maycock, B.; Howat, P.; Burns, S.; Allsop, S.; Dhaliwal, S.; Lobo, R. Investigation of alcohol-related social norms among youth aged 14–17 years in Perth, Western Australia: Protocol for a respondent-driven sampling study. BMJ Open 2013, 22. [Google Scholar] [CrossRef]
  11. Centers for Disease Control and Prevention. Youth Risk Behavior Surveillance Results & Fact Sheets. Available online: http://www.cdc.gov/healthyyouth/yrbs/index.htm (assessed on 2 February 2015).
  12. The European School Survey Project on Alcohol and Other Drugs. The 2011 Espad Report. Available online: http://www.espad.org/en/Reports--Documents/ESPAD-Reports/ (assessed on 2 February 2015).
  13. Xu, S.H. The dominate Chinese wine culture. Sci. Chinese 1999, 2, 45–48. (In Chinese) [Google Scholar]
  14. Hou, W.J.; Chen, W.; Zhang, Y.F. The 30 years of reform and opening up: Development of Chinese youth population and trends. Youngth Stud. 2009, 3, 64–69. (In Chinese) [Google Scholar]
  15. Turner, C. How much alcohol is in a “tandard drink”? An analysis of 125 studies. Br. J. Addict. 1990, 85, 1171–1175. [Google Scholar] [CrossRef]
  16. World Health Organization. International Guide for Monitoring Alcohol Consumption and Related Harm; World Health Organization: Geneva, Switzerland, 2000. [Google Scholar]
  17. Kaskutas, L.A.; Kerr, W.C. Accuracy of photographs to capture respondent-defined drink size. J. Stud. Alcohol Drugs. 2008, 69, 605–610. [Google Scholar] [PubMed]
  18. McLanahan, S.; Sandefur, G. Growing Up with A Single Parent; Harvard University Press: Cambridge, MA, USA, 1994. [Google Scholar]
  19. Barrett, A.E.; Turner, R.J. Family structure and substance use problems in adolescence and early adulthood: Examining explanations for the relationship. Addiction 2006, 101, 109–120. [Google Scholar] [CrossRef] [PubMed]
  20. Poonawalla, I.B.; Kendzor, D.E.; Owen, M.T.; Caughy, M.O. Family income trajectory during childhood is associated with adolescent cigarette smoking and alcohol use. Addict. Behav. 2014, 39, 1383–1388. [Google Scholar] [CrossRef] [PubMed]
  21. Zhang, Y. The marital situation and its changing tendency in China today. Hebei Acad. J. 2008, 28, 6–12. (In Chinese) [Google Scholar]
  22. Wei, G.X.; Chang, X.H. The analysis of urban and rural residents’ income situation in 2012 and outlook in 2013. China Price 2013, 1, 23–25. (In Chinese) [Google Scholar]
  23. Wang, L.D. The First Report of Chinese Nutrition and Health Survey; People’s Medical Publishing House: Beijing, China, 2005. (In Chinese) [Google Scholar]
  24. World Health Organization. Core Questionnaire Modules & Core-Expanded Questions. Available online: http://www.who.int/chp/gshs/methodology/en/index.html (assessed on 2 February 2015).
  25. Torsheim, T.; Currie, C.; Boyce, W.; Kalnins, I.; Overpeck, M.; Haugland, S. Material deprivation and self-rated health: A multilevel study of adolescents from 22 European and North American countries. Soc. Sci. Med. 2004, 59, 1–12. [Google Scholar] [CrossRef] [PubMed]
  26. Currie, C.; Molcho, M.; Boyce, W.; Holstein, B.; Torsheim, T.; Richter, M. Researching health inequalities in adolescents: The development of the health behaviour in school-aged children (HBSC) family affluence scale. Soc. Sci. Med. 2008, 66, 1429–1436. [Google Scholar] [CrossRef] [PubMed]
  27. Rodriguez-Martos, D.A.; Gual, S.A.; Llopis, L.J. The “standard drink unit” as a simplified record of alcoholic drink consumption and its measurement in Spain. Med. Clin-Barcelona 1999, 112, 446–450. [Google Scholar]
  28. Kerr, W.C.; Stockwell, T. Understanding standard drinks and drinking guidelines. Drug Alcohol Rev. 2012, 31, 200–205. [Google Scholar] [CrossRef] [PubMed]
  29. Kerr, W.C.; Greenfield, T.K.; Tujague, J.; Brown, S.E. A drink is a drink? Variation in the amount of alcohol contained in beer, wine and spirits drinks in a us methodological sample. Alcohol Clin. Exp. Res. 2005, 29, 2015–2021. [Google Scholar]
  30. Ian, M.N.; Qian, L.; Zhang, J.G.; Zhao, J.; Zhang, Y. Review of drinking status of Chinese high school students. Chin. J. Sch. Health 2009, 30, 1139–1143. [Google Scholar]
  31. Zhou, X.; Su, Z.; Deng, H.; Xiang, X.; Chen, H.; Hao, W. A comparative survey on alcohol and tobacco use in urban and rural populations in the Huaihua district of Hunan Province, China. Alcohol 2006, 39, 87–96. [Google Scholar] [CrossRef] [PubMed]
  32. Luo, C.Y.; Peng, N.N.; Zhu, W.; Zhou, Y.F.; Gao, G.D. Risk behaviors of adolescents in Shanghai 3: Smoking, drinking and addictive drug use. Chin. J. Sch. Dr. 2003, 17, 104–107. (In Chinese) [Google Scholar]
  33. Asiya, A.; Minarwar, A.; Pa, L.Z.; Wang, H.; Zhang, J.; Liu, L.H. Smoking and drinking behaviors among adolescents in three cities of Xinjiang. Chin. J. Sch. Health 2007, 28, 325–326. (In Chinese) [Google Scholar]
  34. Xing, Y.; Ji, C.Y.; Pan, Y.P.; Ji, H.; Zhang, L. Prevalence of smoking drinking and addictive substance use among middle students in Beijing. Chin. J. Sch. Health 2005, 26, 18–19. (In Chinese) [Google Scholar]
  35. Sun, J.P.; Song, Y.; Ma, Y.H.; Chen, H.; Chen, J.Q.; Yu, X.M.; Zhang, B.; Si, Q.; Ji, H. Risk behaviors of secondary school students in five provinces and cities of China 3: Smoking, drinking and addictive drug use. Chin. J. Sch. Health 2001, 22, 396–398. (In Chinese) [Google Scholar]
  36. Cai, E.H.; Ye, D.Y.; Cai, S.X.; Wang, D.Q.; Chen, W.Y.; Li, K. Analysis of related factors and education strategy of drinking behavior among adolescents. Chinese J. child health care 2011, 19, 963–965. (In Chinese) [Google Scholar]
  37. Kanda, H.; Osaki, Y.; Kaneita, Y.; Itani, O.; Ikeda, M.; Ohida, T.; Higuchi, S. Alcohol drinking rates of male between 7th and 11th graders in japan decreased gradually based on nationwide repeated cross-sectional surveys from 1996 to 2008. Health (Irvine Calif) 2013, 5, 12–17. [Google Scholar]
  38. Kim, D.S.; Kim, H.S. Early initiation of alcohol drinking, cigarette smoking, and sexual intercourse linked to suicidal ideation and attempts: Findings from the 2006 Korean youth risk behavior survey. Yonsei Med. J. 2010, 51, 18–26. [Google Scholar] [CrossRef] [PubMed]
  39. Benjet, C.; Borges, G.; Méndez, E.; Casanova, L.; Medina-Mora, M.E. Adolescent alcohol use and alcohol use disorders in Mexico City. Drug Alcohol Depend. 2014, 136, 43–50. [Google Scholar] [CrossRef] [PubMed]
  40. Kim, J.; McCarthy, W.J. School-level contextual influences on smoking and drinking among Asian and Pacific islander adolescents. Drug Alcohol Depend. 2006, 84, 56–68. [Google Scholar] [CrossRef] [PubMed]
  41. Gmel, G.; Kuntsche, E.; Wicki, M.; Labhart, F. Measuring alcohol-related consequences in school surveys: Alcohol-attributable consequences or consequences with students’ alcohol attribution. Am. J. Epidemiol. 2010, 171, 93–104. [Google Scholar] [CrossRef] [PubMed]
  42. Stickley, A.; Koyanagi, A.; Koposov, R.; Razvodovsky, Y.; Ruchkin, V. Adolescent binge drinking and risky health behaviours: Findings from Northern Russia. Drug Alcohol Depend. 2013, 133, 838–844. [Google Scholar] [CrossRef] [PubMed]
  43. Thompson, R.G.J.; Lizardi, D.; Keyes, K.M.; Hasin, D.S. Childhood or adolescent parental divorce/separation, parental history of alcohol problems, and offspring lifetime alcohol dependence. Drug Alcohol Depend. 2008, 98, 264–269. [Google Scholar] [CrossRef] [PubMed]
  44. Alati, R.; Baker, P.; Betts, K.S.; Connor, J.P.; Little, K.; Sanson, A.; Olsson, C.A. The role of parental alcohol use, parental discipline and antisocial behaviour on adolescent drinking trajectories. Drug Alcohol Depend. 2014, 134, 178–184. [Google Scholar] [CrossRef] [PubMed]
  45. Cochrane, J.; Chen, H.; Conigrave, K.M.; Hao, W. Alcohol use in China. Alcohol Alcohol. 2003, 38, 537–542. [Google Scholar] [CrossRef] [PubMed]
  46. Hao, W.; Su, Z.; Liu, B.; Zhang, K.; Yang, H.; Chen, S.; Biao, M.; Cui, C. Drinking and drinking patterns and health status in the general population of five areas of China. Alcohol alcoholism 2004, 39, 43–52. [Google Scholar] [CrossRef] [PubMed]
  47. Bellis, M.A.; Hughes, K.; Morleo, M.; Tocque, K.; Hughes, S.; Allen, T.; Harrison, D.; Fe-Rodriguez, E. Predictors of risky alcohol consumption in schoolchildren and their implications for preventing alcohol-related harm. Subst. Abuse Treat. Prev. Policy 2007, 2, 15. [Google Scholar] [CrossRef] [PubMed] [Green Version]

Share and Cite

MDPI and ACS Style

Lu, S.; Du, S.; Hu, X.; Zou, S.; Liu, W.; Ba, L.; Ma, G. Drinking Patterns and the Association between Socio-Demographic Factors and Adolescents’ Alcohol Use in Three Metropolises in China. Int. J. Environ. Res. Public Health 2015, 12, 2037-2053. https://doi.org/10.3390/ijerph120202037

AMA Style

Lu S, Du S, Hu X, Zou S, Liu W, Ba L, Ma G. Drinking Patterns and the Association between Socio-Demographic Factors and Adolescents’ Alcohol Use in Three Metropolises in China. International Journal of Environmental Research and Public Health. 2015; 12(2):2037-2053. https://doi.org/10.3390/ijerph120202037

Chicago/Turabian Style

Lu, Shijun, Songming Du, Xiaoqi Hu, Shurong Zou, Weijia Liu, Lei Ba, and Guansheng Ma. 2015. "Drinking Patterns and the Association between Socio-Demographic Factors and Adolescents’ Alcohol Use in Three Metropolises in China" International Journal of Environmental Research and Public Health 12, no. 2: 2037-2053. https://doi.org/10.3390/ijerph120202037

Article Metrics

Back to TopTop