Background
During adolescence, defined by the WHO as ages 10–19 y, the development of the reward and pleasure centers in the brain contributes to risk-taking and sensation-seeking, rendering a degree of experimentation a normative attribute of adolescence [
1,
2]. Six of the ten leading risk factors of morbidity and mortality among young people ages 15–19 y, and three of the ten among young people age 10 to 14 y, are behavioral, including smoking, alcohol use, drug use, and unsafe sex [
3]. When established in adolescence, behavioral risk factors have consequences that extend into adulthood. Early tobacco use increases the risk of regular tobacco and cannabis use, use of hard drugs and drug problems, alcohol problems, and early pregnancy [
4‐
7]. Earlier age of first alcohol use predicts alcohol abuse and lifetime dependence and other substance use [
5,
8‐
12]. Earlier sexual debut increases the number of sexual partners and risk of pregnancy and STIs including HIV [
13].
Risk behaviors have long been known to co-occur. Previous work has generally examined either multiple behaviors at a single time point or a single behavior across multiple time points. Studies examining multiple behaviors at a single time point cannot account for changes in risk behavior co-occurrence over time [
14,
15]. Studies examining a single behavior over multiple time points often use latent class growth analysis to provide a detailed understanding of that behavior but do not account for co-occurrence with other behaviors [
16‐
18]. Less is known about patterns of risk behavior engagement across adolescence. Understanding these patterns requires longitudinal data on multiple risk behaviors to identify subgroups of individuals with similar profiles of risk behavior engagement [
14,
15,
19]. Improved understanding of patterns of initial risk behavior engagement may allow for more efficient targeting of primary prevention efforts to prevent initial engagement in adolescence and secondary prevention efforts intended to mitigate the adoption of risk behavior activity.
Ninety percent of the world’s adolescents live in low and middle-income countries, yet there is a paucity of longitudinal data on adolescent health from these settings [
20]. To improve our understanding of health risk behaviors among adolescents in urban South Africa, we describe longitudinal patterns of smoking, alcohol, cannabis, illicit drug, and sexual activity initial engagement and adolescent pregnancy; examine current behavior at age 18 y by childhood and adolescent stage of initial engagement; and use clustering analysis to characterize patterns of risk behavior initial engagement.
Methods
Birth to twenty plus (Bt20+) cohort
Birth to Twenty Plus (Bt20+) is an observational birth cohort in Soweto-Johannesburg, South Africa. The study enrolled singleton children born between April and June 1990 who resided in the municipal area for a minimum of 6 months after birth (
N = 3273). Almost 70% of cohort members were still traceable when they were age 17 y, with the majority of attrition occurring during the preschool years [
21].
Ethical approval
Ethical clearance for this study was provided by the University of the Witwatersrand Human Research Ethics Committee for Research on Human Subjects (M181186) and the Emory University Institutional Review Board (00062989).
Data collection
We used data from 7 waves of data collected in adolescence (we refer to these as the age 11, 13, 14, 15, 16, 17, and 18 y study visits) and pregnancy data through age 18 y from ongoing pregnancy and live birth surveillance. Study visits were completed at the Developmental Pathways for Health Research Unit at Chris Hani Baragwanath Hospital in Soweto. Data were collected by interview or using self-administered questionnaires. Self-administered questionnaires were completed on paper at the Year 11, 13, and 14 study visits, and using an audio computer-aided self-administered interview (CASI) system at ages 15, 16, 17, and 18 y.
Risk behaviors
The risk behaviors of interest include cigarette smoking, alcohol use, cannabis use, illicit drug use, and sexual activity. Questions were adapted from the US and South African Youth Risk Behavior Surveys, with additional items developed specifically for the study [
22,
23]. Questions on cigarette smoking and sexual activity were asked at all adolescent study visits; alcohol use at ages 11, 13, and 18 y; cannabis use from age 11 to 15 y; and illicit drug use at ages 11, 13, 14, 15, 17 and 18 y. For each risk behavior, data were captured on three aspects: 1) initial risk behavior engagement; 2) age of initial engagement; and 3) use or activity in the past month as of the age 18 y study visit.
Risk behavior initial engagement
We defined risk behavior initial engagement as an affirmative response to a Yes/No question about ever engaging in a behavior (e.g. Have you ever tried or experimented with cigarette smoking, even 1 or 2 puffs?). We defined illicit drug use initial engagement as an affirmative response to at least one question about ever use of five drugs for which repeated measures were available (inhalants/glue, ecstasy, mandrax (Quaaludes), cocaine, or LSD) at ages 11, 13, 14, and 15 y or an affirmative response to any lifetime drug use at the age 17 and 18 y study visits.
Age of initial engagement
We defined age of initial engagement using the age of first engagement reported by the Bt20+ participant. If this was unavailable, we used the individual’s age at the time of the study visit or, if this could not be calculated from the date of the visit and the date of birth, we assigned the age corresponding to the year of study visit (Supplemental Table
1). Age of initial engagement was not asked for cannabis and illicit drug use. For these behaviors we assigned the respondent’s exact age or the age corresponding to the study year the first time these were reported. For all behaviors we set implausible ages of initial engagement (ages > 2 years above the study visit OR ages < 5 y) to missing. Using age of initial engagement we defined stages of initiation as childhood (< 11 y), early adolescence (11–13 y), mid adolescence (14–16 y), or late adolescence (17–18 y), never at age 18 y, and status unknown at age 18 y.
Current activity at age 18 y
We defined current activity at 18 y as an affirmative response to a Yes/No question about use or activity in the past 30 days.
Adolescent pregnancy
We defined adolescent pregnancy as an affirmative response to the pregnancy history question, first asked at age 15 y, or having report of pregnancy through age 18 y in the surveillance system. We defined age of adolescent pregnancy using the age captured in the surveillance system, the respondent’s exact age at the study visit, or the age corresponding to the study year, in that order.
Sociodemographic characteristics
Maternal age at birth, years of schooling, and marital status were collected at enrollment into the study. We used tertiles of the number of household assets owned as a measure of socioeconomic position in early life (using data from age 0–2 y) and in childhood (using data from age 7 y supplemented with data from age 5 y).
At the age 0–2, 5, and 7 y study visits mothers were asked about stress and violence events experienced in the past 6 months. We characterized childhood exposure to stress as the number of study waves at which the mother reported more than the sample median number of events.
Analytical sample
We excluded cohort members from non-Black African population groups (22% of the cohort) who comprise less than 10% of the population in Soweto-Johannesburg. Of the 2568 Black African participants enrolled in the cohort, 1822 attended at least one study visit during adolescence and contributed information for at least one risk behavior of interest. We excluded 82 individuals who reported sexual activity prior to age 12 y from the sexual activity and pregnancy analyses as this was before the legal age of consent. To maximize sample sizes, we retained participants with data on any of the measures of interest in the analytical dataset; therefore, the sample sizes vary by measure (Supplemental Figure
1, Supplemental Table
2).
Risk behavior descriptive analyses
We fit Kaplan-Meier curves for each behavior to estimate the probability of reaching age 19 y without initiating that behavior. Individuals who did not report an event were censored using their age at the last study visit they attended. We examined current behavior activity at age 18 y and used chi-square tests to examine associations between childhood and adolescent stage of first risk behavior engagement and current activity at 18 y.
Cluster analysis and risk behavior profiles
We conducted a hierarchical agglomerative cluster analysis among 1126 individuals for whom status was known for all risk behaviors. We used Gower’s method to calculate the dissimilarity matrix between individuals based on childhood and adolescent stage of initial engagement and applied Ward’s method to evaluate the similarity between clusters and determine which clusters to combine at each iteration, and calculated a series of fit indices using the NbClust R package [
24,
25]. For females, a three-cluster solution was indicated by a majority of the fit statistics. Although a two-cluster solution was indicated by the same criterion among males, the addition of a third cluster meaningfully differentiated an additional subgroup of adolescents by subdividing the first cluster into two, without crossover from the other cluster (Supplemental Table
3). To characterize the clusters, we examined the median age of initial engagement for each risk behavior. We examined associations of sociodemographic characteristics with age of initial engagement for each behavior individually using linear regression and with cluster membership using chi-square tests.
Sensitivity analysis
We compared demographic characteristics of individuals included in the analytical sample to those who were excluded to assess potential bias due to attrition prior to adolescence, nonresponse to the risk behavior questions, or reported sexual activity before the age of consent. We compared individuals included in the cluster analysis to individuals with incomplete information to assess selection bias in the cluster analysis. All analyses were sex-specific and conducted using R version 3.5.3 [
26]. We considered two-sided
p-values < 0.05 statistically significant.
Discussion
In this cohort of urban dwelling Black African adolescents, risk behavior engagement was common and clustered into three distinct profiles that reflect low, moderate, and high-risk patterns of initial risk behavior engagement across adolescence. Interestingly, household sociodemographic factors did not predict profiles of risk.
In Bt20+, the proportions of 18 year old students who had ever smoked, used alcohol, used cannabis, used illicit drugs (males only), engaged in sexual activity, or been pregnant were substantially higher compared to 18 year olds in the 2008 South African Youth Risk Behavior Survey (SA YRBS), a nationally representative survey of South African students [
14]. For example, in Bt20+, 86% among males and 72% among females reported having ever smoked by age 18 compared to 37% of males and 18% of females in the SA YRBS. These differences may be attributable to differences in survey methodology as cross-sectional studies are prone to recall bias [
27]. Additionally, risk patterning may differ by race and urbanicity. Compared to other racial groups (White, Coloured, and Indian) smoking and alcohol experimentation were lower among Black Africans, while drug use and sexual activity were higher in the SA YRBS. Compared to the national average, smoking and alcohol experimentation were higher in provinces with large urban centers, such as Gauteng province, where Bt20+ is located.
Unsurprisingly, current substance use at age 18 y was lower than the rate of engagement as not all behaviors experimented with will become adopted. Persistent use depends on personal preferences, access, and acceptability as the acceptability of different risk behaviors changes with age. Over 60% of Bt20+ participants who experimented with smoking cigarettes no longer smoked at age 18 y. In contrast, over half of individuals who experimented with alcohol were still using alcohol at age 18 y. In the 2008 SA YRBS, 30% of youth who experimented with smoking were no longer currently smoking at age 18 y. In the SA YRBS, 25 to 35% of individuals who ever used alcohol, currently drank at age 18 y [
14]. Smaller differences of smoking cessation and current alcohol use in the SA YRBS compared to Bt20+ may be attributable to differences between the nationally representative or cross-sectional nature of the SA YRBS compared to Bt20+.
We identified three distinct subgroups reflecting low, moderate, and high-risk patterns of initial risk behavior engagement. As clustering analyses are data driven, it is challenging to draw comparisons with other studies. The results of a cluster analysis of university students in the UK identified three clusters based on smoking and alcohol use as well as stress and lifestyle factors [
15]. Like the moderate and high-risk clusters in this study, one of their clusters was characterized by smoking and binge drinking, though that study did not consider illicit drug use.
In an analysis of a representative sample from the Netherlands, risk behaviors were shown to cluster differently with age. Specifically, smoking, alcohol use, and drug use clustered together among adolescents age 12 to 15 y (questions about unsafe sex were not asked of this age group), while at ages 16 to 18 y unsafe sex and alcohol use clustered together, and smoking, drug use, and other delinquent behaviors clustered together [
19]. Individuals in our high-risk cluster initiated smoking and alcohol use at above average rates in early adolescence and illicit drug use before age 17 y and initiated sexual activity at above average rates in early and mid-adolescence. The Dutch study identified a “healthy” cluster characterized by favorable diet and physical activity behaviors; we did not examine these behaviors in this analysis.
A cluster analysis in the 2008 South African YRBS identified low, intermediate, and high-risk clusters. Individuals in the YRBS high-risk cluster had substance use, sexual behavior, and traffic safety domain scores at least twice the national average [
14]. In our high-risk cluster, illicit drug use was initiated at greater than twice the national rate and sexual activity engagement was above average.
Finally, the temporal sequencing of risk behavior engagement in our high-risk cluster is consistent with other findings that have shown smoking and alcohol experimentation in early adolescence are associated with subsequent cannabis and illicit drug use [
6,
10]. Bt20+ females in the high-risk cluster were more likely to become pregnant during adolescence, a life-altering event that limits girls’ educational and socioeconomic prospects. Associations of socioeconomic status with cluster assignment in other studies have been mixed, with higher socioeconomic status associated with both low risk cluster membership and engagement in increased number of risk behaviors [
14,
28,
29]. Interestingly, none of the sociodemographic characteristics considered were associated with cluster assignment. Further research is needed to identify predictors of cluster membership.
Strengths
We used longitudinal data to describe smoking, alcohol use, cannabis use, illicit drug use, and sexual activity initial engagement and adolescent pregnancy over the course of adolescence in an urban, middle-income country context underrepresented in the literature. Our study had high response rates and limited attrition during follow up. Due to the longitudinal design, we were able to describe patterns of adolescent risk behavior engagement prospectively, thus limiting recall bias.
Limitations
Some limitations should also be considered. The analyses use self-reported data, which may introduce bias, though anonymity was assured during data collection. We used paper-based self-administered questionnaires until age 14 y, after which an audio-CASI was used though both approaches have demonstrated acceptable validity and reliability for sensitive subjects [
30‐
35]. Though current risk behavior engagement was not asked at each survey wave, we were able to use serial measures of lifetime use to determine a child’s age of initial engagement. This was less precise for cannabis and illicit drug use where the child was not asked about their age at first use and we used their age corresponding to the study wave. Though the data used in this analysis were collected from 2001 to 2009, cross-sectional surveys of youth risk behavior in South Africa from 2002 to 2011 showed little to no change in the prevalence of adolescent risk behaviors [
14,
23,
36].
Public health implications
High levels of risk behavior engagement support the use of public health interventions to prevent initial engagement and long-term persistence. Distinct patterns of initial engagement inform the type of prevention efforts warranted, when they should be implemented, and which behaviors should be targeted together. By age 13 y, smoking and alcohol use prevalence were already > 20% in girls and 35% in boys, therefore primary prevention efforts should be targeted to younger children. By the end of early adolescence, secondary prevention efforts to mitigate risk behavior engagement should be incorporated. As observed in the moderate and high-risk engagement patterns, smoking and alcohol use are often initiated in the same stage of adolescence (early or mid) while cannabis and illicit drug use are more likely to be initiated in mid-adolescence.
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