Fixed orthodontic appliances and adolescents’ peer relations in school

We analysed cross-sectional network data from the large-scale school survey “Social Integration and Boundary Making in Adolescence (Socialbond)” which was conducted in Germany in the school year 2018/2019. The Socialbond survey targeted students attending seventh grade (i.e. ages 12/13) in the federal state of North Rhine–Westphalia, yielding 2284 schools eligible for participation. The sampling strategy proceeded in two stages. At the first stage, schools were conveniently sampled while aiming for schools of all major school types as well as both rural and urban schools. A total of 220 schools had to be contacted to realize the targeted sample size of 40 participating schools (school participation rate at 18%). At the second stage, all 3950 students attending seventh grade in these schools were eligible to participate, resulting in clustered data on same-cohort students nested in schools. Overall, 3002 students (47% girls, 53% boys) participated in the survey (participation rate at 76%). Case-wise deletion of observations with missing data yielded an analytic sample size of 2910 students. Comparisons with administrative data from school authorities (not shown here, available upon request from the authors) indicate a balanced representation of school types, suggesting that the schools in the sample reflect the diversity of the German school system particularly well.

Data collection took place between September 2018 and January 2019. Students participated in the survey using audio-supported tablet-assisted self-interviews. Over the course of two lessons, they could fill in the questionnaires using tablets with headphones provided by the local survey team (consisting of student assistants and doctoral students). To avoid problems with reading comprehension, the respondents were able to listen to audio files reading out all questions and response categories.

The Socialbond survey included questions on students’ lives across a wide range of topics, with a specific focus on students’ social integration in school and societal cohesion in general. Among other things, and most relevant to this study, students were asked about their outer appearance in everyday school life, including information on their current orthodontic treatment (i.e. students’ reports on whether they wear visible fixed braces). In addition, they were asked about their sociodemographics as well as their peer networks in the school cohort (see below). All participating students as well as their parents gave their informed, written consent prior to the survey. The study was approved by the Ethics Committee of the Medical Faculty of Cologne (number 16-343) and conducted in accordance with Good Clinical Practice (European Guideline for GCP).

All information on students’ peer networks came from standard items that have been validated [17, 28], established in large-scale network surveys [19, 23] and frequently applied in medical sociology and epidemiology [1, 3, 22]. Students were asked to report their best friends in the school cohort (“Who are your best friends in the grade?”, i.e. friendship), the most popular peers in the school cohort (“Who is popular among most of your peers in the grade?”; i.e. popularity), as well as all peers whom they had been sometimes mean to (“Who in your grade are you sometimes mean to?”; victimisation). For each question, students could nominate up to 10 peers in their school cohort. In order to ensure data protection, a standard procedure in network surveys was chosen in which students could only be nominated via pseudonymized numbers, obtained from school-specific cohort rosters. The cohort rosters remained in the schools. In all further data processing steps, only the pseudonymized student numbers were used.

The resulting nominations were used to derive three dependent variables. Following previous work in medical sociology [50], we quantified the social acceptance of each student using their indegree centrality values, that is, the number of nominations students received from their peers as being their friend/being popular/being victimised (three separate dependent variables). Greater indegree values with respect to friendship or popularity and smaller indegree values with respect to victimisation indicate greater social acceptance in the school cohort.

Figure 1 illustrates the resulting network structures along these three social dimensions in one example school cohort in the dataset (out of a total of 39 school cohorts included in the statistical analyses). The figure is not intended to show any results of the analysis but only serves to illustrate the structure of the network data. It visualizes how the social position of students with braces (blue circles and squares) and without braces (green circles and squares) can differ in a given school cohort. The sizes of the circles and squares reflect the number of nominations a student received (i.e. the indegree values), with larger symbols indicating a greater number of nominations received.

The main independent variable indicated whether or not a student had been wearing fixed visible braces (irrespective of the kind of brackets, excluding clear aligners). When asked about their physical appearance in school (“Which of the following things do you wear at school?”), the students could choose one or several response options, including fixed braces, glasses, hearing aids, brand-name clothing, makeup, piercings, other jewellery, tattoos, dyed hair, a cross, headscarf or other religious symbols as well as an open category.

Several observed student characteristics have been used as additional control variables. The analyses accounted for students’ reported binary gender (“Are you a boy or a girl?”), their age at the day of the interview as well as the sizes of students’ school classes. To account for potential differences in students’ level of maturity the analyses included three types of reported behaviour that previous research identified as being functional correlates of (pseudo) maturity [16, 51]. More specifically, we included one dichotomous dummy indicating whether students reported to wear brand-name clothing in school. In addition, we included two covariates indicating the reported extent to which they go shopping or partying (“How often do you do the following things in your free time?”) with response options for both activities ranging from “never”, “seldom”, “once or several times per month”, “once or several times per week”, to “daily” (treated as metric values from 1–5). Finally, the analyses accounted for differences in students’ socioeconomic background given that it is correlated with the prevalence of braces [2]. At the same time, previous research clearly indicates that youth facing economic hardship tend to experience more rejection and are at greater risk for victimisation by their peers [21]. We therefore focused on the economic aspect of students’ socioeconomic background and included the reported extent to which students lack money for peer activities (“How often do you lack money to participate in activities [for example, class trips, going to the movies, or things your friends do]?”) with response options ranging from “never”, “sometimes”, “often”, to “always” (treated as metric values from 1–4) and a dummy indicating whether they have their own room at home (“Do you have your own room?”).

Descriptive analyses provided information on the prevalence of braces in the sample as well as students’ mean indegrees with respect to friendship, popularity and victimisation nominations. To arrive at valid estimates of the social acceptance of (students wearing) braces, inferential statistics relied on ordinary least squares (OLS) multiple regression models with school cohort fixed effects [59]. By applying school cohort fixed effects, all comparisons relied solely on variation among students attending the same school; hence any remaining unobserved confounding that may exist among students attending different schools was controlled for. Separate models were estimated for all three dependent variables (i.e. indegrees with respect to students’ friendships, popularity and victimisation). Estimations were run for all students combined as well as separately for boys and girls by including interactions between the dummy variables indicating students’ gender and whether they wear braces [5]. All statistical analyses were executed in R (version 4.1.0, R Foundation for Statistical Computing, Vienna, Austria).

Overall, 53% of all participating students were boys. Students’ ages varied around the mean of 12.8 years, with the few extreme values (minimum: 8.3 years, maximum: 18.8 years) possibly being untruthful responses, as the sample was limited to seventh grade students. Nearly 20% of all students in the 153 observed school classes and 39 school cohorts were treated with a fixed orthodontic appliance (Tables 1 and 2). Girls were more likely to wear braces than boys (girls: 24%; boys: 14%). Students in the sample faced, on average, 21 peers in their school class and 91 peers in their school cohort. Overall, students’ mean friendship indegrees ranged at 6.2, suggesting that students were nominated as a friend by, on average, six peers in the school cohort. Mean popularity and victimisation indegrees were lower than those of friendship (popularity: 2.5; victimisation: 1.1). Moreover, and in line with previous research, the indegrees of friendship, popularity and victimisation showed very different distributions (Fig. 2). For example, the distributions of popularity and victimisation (Fig. 2b, c) were much more right skewed than that of friendship (Fig. 2a), suggesting the presence of a more hierarchical structure: while most students received no popularity or victimisation nominations at all, some students received many nominations. In the following, we outline whether the number of nominations received along these three social dimensions was associated with the wearing of braces.

Descriptive analyses suggested that the indegrees of students with and without braces differed (Table 3). Overall, students with braces showed higher indegrees with respect to friendship (6.6) and popularity (2.7) and lower indegrees with respect to victimisation (0.9) than students without braces did (friendship: 6.1; popularity: 2.4; victimisation: 1.1). Gender-specific comparisons of the indegrees indicated that these braces-related differences were more pronounced among girls than among boys (see respective columns for girls and boys).

We examined the indegree differences using inferential statistics. Here we report the regression results both in condensed form focusing on the estimated effect of braces (Table 4) as well as the complete model results including the estimates of all control variables (Tables 5, 6 and 7). Both unadjusted (left side of Table 4) as well as adjusted estimates (right side of Table 4; i.e. controlling for students’ age, level of maturity, socioeconomic background as well as differences in the sizes of school cohorts and classes) indicated systematic differences between the indegrees of students with and without braces among girls. Girls with braces received statistically significantly more friendship nominations (coef.: 0.535; p-value: 0.016), more popularity nominations (coef.: 0.676; p-value: 0.000) and fewer victimisation nominations (coef.: −0.131; p-value: 0.037) than girls without braces did. The observed differences between boys with and without braces were statistically insignificant (friendship coef.: 0.222; p-value: 0.340; popularity coef.: −0.289; p-value: 0.296; victimisation coef.: −0.010; p-value: 0.883). Standardised estimates, transformed so that effect sizes are expressed in standard deviations of the respective dependent variable (i.e. z‑scores), allowed us to compare these results: The positive effect of wearing fixed braces on girls’ friendship and popularity nominations were similar in size (about 0.2 standard deviations), whereas the negative effect on victimisation was slightly smaller (about 0.1 standard deviations, Fig. 3).