Hostname: page-component-586b7cd67f-dsjbd Total loading time: 0 Render date: 2024-11-26T14:03:21.775Z Has data issue: false hasContentIssue false

Characterizing trajectories of anxiety, depression, and criminal offending in male adolescents over the 5 years following their first arrest

Published online by Cambridge University Press:  08 February 2022

Amanda E. Baker*
Affiliation:
Department of Psychology, University of California, Los Angeles, CA, USA
Namita Tanya Padgaonkar
Affiliation:
Department of Psychiatry and Biobehavioral Sciences, University of California, Los Angeles, CA, USA
Adriana Galván
Affiliation:
Department of Psychology, University of California, Los Angeles, CA, USA Department of Psychiatry and Biobehavioral Sciences, University of California, Los Angeles, CA, USA
Paul J. Frick
Affiliation:
Department of Psychology, Louisiana State University, Baton Rouge, LA, USA Institute for Learning Science and Teacher Education, Australian Catholic University, Brisbane, Australia
Laurence Steinberg
Affiliation:
Department of Psychology, Temple University, Philadelphia, PA, USA
Elizabeth Cauffman
Affiliation:
Department of Psychological Science, University of California Irvine, Irvine, CA, USA
*
Corresponding author: Amanda E. Baker, email: [email protected]
Rights & Permissions [Opens in a new window]

Abstract

Youth in the juvenile justice system evince high rates of mental health symptoms, including anxiety and depression. How these symptom profiles change after first contact with the justice system and – importantly – how they are related to re-offending remains unclear. Here, we use latent growth curve modeling to characterize univariate and multivariate growth of anxiety, depression, and re-offending in 1216 male adolescents over 5 years following their first arrest. Overall, the group showed significant linear and quadratic growth in internalizing symptoms and offending behaviors over time such that levels decreased initially after first arrest followed by a small but significant upturn occurring a few years later. Crucially, multivariate growth models revealed strong positive relationships between the rates of growth in internalizing symptoms and offending behaviors such that improvements in mental health related to greater decreases in offending, and vice versa. These results highlight the reciprocal nature of internalizing and externalizing problems in adolescence, underscoring the importance of considering mental health alongside offending in the juvenile justice system.

Type
Regular Article
Creative Commons
Creative Common License - CCCreative Common License - BY
This is an Open Access article, distributed under the terms of the Creative Commons Attribution licence (http://creativecommons.org/licenses/by/4.0/), which permits unrestricted re-use, distribution and reproduction, provided the original article is properly cited.
Copyright
© The Author(s), 2022. Published by Cambridge University Press

Introduction

Youth in the juvenile justice system experience higher rates of internalizing symptoms such as anxiety and depression than their non-system-involved peers (Atkins et al., Reference Atkins, Pumariega, Rogers, Montgomery, Nybro, Jeffers and Sease1999; Teplin et al., Reference Teplin, Abram, McClelland, Dulcan and Mericle2002; Vermeiren, Reference Vermeiren2003; Cauffman, Reference Cauffman2004; Wasserman et al., Reference Wasserman, McReynolds, Schwalbe, Keating and Jones2010; Schubert et al., Reference Schubert, Mulvey and Glasheen2011; Dierkhising et al., Reference Dierkhising, Ko, Woods-Jaeger, Briggs, Lee and Pynoos2013; Lemos & Faísca, Reference Lemos and Faísca2015). While justice-involved youth report higher rates of all mental health symptoms (Wasserman et al., Reference Wasserman, McReynolds, Schwalbe, Keating and Jones2010), rates of anxiety and depression in this population are especially concerning: nearly half of justice-involved youth screened from a national database meet clinical criteria for internalizing problems (Dierkhising et al., Reference Dierkhising, Ko, Woods-Jaeger, Briggs, Lee and Pynoos2013), and roughly half of justice-involved males who experience mental health disorders while incarcerated continue to have these impairments once released (Teplin et al., Reference Teplin, Welty, Abram, Dulcan and Washburn2012). Furthermore, mental health problems go hand-in-hand with criminological outcomes: individuals who continue offending after adolescence are nearly three times more likely to experience mental health problems (Reising et al., Reference Reising, Ttofi, Farrington and Piquero2019). Despite the high prevalence of persistent mental health concerns in this population, youth in the juvenile justice system rarely receive treatment (Zajac et al., Reference Zajac, Sheidow and Davis2015).

Above-average rates of internalizing symptoms coupled with lack of treatment is itself a cause for concern for youth development, as untreated internalizing disorders in youth have been linked to increased risk for negative outcomes such as substance abuse, academic failure, and emotional disorders in adulthood (Colman et al., Reference Colman, Wadsworth, Croudace and Jones2007; Child Mind Institute, 2018; Essau et al., Reference Essau, Lewinsohn, Lim, Ho and Rohde2018). Moreover, the cumulative impact of externalizing behaviors (e.g., criminal offending) and internalizing symptoms can be especially detrimental for youth academic and global functioning (Lewinsohn et al., Reference Lewinsohn, Rohde and Seeley1995), leading to further justice system contact (Sampson & Laub, Reference Sampson and Laub2005) and increased risk for suicide (Ruchkin et al., Reference Ruchkin, Schwab-Stone, Koposov, Vermeiren and King2003; Perry & Morris, Reference Perry and Morris2014). Most psychiatric disorders onset during adolescence or young adulthood (Meyer & Lee, Reference Meyer and Lee2019), a period in which risk-taking behaviors such as offending peak as well (Sweeten et al., Reference Sweeten, Piquero and Steinberg2013; Moffitt, Reference Moffitt2018). When considering the unique compounding vulnerabilities that justice-involved youth may also face – including the experience of being labeled as “delinquent” (McLeod et al., Reference McLeod, Uemura and Rohrman2012) and incarceration (Barnert et al., Reference Barnert, Perry and Morris2016) – the risk for atypical emotional development in these youth is further increased (Dmitrieva et al., Reference Dmitrieva, Monahan, Cauffman and Steinberg2012).

Developmental research has highlighted bidirectional associations between internalizing symptoms and externalizing behaviors from childhood to adolescence that help explain the high rates of mental health problems observed in justice-involved youth. Results from a longitudinal prospective study suggest a temporal cascade whereby conduct problems in childhood lead to negative social outcomes that contribute to depression in adolescence, which can then further contribute to delinquency in later adolescence by fostering a pessimistic outlook towards the future (Fontaine et al., Reference Fontaine, Brendgen, Vitaro, Boivin, Tremblay and Côté2019). In a community sample followed longitudinally for six years, youth exhibiting high levels of depression were at risk for increasing disruptive behavior, and youth exhibiting high levels of disruptive behavior were at risk for developing higher depression symptoms (Reinke et al., Reference Reinke, Eddy, Dishion and Reid2012). A recent study of boys ages 11–16 found limited evidence that prior anxiety and depression predict later self-reported offending, and stronger evidence that self-reported offending predicts later anxiety and depression (Jolliffe et al., Reference Jolliffe, Farrington, Brunton-Smith, Loeber, Ahonen and Palacios2019), suggesting that anxiety and depression may develop as a result of the negative consequences of offending in early adolescence.

While such studies provide valuable information about bidirectional relationships over time, a key consideration missing from this body of work is whether symptom trajectories and offending trajectories change contemporaneously after youth enter the system. The high rates of mental health concerns experienced by system-involved youth demonstrate that challenges with mental health and offending behaviors are often linked, possibly through multiple mechanisms (Schubert & Mulvey, Reference Schubert and Mulvey2014). For instance, exposure to the juvenile justice system, by way of police interactions, court proceedings, and incarceration, can contribute to new or worsening mental health problems for system-involved youth (National Mental Health Associations, 2004). Similarly, mental health challenges have been associated with increased recidivism (Yampolskaya & Chuang, Reference Yampolskaya and Chuang2012), perhaps as a reaction to the negative feelings associated with anxiety and depression. Tracking the associations between these processes and their relation to recidivism in justice-involved youth is crucial for identifying key periods where intervention – for both mental health and recidivism – may be most efficacious.

Mental health needs have been studied alongside criminological needs in the risk-needs-responsivity (RNR) model, a correctional psychology framework aimed at assessing the risks and needs of a person related to reducing recidivism (Andrews et al., Reference Andrews, Bonta and Hoge1990). In the RNR model, mental health symptoms do not themselves serve a causal role in the development of delinquency, but rather can moderate the efficacy of rehabilitation services aimed at decreasing recidivism (McCormick et al., Reference McCormick, Peterson-Badali and Skilling2017). Consideration and treatment of mental health concerns may contribute to enhanced engagement in services; thus, an understanding of how mental health symptoms and offending behaviors develop in parallel is crucial for facilitating ideal rehabilitation. A close examination of how internalizing symptoms and offending behaviors develop in parallel after youth first enter the juvenile justice system is an important next step for identifying youths’ mental health and rehabilitation needs and promoting healthy adolescent development.

The present study employed latent growth curve modeling of repeated assessments of adolescents’ emotions and behavior to examine longitudinal trajectories of internalizing symptoms and criminal offending behaviors in the juvenile justice system. 1216 male adolescents across three cities in the United States were assessed over the five years following their first arrest. By using latent growth curve models, we were able to examine individual starting points (intercepts) and rates of change (slopes) across different processes, as well as describe the multivariate growth of multiple processes in relation to one another. In Aim 1, we sought to characterize the average trajectories of internalizing symptoms and offending behaviors in this sample after first contact with the justice system, accounting for between-person differences in a range of key demographic variables. As the prevalence of mental health disorders tends to increase after first contact with the justice system (Wasserman et al., Reference Wasserman, McReynolds, Schwalbe, Keating and Jones2010), we hypothesized that the group would show average increases in internalizing symptoms over time. Given the increase in offending behavior across adolescence and into young adulthood (Loeber & Stouthamer-Loeber, Reference Loeber and Stouthamer-Loeber1986), we also hypothesized increases in offending over time. In addition to these group trajectories, we expected there would be significant variability in starting points and growth patterns across participants, highlighting the role of individual differences in the development of internalizing and externalizing problems in youth after their first arrest, even after considering relevant demographic characteristics including age, race/ethnicity, neighborhood context, data collection location, and parental education.

In Aim 2, we sought to characterize the codevelopment of internalizing symptoms and offending behaviors over time by examining whether change in mental health is related to change in offending, and vice versa. Because little is known about trajectories of internalizing symptoms in this population, we investigated the role of depression and anxiety symptoms separately. We hypothesized that these constructs would develop together over time, such that worsening mental health symptoms would co-occur with greater criminal offending, highlighting the intertwined nature of internalizing and externalizing processes during adolescence and underscoring the importance of mental health when considering youth recidivism.

Methods

Participants

Data for this project were collected as part of the Crossroads Study, an on-going multi-site longitudinal assessment of 1216 male adolescents ages 13–18 at baseline (M Age = 15.80, SD = 1.28; see Table 1 for full demographic information) who were arrested for moderate offenses (i.e., misdemeanors) in either Jefferson Parish, Louisiana (n = 151), Orange County, California (n = 532), or Philadelphia, Pennsylvania (n = 533). These study sites were selected to represent culturally and demographically distinct regions of the country (South, West, and East). Youth were enrolled in the study at the time of their first arrest for midrange, non-felony crimes such as theft of goods, simple battery (e.g., offensive physical contact such as punching), and vandalism (e.g., graffiti); these are distinct from felony-level offenses (e.g., armed robbery, homicide). Detailed information regarding sampling procedures and data collection methodology can be found via the study website: https://sites.uci.edu/crossroadsinfo/about-the-study/study-design/ and in prior publication (Cavanagh & Cauffman, Reference Cavanagh and Cauffman2017). Briefly, arrested youth with pending intake hearings were screened for eligibility (e.g., no prior arrests) by research associates and invited to participate in the study following informed consent and assent regarding study involvement. Youth were provided $50 for completion of the first interview; an additional $15 was provided at follow-up interviews as retention incentive up to $140. The current study focuses on data from the baseline interview following first official contact with the juvenile justice system and from eight follow-up interviews conducted over the next five years.

Table 1. Participant descriptive statistics

Measures

Demographic information

Participants self-reported demographic information regarding their age, parents’ highest level of education (used as a proxy for socioeconomic status; Galobardes et al., Reference Galobardes, Lynch and Smith2007), and race/ethnicity. Prior research supports the validity of child report of parental education in adolescent samples (Lien et al., Reference Lien, Friestad and Klepp2001). In the current sample, 26.9% of participants had parents who had not graduated high school, 34.8% had parents with a high school diploma or GED, and 38.3% had parents who had pursued further education after high school. Participants in this sample self-reported their ethnicity as Latino (45.8%), Black (36.9%), White (14.8%), or Other (2.5%). Of note, approximately 78% of youth in California reported their ethnicity as Latino, while approximately 65% of youth in Pennsylvania reported their ethnicity as Black. Therefore, race/ethnicity and data collection site are confounded in this sample, so caution must be taken when interpreting results involving these variables.

Neighborhood quality

Neighborhood quality was assessed using a self-report questionnaire adapted for the Crossroads Study designed to assess observable signs of physical and social disorder in the participant’s neighborhood (Sampson & Raudenbush, Reference Sampson and Raudenbush1999). Youth reported on how frequently they observed both physical (9 items; e.g., graffiti or tags, boarded up windows on buildings) and social (12 items; e.g., adults fighting or arguing loudly) disorder in their neighborhood using a 4-point Likert scale ranging from 1 (never) to 4 (often). Average scores across both scales were used as a continuous index of overall neighborhood quality, where higher scores indicate worse neighborhood quality. Neighborhood quality scores for this sample of participants at baseline ranged from 1 to 3.95 (M = 2.07, SD = 0.68).

Internalizing symptoms

The Revised Child Anxiety and Depression Scale (RCADS; Chorpita et al., Reference Chorpita, Yim, Moffitt, Umemoto and Francis2000) was used to measure internalizing symptoms associated with anxiety and depression. Anxiety was assessed using the GAD subscale of the RCADS, which includes 6 items about worries (e.g., “I worry about what is going to happen.”). Depression was assessed using the MDD subscale of the RCADS, which includes 10 items measuring depression symptoms such as feelings of worthlessness and anhedonia (e.g., “Nothing is much fun anymore.”). Participants rated each item on a 4-point Likert scale ranging from 0 (never) to 3 (always) according to how often they experience each item. Items for each scale were summed to achieve overall indices of anxiety and depression symptomatology, with higher scores indicating more symptoms of anxiety (max score possible = 18) and depression (max score possible = 30). At baseline, participants scored an average of 5.25 on the GAD subscale (SD = 3.73, range: 0–18) and 5.80 on the MDD subscale (SD = 4.66, range: 0–30). Baseline anxiety and depression scores demonstrated a significant positive correlation (r(1214) = .55, p < .001).

Raw scores at baseline were converted to t-scores to assess clinical severity. On the RCADS, a t-score of 65 means that the score is roughly in the top 7% of scores of young people of the same age (deemed the “borderline clinical” range), while a t-score of 70 means that the score is in roughly the top 2% of scores of young people of the same age and would likely merit a clinical diagnosis of anxiety or depression if assessed by a clinician. In this sample, 92.8% of youth scored in the normal range for anxiety, 7.2% scored in the borderline clinical to clinical range, and 5% scored at or above the clinical threshold, suggesting that anxiety symptoms were slightly higher in this sample than for average young people of the same age. Also, 93.2% of youth in this sample scored in the normal range for depression, 6.8% scored in the borderline clinical to clinical range, and 4.2% scored at or above the clinical threshold, suggesting that symptoms of depression were slightly lower than symptoms of anxiety in this sample, but there was a higher percentage of youth at or above the clinical threshold than expected for a typical group of adolescents.

Self-reported offending

Participants’ offending behaviors were tracked using the Self-Report of Offending scale (SRO; Huizinga et al., Reference Huizinga, Esbensen and Weiher1991), a self-report measure in which participants indicated their involvement in 24 types of criminal activity ranging from selling drugs to homicide over the previous 6-month period. Responses were summed together to create variety scores (# of different types of criminal acts over the past six months/# of different types of criminal acts ever endorsed by participant), which are often used in criminological research as they correlate well with official reports of offending (Thornberry & Krohn, Reference Thornberry and Krohn2000) and are more resilient to recall bias than are self-reports of frequency of antisocial behavior (Hindelang et al., Reference Hindelang, Hirschi and Weis1981; Osgood et al., Reference Osgood, McMorris and Potenza2002). Variety scores are the preferred method for estimating overall offending because they take into account heterogeneity in crime types and seriousness of offense (Sweeten, Reference Sweeten2012). Participants in this sample engaged in an average of 1.09 offenses for every 6-month period (SD = 1.44) after initial arrest.

Processing type

Once they were arrested, youth in this study were either formally or informally processed within the justice system. Informal processing involves youth being diverted from juvenile court and could include a probationary (“wait and see”) status or community service. Formal processing, on the other hand, involved being sanctioned through the juvenile court system, and subsequently being placed on probation or referred to a juvenile correctional institution. Youth who are formally processed are required to attend a series of court hearings, and if they are sanctioned with community probation, they are required to check in with both the judge and a probation officer. As such, formal processing constitutes a more intensive form of juvenile justice system treatment. Initial processing decisions following arrest for each youth were obtained from official records from the probation department. In this study, 669 youth (55% of sample) were informally processed, while 547 youth (45% of sample) were formally processed.

Time in facility

Incarceration can reduce the opportunities an individual has to engage in criminal behavior (Piquero et al., Reference Piquero, Blumstein, Brame, Haapanen, Mulvey and Nagin2001) and time spent incarcerated may also affect internalizing symptom severity. Therefore, we accounted for the proportion of each recall period in which participants reported they were in a secure institution, locked facility, detention, jail, or residential treatment center. On average, participants spent 5.31% of each recall period in a facility (SD = 11.64%).

Official rearrest records

In addition to the self-reported offending data that were collected from participants, this study also obtained official records from the Department of Probation from all data collection sites to indicate the number of times that youth were rearrested for either misdemeanor or felony charges over the five years following their first arrest. A binary rearrest variable was created using these records to indicate which participants were rearrested at least once over the study period. Across the three data collection sites, 611 participants were rearrested at least once over the 5-year period, while 556 participants had no record of rearrest during the period of the study. Forty-nine participants were missing rearrest data entirely or lacked sufficient rearrest data to determine whether or not rearrest occurred.

Plan of analysis

Latent growth curve analyses were employed in Mplus version 8.2 (Muthén & Muthén, Reference Muthén and Muthén2017) to examine trajectories of internalizing symptoms and offending behaviors from baseline through the eight follow-up interviews. Latent growth curve modeling allows for examination of abstract variables over time such as group starting points (intercepts) and growth factors (slopes), as well as their simultaneous growth over time. Furthermore, by modeling different processes explicitly and simultaneously, we can assess how development in one process relates to development in the other. Although anxiety and depression often co-occur and correlate positively in adolescents (Lewinsohn et al., Reference Lewinsohn, Zinbarg, Seeley, Lewinsohn and Sack1997), they are distinct disorders and, by modelling separate growth patterns, we were able to determine if there were differences in their influences on offending behaviors.

Univariate growth curve models were fit for each process of interest (anxiety, depression, offending) to assess average initial levels and trajectories over time. Good model fit for the internalizing univariate models was assessed using the following criteria (Hu & Bentler, Reference Hu and Bentler1999): CFI greater than or equal to .95, TLI greater than or equal to .95, RMSEA less than or equal to .06, and SRMR less than or equal to .08. Self-reported offending is a count variable with a right-skewed distribution, so a negative binomial model was specified in the offending growth models. Negative binomial regression is optimal for analyzing skewed dependent variables (which prevents the need to log-transform the dependent variable to address skew) and over-dispersed data (Long & Freese, Reference Long and Freese2001). As standard model fit indices are not provided in Mplus when using count variables, fit was assessed using the Akaike and Bayesian information criterion (AIC and BIC, respectively). Lower AIC and BIC values indicate better model fit. Once the functional form of the growth models (linear and/or quadratic growth) was established, demographic covariates were added into the model to examine the influence of age, neighborhood quality, race/ethnicity, and data collection site on developmental patterns. For models with both linear and quadratic growth factors, the linear slope describes initial growth patterns, while the quadratic slope describes any upturn or downturn that is not captured by the linear growth factor.

Associations between internalizing symptoms and offending behaviors over time were assessed using multivariate growth curve modeling (Duncan & Strycker, Reference Duncan, Duncan and Strycker2013). Multivariate growth models provide estimates of the covariation among individual differences in initial levels of each variable, covariation in rates of change (both linear and quadratic), and the predictive associations between initial levels in one variable and subsequent change in another (Duncan & Strycker, Reference Duncan, Duncan and Strycker2013). The intercept indicates the status immediately after first arrest and first contact with the justice system, while growth coefficients indicate the change that occurred in 1-year increments after arrest. The first six follow-up visits occurred in 6-month increments, after which visits were spaced by 1 year. Therefore, time points were specified as follows: 0, .5, 1, 1.5, 2, 2.5, 3, 4, 5. Correlations between anxiety, depression, and offending at each timepoint are displayed in Table 2.

Table 2. Correlations between main study variables at each timepoint

Missing data handling

Maximum likelihood estimation with robust standard errors was used to account for missing data in anxiety, depression, and offending, a technique that uses all available data to identify highly probable parameter estimates for a particular data set and reduces sample bias related to attrition (Baraldi & Enders, Reference Baraldi and Enders2010). Mplus does not allow for missing values in covariates; therefore, multiple imputation (10 imputations) was used to account for missing parental education (n = 50) and rearrest (n = 49) data.

Internalizing, offending, and rearrest

To probe whether baseline levels in mental health symptoms and self-reported offending behaviors predicted risk of official rearrest over the study period, the binary rearrest variable (rearrested at least once vs. not rearrested over the study period) was added to the multivariate growth model and regressed on the growth model intercepts for anxiety, depression, and offending, as well as age, neighborhood quality, parental education, processing type, data collection site, and race/ethnicity.

Results

Unconditional growth models

Anxiety

An initial unconditional growth model for anxiety symptoms with only an intercept and linear growth factor was fit to examine the overall trajectory of anxiety symptom development over the five years following first arrest. While anxiety symptoms showed a significant linear decrease over the 5-year period (mean linear slope = −0.052, p < .05), the model did not fit the data well (χ 2(40, N = 1216) = 351.31, p < .001; RMSEA = 0.08; CFI = 0.92, TLI = 0.93; SRMR = 0.11). A quadratic growth factor was added to the model, significantly improving model fit (χ 2(36, N = 1216) = 188.30, p < .001; RMSEA 0.06; CFI = 0.96, TLI = 0.96; SRMR = 0.07).

As Table 3 indicates, the current sample demonstrated significant linear and quadratic change in anxiety symptoms over time such that anxiety declined initially after first arrest, followed by an upwards turn occurring a few years after first arrest. Furthermore, the intercept and each growth factor demonstrated significant variance across participants, highlighting significant individual variability in both starting points and growth trajectories of anxiety in this population. There was significant covariance between the intercept and the quadratic slope factor and between the slope factors; however, the intercept did not significantly covary with the linear slope. This suggests that starting points for anxiety were not significantly related to linear change but were related to quadratic change in anxiety over time.

Table 3. Unconditional anxiety growth model

aAverage value of anxiety when time = 0.

bDoes the parameter vary significantly across individuals?

cAverage linear change in anxiety for one year of time.

dAverage quadratic change in anxiety for one year of time.

eCovariance between growth factors.

Depression

Next, an initial unconditional growth model for depression symptoms with only an intercept and linear growth factor was fit to examine the overall trajectory of depression symptom development over the five years following first arrest. Unlike anxiety, depression did not show significant linear change on average (mean linear slope = 0.002, p = .95). Additionally, the model did not fit the data well (χ 2(40, N = 1216) = 323.15, p < .001; RMSEA = 0.08; CFI = 0.93, TLI = 0.94; SRMR = 0.11). A quadratic growth factor was added to the model, significantly improving model fit (χ 2(36, N = 1216) = 181.04, p < .001; RMSEA 0.06; CFI = 0.96, TLI = 0.96; SRMR = 0.07).

As Table 4 indicates, the current sample demonstrated significant linear and quadratic change in depression symptoms over time such that depression declined initially after first arrest, followed by an upward turn occurring a few years after first arrest. Furthermore, the intercept and each growth factor demonstrated significant variance across participants, highlighting significant individual variability in both starting points and growth trajectories of depression in this population. There was significant covariance between the intercept and the quadratic slope factor and between the slope factors; however, the intercept did not significantly covary with the linear slope. This suggests that starting points for depression were not significantly related to linear change but were related to quadratic change in depression over time, perhaps suggesting that internalizing starting points relate to long-term (rather than short-term) change in development following first arrest.

Table 4. Unconditional depression growth model

aAverage value of depression when time = 0.

bDoes the parameter vary significantly across individuals?

cAverage linear change in depression for one year of time.

dAverage quadratic change in depression for one year of time.

eCovariance between growth factors.

Offending

Next, an initial unconditional growth model for offending behaviors with only an intercept and linear growth factor was fit to examine the overall trajectory of offending development over the five years following first arrest. We also accounted for the proportion of time in each recall period participants spent in a secure facility by regressing offending at each time point on time spent in facility. Offending showed a significant linear decrease on average (mean linear slope = −.27, p < .001; AIC = 24756.97, BIC = 24874.35). A quadratic growth factor was next added to the model, improving model fit (AIC = 24507.06, BIC = 24644.85).

As Table 5 indicates, the current sample demonstrated significant linear and quadratic change in offending behaviors over time such that offending declined steeply after first arrest, followed by an upwards turn occurring a few years after first arrest. Furthermore, the intercept and each growth factor demonstrated significant variance across participants, highlighting significant individual variability in both starting points and growth trajectories of offending in this population. Offending intercepts demonstrated significant covariance with linear and quadratic growth factors, suggesting that offending behaviors at the time of first arrest are related to growth trajectories over time.

Table 5. Unconditional offending growth model

aAverage value of offending when Time = 0.

bDoes the parameter vary significantly across individuals?

cAverage linear change in offending for one year of time.

dAverage quadratic change in offending for one year of time.

eCovariance between growth factors.

Conditional growth models

Anxiety

Covariates were next added to the anxiety growth model to examine effects of demographic variables on starting points (intercepts) and growth (linear and quadratic slopes) in anxiety over time (Table 6; Figure 1). Specifically, the latent factors were regressed on the following covariates: age at baseline, neighborhood quality, parental education, processing type, data collection site, and race/ethnicity. Model fit indices demonstrated that the conditional model fit the data better than the unconditional model (χ 2 (90, N = 1216) = 244.87, p < .001; RMSEA = 0.04; CFI = 0.96, TLI = 0.95; SRMR = 0.05). Age at baseline and neighborhood quality were significantly related to anxiety intercepts such that older age and worse neighborhood quality were associated with higher anxiety symptoms at baseline. None of the covariates significantly predicted linear or quadratic slopes. After inclusion of demographic factors in the conditional model, the covariance between anxiety intercepts and slopes was no longer significant, suggesting that intercepts were related to slopes in the unconditional model through the influence of shared demographic factors.

Table 6. Conditional anxiety growth model

aAge, parental education, and neighborhood quality are centered at the group mean. Reference group for categorical variables: Site: California, Race: White.

Figure 1. Trajectories of anxiety following youths’ first arrest. A) Conditional anxiety growth model. Note. only covariates with significant effects are shown. Hood = neighborhood quality; BL = baseline; FU = follow-up; μ= estimated mean derived from model. *p< .05, **p< .01, ***p< .001. B) Visual depiction of anxiety symptoms over time. Grey lines depict individual growth trajectories in anxiety with the average group trajectory overlaid in black.

Depression

Covariates were also added to the depression growth model (Table 7; Figure 2). Specifically, the latent factors were regressed on the following covariates: age at baseline, neighborhood quality, parental education, processing type, data collection site, and race/ethnicity. Model fit indices demonstrated that the conditional model fit the data better than the unconditional model (χ 2 (90, N = 1216) = 249.58, p < .001; RMSEA = 0.04; CFI = 0.96, TLI = 0.95; SRMR = 0.05). Neighborhood quality, processing type, and race/ethnicity were all significantly related to depression intercepts such that worse neighborhood quality and formal processing were related to higher baseline depression, while Black youth (as compared to White youth) demonstrated lower depression at baseline. Race/ethnicity was also related to depression linear slopes, with Latino youth (as compared to White youth) demonstrating greater decreases in depression over time. After inclusion of demographic factors in the conditional model, the covariance between depression intercepts and slopes was no longer significant, suggesting that intercepts were related to slopes in the unconditional model through the influence of shared demographic factors.

Table 7. Conditional depression growth model

aAge, parental education, and neighborhood quality are centered at the group mean. Reference group for categorical variables: Site: California, Race: White.

Figure 2. Trajectories of depression following youths’ first arrest. A) Conditional depression growth model. Note. only covariates with significant effects are shown. Hood = neighborhood quality; Process = formal processing; BL = baseline; FU = follow-up; μ = estimated mean derived from model. Reference group for race: White. *p < .05, **p < .01, ***p < .001. B) Visual depiction of depression symptoms over time. Grey lines depict individual growth trajectories in depression with the average group trajectory overlaid in black.

Offending

Covariates were also added to the offending growth model (Table 8; Figure 3). Specifically, the following covariates: age at baseline, neighborhood quality, parental education, processing type, data collection site, and race/ethnicity. Model fit indices suggested that the conditional model fit the data better than the unconditional model (AIC = 24326.53, BIC = 24602.11). Neighborhood quality, parental education, data collection site, and race/ethnicity were all significantly related to offending intercepts. Specifically, worse neighborhood quality and higher parental education were related to greater offending at baseline, while youth living in Pennsylvania (as compared to youth in California) and Black and Latino youth (as compared to White youth) demonstrated lower offending at baseline. Age at baseline and processing type predicted changes in offending over time, with older age and informal processing predicting steeper declines in offending after first arrest. Average offending trajectories for different ages and processing types are visualized in Figure 4a and 4b, respectively.

Table 8. Conditional offending growth model

aAge, parental education, and neighborhood quality are centered at the group mean. Reference group for categorical variables: Site: California, Race: White.

Figure 3. Trajectories of offending following youths’ first arrest. A) Conditional offending growth model. Note. only covariates with significant effects are shown. Pared = parental education; Hood = neighborhood quality; PA = Pennsylvania; LA = Louisiana; Process = formal processing; BL = baseline; FU = follow-up; TF = time in facility; μ = estimated mean derived from model. Reference groups for data collection site and race: California and White. *p < .05, **p < .01, ***p < .001. B) Visual depiction of offending behaviors over time. Grey lines depict individual growth trajectories in depression with the average group trajectory overlaid in black.

Figure 4. Average offending trajectories by age group and processing type. A) Visual depiction of offending trajectories by age group at baseline. Older participants demonstrated greater declines in offending after first arrest. B) Visual depiction of offending trajectories by processing type. Informal processing was associated with greater declines in offending after first arrest.

Multivariate growth models

Finally, anxiety, depression, and offending growth models were combined in a multivariate growth model to examine the development of internalizing symptoms and offending behaviors in relation to one another. As anxiety and depression are highly related processes and scores are derived from the same measure, we accounted for the similarity between the two by allowing values to covary at each time point. Average group trajectories for anxiety, depression, and offending are displayed together in Figure 5.

Figure 5. Average group trajectories of anxiety, depression, and offending.

To assess the relationships between the different processes in our multivariate latent growth curve model, we first added paths from each intercept to the slope growth factors for all 3 processes, after which we examined the magnitude and direction of the covariance and correlation parameters between slope growth factors. Covariance between factors indicates the extent to which two random variables change in tandem. Therefore, a significant covariance between growth factors suggests that the two constructs change together over time. Correlation between factors indicates how growth across different processes relates to one another on a standard scale. It is important to note that these modeling procedures explain overall growth in a process; as such, linear and quadratic trajectories need to be interpreted simultaneously. Results from the multivariate growth models are reported both with and without covariates to control for the confounding effects of external factors such as neighborhood quality that can influence both internalizing and offending processes.

Associations between intercepts and slopes with and without the effects of covariates are displayed in Figure 6a and 6b, respectively. Higher levels of self-reported offending at baseline predicted less declines in offending behaviors over time, while higher levels of depression at baseline predicted a greater upturn in offending behaviors later in development (Figure 6a). After accounting for demographic covariates, higher levels of self-reported offending at baseline predicted less declines in offending, anxiety, and depression over time, while higher anxiety and depression at baseline only predicted change in anxiety and depression symptoms over time (Figure 6b), suggesting that baseline offending can predict internalizing outcomes, but not vice versa.

Figure 6. Cross-domain associations between the intercepts and slopes for anxiety, depression, and offending before and after accounting for demographic covariates. A) Before accounting for demographic covariates, levels of offending at baseline predict development of offending behaviors, while levels of depression at baseline predict quadratic growth in offending. B) After accounting for demographic covariates, levels of offending at baseline predict development of offending behaviors and anxiety and depression symptoms over time, while levels of anxiety and depression at baseline only predict development of anxiety and depression over time. Note. only significant paths are shown. *p < .05, **p < .01, ***p < .001.

The covariance and residual covariance (after accounting for demographic covariates) matrices for the slope growth factors are displayed in Tables 9a and 9b, respectively. We found significant associations between the slopes of all 3 processes such that change in one process related to similar change in the others in magnitude and direction (i.e., greater improvements in internalizing symptoms related to greater decreases in offending, and vice versa). After accounting for demographic covariates, growth in offending behaviors was still associated with growth in anxiety and depression, highlighting that offending and internalizing change together over time, over and above the influence of starting values and demographic covariates.

Table 9. Estimated covariance and residual covariance matrices for the slope growth factors

Anx = anxiety; Dep = depression; Off = offending.

p < .1.

*p < .05.

**p < .01.

***p < .001.

Finally, correlation and residual correlation matrices for the slope growth factors are displayed in Tables 10a and 10b, respectively. We found significant correlations between the slopes for all 3 processes both before and after accounting for demographic covariates, highlighting the tight links between mental health and offending in this population.

Table 10. Estimated correlation and residual correlation matrices for the slope growth factors

Anx = anxiety; Dep = depression; Off = offending.

***p < .001.

Predictors of youth rearrest

Results from the rearrest model are displayed in Figure 7. Higher baseline self-reported offending predicted greater chance of official rearrest over the study period, while higher baseline anxiety predicted lower chance of rearrest over the study period. Baseline depression was not significantly related to rearrest outcomes. Youth reporting lower parental education, youth who were formally processed, and Black and Latino youth were at greater risk of being rearrested, regardless of their baseline offending frequency or mental health symptoms. Self-reported offending trajectories covaried with rearrest outcomes such that youth who were not rearrested evinced greater declines offending after their first arrest.

Figure 7. Predictors of youth rearrest over the study period. Youth reporting lower parental education, youth who were formally processed, and Black and Latino youth were at higher risk of being rearrested. Higher baseline offending predicted higher risk of rearrest, while higher baseline anxiety predicted lower chance of rearrest. Changes in self-reported offending behaviors over time were associated with rearrest risk such that youth who were rearrested during the study period also showed less declines in offending after their first arrest. Note. only covariates with significant effects are shown. Pared = parental education; Process = formal processing. Reference group for race: White. *p < .05, **p < .01, ***p < .001.

Discussion

Mental health problems such as anxiety and depression are common in the juvenile justice system (Dierkhising et al., Reference Dierkhising, Ko, Woods-Jaeger, Briggs, Lee and Pynoos2013), tend to increase at each stage of system processing (Wasserman et al., Reference Wasserman, McReynolds, Schwalbe, Keating and Jones2010), and have been linked to continued offending into adulthood (Reising et al., Reference Reising, Ttofi, Farrington and Piquero2019). Despite the high symptom burden among justice-involved youth and the potential relevance of mental health for healthy rehabilitation, very little research has examined how anxiety and depression change after youth enter the justice system, and – importantly – how symptom trajectories may be related to re-offending patterns over time. Results from the current study indicate that anxiety and depression change alongside offending behaviors in male adolescents after their first arrest, such that greater improvements in mental health relate to greater decreases in offending, and vice versa. These findings highlight the intertwined nature of internalizing symptoms and externalizing behaviors in adolescence and underscore the importance of considering mental health in studies of juvenile recidivism.

Trajectories of internalizing symptoms among justice-involved youth

While the high prevalence of internalizing disorders among youth in the justice system has been well established in the current literature (Atkins et al., Reference Atkins, Pumariega, Rogers, Montgomery, Nybro, Jeffers and Sease1999; Teplin et al., Reference Teplin, Abram, McClelland, Dulcan and Mericle2002; Vermeiren, Reference Vermeiren2003; Wasserman et al., Reference Wasserman, McReynolds, Schwalbe, Keating and Jones2010; Schubert et al., Reference Schubert, Mulvey and Glasheen2011; Dierkhising et al., Reference Dierkhising, Ko, Woods-Jaeger, Briggs, Lee and Pynoos2013; Lemos & Faísca, Reference Lemos and Faísca2015), less is known about how subclinical internalizing symptoms change once youth enter the system, or how individual differences may influence symptom trajectories over time. In the current sample of 1216 male adolescent first-time offenders tracked over five years, we report initial decreases in anxiety and depression following first arrest followed by an increase in symptoms a few years later.

The initial decline in anxiety and depression observed in this sample was contrary to our hypotheses; we had hypothesized increases in internalizing symptoms over time, as the prevalence of mood and anxiety disorders increases from adolescence into young adulthood (Merikangas et al., Reference Merikangas, He, Burstein, Swanson, Avenevoli, Cui and Swendsen2010), and youth in the justice system may be especially affected. However, the uptick in symptom severity we observed after the initial decline suggests that justice system involvement may influence symptom trajectories and relate to worsening symptoms as youth continue developing. Furthermore, youth were assessed every six months for the first three years of study participation, after which interviews were spaced annually. As the uptick in symptom severity occurred around the time that interviews were spaced further apart, it is possible that frequent check-ins through study participation had a positive effect on mental health, and greater changes occurred once visits were spaced more infrequently.

Despite significant group-level trajectories in internalizing symptom development over the 5-year period, there was significant variability in starting points and growth of both anxiety and depression across participants. Individual differences in demographic factors played a role in this variability: at baseline, older youth reported higher baseline anxiety but not depression, replicating previous work suggesting that youth in transition from adolescence to young adulthood may be at higher risk for anxiety disorders (Teplin et al., Reference Teplin, Abram, McClelland, Dulcan and Mericle2002; Substance Abuse and Mental Health Services Administration, U.S. Department of Health and Human Services, 2012; Zajac et al., Reference Zajac, Sheidow and Davis2015). On the other hand, justice system processing was related to baseline depression but not anxiety such that youth who were formally processed after their first arrest experienced more depression symptoms at baseline. Poorer neighborhood quality was associated with greater severity in both anxiety and depression, which is in line with previous work highlighting that neighborhood disorganization and exposure to violence can increase risk for mental health problems in adolescents (Kerig et al., Reference Kerig, Ward, Vanderzee and Arnzen Moeddel2009). Black youth also reported lower baseline depression than White youth, and Black and Latino youth demonstrated greater linear declines in depression than White youth over time. When interpreting these results, it is important to be mindful that ethnic minority youth may face additional burdens to reporting and receiving treatment for mental health concerns (Planey et al., Reference Planey, Smith, Moore and Walker2019), and further research is needed to probe the mechanisms driving internalizing symptom development within diverse populations. Consideration of key demographic variables such as age and neighborhood context will be crucial for identifying at-risk youth. Mental health screenings, especially for older youth who report worse living conditions, may help target limited mental health resources toward those most in need. Providing such support can help improve mental health, which may lead to improved justice system outcomes as well.

Trajectories of offending behaviors among justice-involved youth

In addition to symptoms of anxiety and depression, youth also reported on their frequency of engaging in a variety of criminal offending behaviors at each study time point. Over the five years following their first arrest, youth reported steep initial declines in self-reported offending behavior, but an uptick in offending a few years later. This overall decline in offending is hopeful and suggestive of justice system involvement deterring recidivism; these results are also in line with recent work showing declines in juvenile offending, particularly for males (Becker et al., Reference Becker, Kerig, Lim and Ezechukwu2012; Snyder & Office of Justice Programs, Reference Snyder2008). However, just as with the internalizing results, the increase in offending observed years after first arrest could signify the negative impact of extended time in the juvenile justice system.

Despite these significant group patterns in offending behaviors over time, there was significant variability in starting points and growth of offending across participants. Greater offending at baseline was associated with smaller declines in offending over time, suggesting that offending frequency at the time of first arrest may be predictive of fluctuations in offending over the following years. Numerous demographic factors were related to baseline levels of offending and offending trajectories in the current sample: worse neighborhood quality and higher parental education were associated with greater baseline offending, while Black and Latino (compared to White) youth and youth in Pennsylvania (compared to California) evinced lower baseline offending. Developmental trends emerged in offending trajectories such that older youth demonstrated greater declines in offending following first arrest. This replicates prior work suggesting that youth who are arrested at a young age more likely to recidivate than older youth (Becker et al., Reference Becker, Kerig, Lim and Ezechukwu2012) and highlights the unique challenges facing youth who enter the justice system at an earlier developmental stage. Offending trajectories also showed differences based on justice system processing: youth who were formally processed showed less declines in offending after first arrest. As with the internalizing results, the significant relationships between demographic variables and offending trajectories suggest that individualized attention is crucial for supporting justice-involved youth.

It is notable that poor neighborhood quality was related to higher baseline anxiety, depression, and offending. Justice-involved youth often live in disorganized neighborhoods with high rates of poverty and violence that increase their risk for developing mental health problems in adolescence and influence criminogenic outcomes (Ingoldsby & Shaw, Reference Ingoldsby and Shaw2002; Gorman-Smith & Loeber, Reference Gorman-Smith and Loeber2005; Kirk, Reference Kirk2008). While worse neighborhood quality was related to higher baseline levels of anxiety, depression, and offending in this sample, it did not directly influence mental health or offending trajectories over time, suggesting that neighborhood quality may be especially important for youth development prior to entering the juvenile justice system. This is in line with previous work suggesting that middle childhood may be a sensitive period for effects of neighborhood context on youth development (Ingoldsby & Shaw, Reference Ingoldsby and Shaw2002) and highlights a need for community-based care for youth living in disorganized or dangerous neighborhoods.

Cross-domain associations between mental health and offending

In the current sample of participants, internalizing symptoms and offending behaviors were positively correlated at time of first arrest such that youth displaying higher baseline levels of anxiety and depression also showed high levels of offending at baseline. After accounting for individual differences in demographic factors, offending frequency at baseline predicted development of both anxiety and depression symptoms over the following five years such that those who offended the most at baseline showed less declines in internalizing symptoms after first arrest. In contrast, neither baseline anxiety nor baseline depression was associated with change in offending behaviors over time, suggesting that while high baseline offending may directly impact some aspects of internalizing symptom development, baseline internalizing symptoms do not directly predict offending development. Prior work examining the directionality in the relationship between offending and internalizing has similarly demonstrated that, for males adolescents specifically, earlier offending behaviors predict later depression symptoms (Jolliffe et al., Reference Jolliffe, Farrington, Brunton-Smith, Loeber, Ahonen and Palacios2019; Kim et al., Reference Kim, Gilman, Kosterman and Hill2019) and anxiety symptoms (Jolliffe et al., Reference Jolliffe, Farrington, Brunton-Smith, Loeber, Ahonen and Palacios2019) rather than the inverse. Our results also highlight the importance of screening across multiple dimensions of mental health as our observed relationships were specific to depression and not anxiety, though this may vary across youth.

Anxiety, depression, and offending were positively associated in the current sample at baseline; even further, internalizing symptoms and offending behaviors fluctuated together over time such that greater declines in offending were mirrored by greater declines in internalizing, and vice versa. While previous work examining the association between internalizing symptoms and risk-taking behaviors in adolescence is mixed, the positive relationships between anxiety, depression, and offending over time suggests that increases in anxiety and depression were associated with increases in offending. Factors such as poor neighborhood quality have been associated with both recidivism and internalizing disorders, which could indicate that such demographic factors may account for the association between externalizing and internalizing problems. However, the associations between internalizing and offending observed in this sample remained even when accounting for demographic factors, indicating that the associations between internalizing symptoms and offending behaviors were not solely due to outside influences.

The concurrent development of internalizing symptoms and offending behaviors observed in this sample suggests that the mental health needs of justice involved youth are inextricable from their rehabilitation needs. These findings give further support for the consideration of mental health needs within the risk-needs-responsivity framework, by considering mental health symptoms in conjunction with other factors relating to recidivism. By treating mental health concerns alongside criminogenic concerns, practitioners can address factors that might otherwise preclude sufficient engagement in treatments addressing criminogenic needs (McCormick et al., Reference McCormick, Peterson-Badali and Skilling2015) leading to potential reductions in recidivism rates and time to recidivism (Zeola et al., Reference Zeola, Guina and Nahhas2017). In addition, even if treatment for mental health concerns does not directly reduce recidivism, supporting healthy mental health development is an important goal in and of itself (Jolliffe et al., Reference Jolliffe, Farrington, Brunton-Smith, Loeber, Ahonen and Palacios2019), and is crucial for youth rehabilitation and well-being in the transition from adolescence into adulthood.

Previous research among serious adolescent offenders has found no direct association between mental health symptoms and risk for rearrest in male youth (Schubert et al., Reference Schubert, Mulvey and Glasheen2011; El Sayed et al., Reference El Sayed, Piquero, Schubert, Mulvey, Pitzer and Piquero2016). However, among the current sample of male adolescents arrested for moderate crimes, higher anxiety at baseline was associated with decreased risk for rearrest, while higher offending at baseline was associated with increased risk for rearrest over the 5-year study period. This suggests that among youth arrested for moderate crimes, baseline anxiety symptoms may serve to assist in avoiding arrest – perhaps due to a fear of punishment. On the other hand, depression symptoms at baseline were not associated with risk of rearrest over the study period, suggesting that baseline depression may not play a role in future rearrest over and above baseline offending behaviors.

Perhaps unsurprisingly, individual differences in offending trajectories were also associated with youth rearrest outcomes in this sample: youth who were rearrested at least once demonstrated greater offending at baseline and showed the smallest declines in offending behaviors over time. This association warrants further investigation into the factors driving recidivism in this subset of rearrested youth and suggests that the level of involvement youth have with the juvenile justice system may relate to changes in their tendency to offend. As this study only examined male juvenile offenders, it is unclear whether other genders would demonstrate the same pattern.

Even after accounting for individual differences in offending frequency and mental health symptoms, multiple demographic variables predicted risk of rearrest. Specifically, youth with lower parental education, Black and Latino youth, and youth who were formally processed were at higher risk of being rearrested at least once over the study period. Of note, lower parental education and race/ethnicity were related to lower offending at baseline, yet still predicted risk of rearrest. These findings highlight multiple types of disparities within justice system involvement, as youth from low-income backgrounds and minority youth are more likely to be rearrested, even after accounting for offending behaviors. Further, this suggests that formal processing may not effectively reduce recidivism in juvenile offenders.

It is important to acknowledge the limitations of the current study. First, as this study consisted of an all-male cohort, we cannot generalize these results to other genders. Furthermore, anxiety and depression were measured via self-report as opposed to full clinical interviews, and therefore should not be used to diagnose clinical anxiety and depression. Nevertheless, youth in the juvenile justice system – and especially males – report more symptoms via self-report compared to clinical interviews (Vermeiren et al., Reference Vermeiren, Jespers and Moffitt2006), suggesting that data from clinical interviews may underestimate youths’ symptom burden. Relatedly, while youth were ensured that their records would remain anonymous and protected from law enforcement subpoena through a Certificate of Confidentiality, it is possible that youth did not disclose the full extent of their offending for fear of punishment. Finally, previous research has implicated factors in driving mental health problems and later re-offending; however, in this study, we do not probe factors mediating this process, and therefore cannot speak to the mechanisms driving changes in mental health and offending at each time point.

While model fit statistics in the current study indicated that a model with both linear and quadratic growth factors fit the data best, it is also important to mention the downsides of including quadratic growth in models of development. Including both linear and quadratic growth factors in the model can make results more difficult to interpret, as both the linear and quadratic slopes affect the rate of change in different ways and at different timepoints (Grimm et al., Reference Grimm, Ram and Hamagami2011). Therefore, the linear and quadratic growth factors and associated results should be interpreted simultaneously. Future work using more fine-tuned modeling may more accurately capture developmental change.

This project advances past work by examining both internalizing and externalizing trajectories in youth after their first arrest. The analytic framework allows us to examine how internalizing symptoms and offending behaviors change together over time, rather than focusing exclusively on the predictive validity of either, as is typically done in the literature. Here, we showcase the reciprocal relationship between internalizing and offending in adolescence and highlight that even amongst male offenders – who typically express fewer internalizing symptoms than female offenders – subclinical internalizing symptomatology may increase risk for recidivism, even after accounting for relevant demographic factors. Taken together, these results underscore the importance of considering both mental health and criminogenic concerns in decisions regarding how youth are treated in the juvenile justice system and highlight the importance of addressing the mental health needs of youth in order to reduce their risk for future antisocial behavior and offending.

Author contributions

Amanda E. Baker and Namita Tanya Padgaonkar should be considered joint first authors.

Funding statement

The Crossroads Study is supported by funding from the John D. and Catherine T. MacArthur Foundation, the Office of Juvenile Justice and Delinquency Prevention, the County of Orange, the Fudge Family Foundation, and the William T. Grant Foundation. This work was further supported by National Institute of Child Health and Human Development (award number 1T32HD091059 to AEB and NTP), the University of California Consortium on the Developmental Science of Adolescence Seed Grant (to AEB and NTP), and the National Science Foundation Graduate Research Fellowship (to AEB and NTP). All findings and conclusions in the present study are those of the authors and do not necessarily reflect the official position or policies of the funding agencies.

Conflicts of interest

The authors have no conflicts of interest to disclose.

References

Andrews, D. A., Bonta, J., & Hoge, R. D. (1990). Classification for effective rehabilitation. Criminal Justice and Behavior, 17(1), 1952. https://doi.org/10.1177/0093854890017001004 CrossRefGoogle Scholar
Atkins, D. L., Pumariega, A. J., Rogers, K., Montgomery, L., Nybro, C., Jeffers, G., & Sease, F. (1999). Mental health and incarcerated youth. I: Prevalence and nature of psychopathology. Journal of Child and Family Studies, 8(2), 193204. https://doi.org/10.1023/A:1022040018365 CrossRefGoogle Scholar
Baraldi, A. N., & Enders, C. K. (2010). An introduction to modern missing data analyses. Journal of School Psychology, 48(1), 537. https://doi.org/10.1016/j.jsp.2009.10.001 CrossRefGoogle ScholarPubMed
Barnert, E. S., Perry, R., & Morris, R. E. (2016). Juvenile incarceration and health. Academic Pediatrics, 16(2), 99109. https://doi.org/10.1016/j.acap.2015.09.004 CrossRefGoogle ScholarPubMed
Becker, S. P., Kerig, P. K., Lim, J.-Y., & Ezechukwu, R. N. (2012). Predictors of recidivism among delinquent youth: Interrelations among ethnicity, gender, age, mental health problems, and posttraumatic stress. Journal of Child & Adolescent Trauma, 5(2), 145160. https://doi.org/10.1080/19361521.2012.671798 CrossRefGoogle Scholar
Cauffman, E. (2004). A statewide screening of mental health symptoms among juvenile offenders in detection. Journal of the American Academy of Child and Adolescent Psychiatry. https://doi.org/10.1097/00004583-200404000-00009 CrossRefGoogle Scholar
Cavanagh, C., & Cauffman, E. (2017). The longitudinal association of relationship quality and reoffending among first-time juvenile offenders and their mothers. Journal of Youth and Adolescence, 46(7), 15331546. https://doi.org/10.1007/s10964-017-0679-3 CrossRefGoogle ScholarPubMed
Child Mind Institute. (2018). Understanding anxiety in children and teens. In 2018 Children’s Mental Health Report. https://childmind.org/our-impact/childrens-mental-health-report/2018report/ Google Scholar
Chorpita, B. F., Yim, L., Moffitt, C., Umemoto, L. A., & Francis, S. E. (2000). Assessment of symptoms of DSM-IV anxiety and depression in children: A revised child anxiety and depression scale. Behaviour Research and Therapy, 38(8), 835855. https://doi.org/10.1016/S0005-7967(99)00130-8 CrossRefGoogle ScholarPubMed
Colman, I., Wadsworth, M. E. J., Croudace, T. J., & Jones, P. B. (2007). Forty-year psychiatric outcomes following assessment for internalizing disorder in adolescence. American Journal of Psychiatry, 164(1), 126133. https://doi.org/10.1176/ajp.2007.164.1.126 CrossRefGoogle ScholarPubMed
Dierkhising, C. B., Ko, S. J., Woods-Jaeger, B., Briggs, E. C., Lee, R., & Pynoos, R. S. (2013). Trauma histories among justice-involved youth: Findings from the National Child Traumatic Stress Network. European Journal of Psychotraumatology, 4(1), 20274. https://doi.org/10.3402/ejpt.v4i0.20274 CrossRefGoogle ScholarPubMed
Dmitrieva, J., Monahan, K. C., Cauffman, E., & Steinberg, L. (2012). Arrested development: The effects of incarceration on the development of psychosocial maturity. Development and Psychopathology. https://doi.org/10.1017/s0954579412000545 CrossRefGoogle ScholarPubMed
Duncan, T. E., Duncan, S. C., & Strycker, L. A. (2013). An introduction to latent variable growth curve modeling (2nd ed.). Routledge.CrossRefGoogle Scholar
El Sayed, S., Piquero, A. R., Schubert, C. A., Mulvey, E. P., Pitzer, L., & Piquero, N. L. (2016). Assessing the mental health/offending relationship across race/ethnicity in a sample of serious adolescent offenders. Criminal Justice Policy Review, 27(3), 265301. https://doi.org/10.1177/0887403415575145 CrossRefGoogle Scholar
Essau, C. A., Lewinsohn, P. M., Lim, J. X., Ho, M. R., & Rohde, P. (2018). Incidence, recurrence and comorbidity of anxiety disorders in four major developmental stages. Journal of Affective Disorders, 228, 248253. https://doi.org/10.1016/j.jad.2017.12.014 CrossRefGoogle ScholarPubMed
Fontaine, N. M. G., Brendgen, M., Vitaro, F., Boivin, M., Tremblay, R. E., & Côté, S. M. (2019). Longitudinal associations between delinquency, depression and anxiety symptoms in adolescence: Testing the moderating effect of sex and family socioeconomic status. Journal of Criminal Justice, 62, 5865. https://doi.org/10.1016/j.jcrimjus.2018.09.007 CrossRefGoogle Scholar
Galobardes, B., Lynch, J., & Smith, G. D. (2007). Measuring socioeconomic position in health research. British Medical Bulletin, 81–82(1), 2137. https://doi.org/10.1093/BMB/LDM001Lien CrossRefGoogle ScholarPubMed
Gorman-Smith, D., & Loeber, R. (2005). Are developmental pathways in disruptive behaviors the same for girls and boys? Journal of Child and Family Studies. https://doi.org/10.1007/s10826-005-1109-9 CrossRefGoogle Scholar
Grimm, K. J., Ram, N., & Hamagami, F. (2011). Nonlinear growth curves in developmental research. Child Development, 82(5), 13571371. https://doi.org/10.1111/j.1467-8624.2011.01630.x CrossRefGoogle ScholarPubMed
Hindelang, M. J., Hirschi, T., & Weis, J. G. (1981). Measuring delinquency. SAGE Publications.Google Scholar
Hu, L., & Bentler, P. M. (1999). Cutoff criteria for fit indexes in covariance structure analysis: Conventional criteria versus new alternatives. Structural Equation Modeling: A Multidisciplinary Journal, 6(1), 155. https://doi.org/10.1080/10705519909540118 CrossRefGoogle Scholar
Huizinga, D., Esbensen, F.-A., & Weiher, A. W. (1991). Are there multiple paths to delinquency. Journal of Criminal Law and Criminology, 82, 83118.Google Scholar
Ingoldsby, E. M., & Shaw, D. S. (2002). Neighborhood contextual factors and early-starting antisocial pathways. Clinical Child and Family Psychology Review, 5(1), 2155. https://doi.org/10.1023/A:1014521724498 CrossRefGoogle ScholarPubMed
Jolliffe, D., Farrington, D. P., Brunton-Smith, I., Loeber, R., Ahonen, L., & Palacios, A. P. (2019). Depression, anxiety and delinquency: Results from the Pittsburgh Youth Study. Journal of Criminal Justice, 62, 4249. https://doi.org/10.1016/j.jcrimjus.2018.08.004 CrossRefGoogle Scholar
Kerig, P. K., Ward, R. M., Vanderzee, K. L., & Arnzen Moeddel, M. (2009). Posttraumatic stress as a mediator of the relationship between trauma and mental health problems among juvenile delinquents. Journal of Youth and Adolescence, 38(9), 12141225. https://doi.org/10.1007/s10964-008-9332-5 CrossRefGoogle ScholarPubMed
Kim, B. K. E., Gilman, A. B., Kosterman, R., & Hill, K. G. (2019). Longitudinal associations among depression, substance abuse, and crime: A test of competing hypotheses for driving mechanisms. Journal of Criminal Justice, 62, 5057. https://doi.org/10.1016/j.jcrimjus.2018.08.005 CrossRefGoogle Scholar
Kirk, D. S. (2008). The neighborhood context of racial and ethnic disparities in arrest. Demography. https://doi.org/10.1353/dem.2008.0011 CrossRefGoogle ScholarPubMed
Lemos, I., & Faísca, L. (2015). Psychosocial adversity, delinquent pathway and internalizing psychopathology in juvenile male offenders. International Journal of Law and Psychiatry, 4243, 49–57. https://doi.org/10.1016/j.ijlp.2015.08.007 CrossRefGoogle Scholar
Lewinsohn, P. M., Rohde, P., & Seeley, J. R. (1995). Adolescent psychopathology: III. The clinical consequences of comorbidity. Journal of the American Academy of Child & Adolescent Psychiatry, 34(4), 510519. https://doi.org/10.1097/00004583-199504000-00018 CrossRefGoogle ScholarPubMed
Lewinsohn, P. M., Zinbarg, R., Seeley, J. R., Lewinsohn, M., & Sack, W. H. (1997). Lifetime comorbidity among anxiety disorders and between anxiety disorders and other mental disorders in adolescents. Journal of Anxiety Disorders, 11(4), 377394. https://doi.org/10.1016/S0887-6185(97)00017-0 CrossRefGoogle ScholarPubMed
Lien, N., Friestad, C., & Klepp, K. I. (2001). Adolescents’ proxy reports of parents’ socioeconomic status: How valid are they? Journal of Epidemiology and Community Health, 55(10), 731737. https://doi.org/10.1136/JECH.55.10.731 CrossRefGoogle Scholar
Loeber, R., & Stouthamer-Loeber, M. (1986). Family factors as correlates and predictors of juvenile conduct problems and delinquency. Crime and Justice, 7, 29149. https://doi.org/10.1086/449112 CrossRefGoogle Scholar
Long, J. S., & Freese, J. (2001). Regression models for categorical dependent variables using Stata. Stata Press Publication.Google Scholar
McCormick, S., Peterson-Badali, M., & Skilling, T. A. (2015). Mental health and justice system involvement: A conceptual analysis of the literature. Psychology, Public Policy, and Law, 21(2), 213225. https://doi.org/10.1037/law0000033 CrossRefGoogle Scholar
McCormick, S., Peterson-Badali, M., & Skilling, T. A. (2017). The role of mental health and specific responsivity in juvenile justice rehabilitation. Law and Human Behavior, 41(1), 5567. https://doi.org/10.1037/lhb0000228 CrossRefGoogle ScholarPubMed
McLeod, J. D., Uemura, R., & Rohrman, S. (2012). Adolescent mental health, behavior problems, and academic achievement. Journal of Health and Social Behavior, 53(4), 482497. https://doi.org/10.1177/0022146512462888 CrossRefGoogle ScholarPubMed
Merikangas, K. R., He, J., Burstein, M., Swanson, S. A., Avenevoli, S., Cui, L., … Swendsen, J. (2010). Lifetime prevalence of mental disorders in U.S. adolescents: Results from the National Comorbidity Survey Replication–Adolescent Supplement (NCS-A). Journal of the American Academy of Child & Adolescent Psychiatry, 49(10), 980989. https://doi.org/10.1016/j.jaac.2010.05.017 CrossRefGoogle ScholarPubMed
Meyer, H. C., & Lee, F. S. (2019, March 1). Translating developmental neuroscience to understand risk for psychiatric disorders. American Journal of Psychiatry, Vol. 176, pp. 179185. https://doi.org/10.1176/appi.ajp.2019.19010091 CrossRefGoogle ScholarPubMed
Moffitt, T. E. (2018). Male antisocial behaviour in adolescence and beyond. Nature Human Behaviour, 2(3), 177186. https://doi.org/10.1038/s41562-018-0309-4 CrossRefGoogle ScholarPubMed
Muthén, L. K., & Muthén, B. O. (2017). Mplus user’s guide (8th ed.). Muthén & Muthén. https://doi.org/10.1111/j.1600-0447.2011.01711.x Google Scholar
National Mental Health Associations. (2004). Mental Health Treatment for Youth in the Juvenile Justice System: A Compendium of Program Practices. Alexandria, VA.Google Scholar
Osgood, D. W., McMorris, B. J., & Potenza, M. T. (2002). Analyzing multiple-item measures of crime and deviance I: Item response theory scaling. Journal of Quantitative Criminology, 18, 267296. https://doi.org/10.1023/A:1016008004010 CrossRefGoogle Scholar
Perry, R. C. W., & Morris, R. E. (2014). Health care for youth involved with the correctional system. Primary Care: Clinics in Office Practice, 41(3), 691705. https://doi.org/10.1016/j.pop.2014.05.007 CrossRefGoogle ScholarPubMed
Piquero, A. R., Blumstein, A., Brame, R., Haapanen, R., Mulvey, E. P., & Nagin, D. S. (2001). Assessing the impact of exposure time and incapacitation on longitudinal trajectories of criminal offending. Journal of Adolescent Research, 16(1), 5474https://doi.org/10.1177/0743558401161005 CrossRefGoogle Scholar
Planey, A. M., Smith, S. M., Moore, S., & Walker, T. D. (2019). Barriers and facilitators to mental health help-seeking among African American youth and their families: A systematic review study. Children and Youth Services Review, 101, 190200. https://doi.org/10.1016/j.childyouth.2019.04.001 CrossRefGoogle Scholar
Reinke, W. M., Eddy, J. M., Dishion, T. J., & Reid, J. B. (2012). Joint trajectories of symptoms of disruptive behavior problems and depressive symptoms during early adolescence and adjustment problems during emerging adulthood. Journal of Abnormal Child Psychology, 40(7), 11231136. https://doi.org/10.1007/s10802-012-9630-y CrossRefGoogle ScholarPubMed
Reising, K., Ttofi, M. M., Farrington, D. P., & Piquero, A. R. (2019). Depression and anxiety outcomes of offending trajectories: A systematic review of prospective longitudinal studies. Journal of Criminal Justice, 62, 315. https://doi.org/10.1016/j.jcrimjus.2018.05.002 CrossRefGoogle Scholar
Ruchkin, V. V., Schwab-Stone, M., Koposov, R. A., Vermeiren, R., & King, R. A. (2003). Suicidal ideations and attempts in juvenile delinquents. Journal of Child Psychology and Psychiatry, 44(7), 10581066. https://doi.org/10.1111/1469-7610.00190 CrossRefGoogle ScholarPubMed
Sampson, R. J., & Laub, J. H. (2005). A life-course view of the development of crime. Annals of the American Academy of Political and Social Science. https://doi.org/10.1177/0002716205280075 CrossRefGoogle Scholar
Sampson, R. J., & Raudenbush, S. W. (1999). Systematic social observation of public spaces: A new look at disorder in urban neighborhoods. American Journal of Sociology, 105(3), 603651. https://doi.org/10.1086/210356 CrossRefGoogle Scholar
Schubert, C. A., & Mulvey, E. P. (2014). Behavioral Health Problems, Treatment, and Outcomes in Serious Youthful Offenders. Washington, D.C.: U.S. Department of Justice, Office of Justice Programs, Office of Juvenile Justice and Delinquency Prevention.Google Scholar
Schubert, C. A., Mulvey, E. P., & Glasheen, C. (2011). Influence of mental health and substance use problems and criminogenic risk on outcomes in serious juvenile offenders. Journal of the American Academy of Child & Adolescent Psychiatry, 50(9), 925937. https://doi.org/10.1016/j.jaac.2011.06.006 CrossRefGoogle ScholarPubMed
Snyder, H. N., & Office of Justice Programs. (2008). Juvenile Arrests 2006. In Juvenile Justice Bulletin. U.S. Department of JusticeGoogle Scholar
Substance Abuse and Mental Health Services Administration, U.S. Department of Health and Human Services (2012). Results from the 2011 national survey on drug use and health: mental health findings. Hsdl. Org. Retrieved from https://www.hsdl.org/?abstract&did=730763 Google Scholar
Sweeten, G. (2012). Scaling criminal offending. Journal of Quantitative Criminology, 28(3), 533557. https://doi.org/10.1007/s10940-011-9160-8 CrossRefGoogle Scholar
Sweeten, G., Piquero, A. R., & Steinberg, L. (2013). Age and the explanation of crime, revisited. Journal of Youth and Adolescence. https://doi.org/10.1007/s10964-013-9926-4 CrossRefGoogle ScholarPubMed
Teplin, L. A., Abram, K. M., McClelland, G. M., Dulcan, M. K., & Mericle, A. A. (2002). Psychiatric disorders in youth in juvenile detention. Archives of General Psychiatry, 59(12), 1133. https://doi.org/10.1001/archpsyc.59.12.1133 CrossRefGoogle ScholarPubMed
Teplin, L. A., Welty, L. J., Abram, K. M., Dulcan, M. K., & Washburn, J. J. (2012). Prevalence and persistence of psychiatric disorders in youth after detention. Archives of General Psychiatry, 69(10), 1031. https://doi.org/10.1001/archgenpsychiatry.2011.2062 CrossRefGoogle ScholarPubMed
Thornberry, T., & Krohn, M. (2000). The self-report method for measuring delinquency and crime. Criminal Justice, 4(1), 3383.Google Scholar
Vermeiren, R. (2003). Psychopathology and delinquency in adolescents: a descriptive and developmental perspective. Clinical Psychology Review, 23(2), 277318. https://doi.org/10.1016/S0272-7358(02)00227-1 CrossRefGoogle ScholarPubMed
Vermeiren, R., Jespers, I., & Moffitt, T. (2006). Mental health problems in juvenile justice populations. Child and Adolescent Psychiatric Clinics of North America, 15(2), 333351. https://doi.org/10.1016/j.chc.2005.11.008 CrossRefGoogle ScholarPubMed
Wasserman, G. A., McReynolds, L. S., Schwalbe, C. S., Keating, J. M., & Jones, S. A. (2010). Psychiatric disorder, comorbidity, and suicidal behavior in juvenile justice youth. Criminal Justice and Behavior, 37(12), 13611376. https://doi.org/10.1177/0093854810382751 CrossRefGoogle Scholar
Yampolskaya, S., & Chuang, E. (2012). Effects of mental health disorders on the risk of juvenile justice system involvement and recidivism among children placed in out-of-home care. American Journal of Orthopsychiatry. https://doi.org/10.1111/j.1939-0025.2012.01184.x CrossRefGoogle ScholarPubMed
Zajac, K., Sheidow, A. J., & Davis, M. (2015). Juvenile justice, mental health, and the transition to adulthood: A review of service system involvement and unmet needs in the U.S. Children and Youth Services Review, 56, 139148. https://doi.org/10.1016/j.childyouth.2015.07.014 CrossRefGoogle ScholarPubMed
Zeola, M. P., Guina, J., & Nahhas, R. W. (2017). Mental health referrals reduce recidivism in first-time juvenile offenders, but how do we determine who is referred? Psychiatric Quarterly. https://doi.org/10.1007/s11126-016-9445-z CrossRefGoogle ScholarPubMed
Figure 0

Table 1. Participant descriptive statistics

Figure 1

Table 2. Correlations between main study variables at each timepoint

Figure 2

Table 3. Unconditional anxiety growth model

Figure 3

Table 4. Unconditional depression growth model

Figure 4

Table 5. Unconditional offending growth model

Figure 5

Table 6. Conditional anxiety growth model

Figure 6

Figure 1. Trajectories of anxiety following youths’ first arrest. A) Conditional anxiety growth model. Note. only covariates with significant effects are shown. Hood = neighborhood quality; BL = baseline; FU = follow-up; μ= estimated mean derived from model. *p< .05, **p< .01, ***p< .001. B) Visual depiction of anxiety symptoms over time. Grey lines depict individual growth trajectories in anxiety with the average group trajectory overlaid in black.

Figure 7

Table 7. Conditional depression growth model

Figure 8

Figure 2. Trajectories of depression following youths’ first arrest. A) Conditional depression growth model. Note. only covariates with significant effects are shown. Hood = neighborhood quality; Process = formal processing; BL = baseline; FU = follow-up; μ = estimated mean derived from model. Reference group for race: White. *p < .05, **p < .01, ***p < .001. B) Visual depiction of depression symptoms over time. Grey lines depict individual growth trajectories in depression with the average group trajectory overlaid in black.

Figure 9

Table 8. Conditional offending growth model

Figure 10

Figure 3. Trajectories of offending following youths’ first arrest. A) Conditional offending growth model. Note. only covariates with significant effects are shown. Pared = parental education; Hood = neighborhood quality; PA = Pennsylvania; LA = Louisiana; Process = formal processing; BL = baseline; FU = follow-up; TF = time in facility; μ = estimated mean derived from model. Reference groups for data collection site and race: California and White. *p < .05, **p < .01, ***p < .001. B) Visual depiction of offending behaviors over time. Grey lines depict individual growth trajectories in depression with the average group trajectory overlaid in black.

Figure 11

Figure 4. Average offending trajectories by age group and processing type. A) Visual depiction of offending trajectories by age group at baseline. Older participants demonstrated greater declines in offending after first arrest. B) Visual depiction of offending trajectories by processing type. Informal processing was associated with greater declines in offending after first arrest.

Figure 12

Figure 5. Average group trajectories of anxiety, depression, and offending.

Figure 13

Figure 6. Cross-domain associations between the intercepts and slopes for anxiety, depression, and offending before and after accounting for demographic covariates. A) Before accounting for demographic covariates, levels of offending at baseline predict development of offending behaviors, while levels of depression at baseline predict quadratic growth in offending. B) After accounting for demographic covariates, levels of offending at baseline predict development of offending behaviors and anxiety and depression symptoms over time, while levels of anxiety and depression at baseline only predict development of anxiety and depression over time. Note. only significant paths are shown. *p < .05, **p < .01, ***p < .001.

Figure 14

Table 9. Estimated covariance and residual covariance matrices for the slope growth factors

Figure 15

Table 10. Estimated correlation and residual correlation matrices for the slope growth factors

Figure 16

Figure 7. Predictors of youth rearrest over the study period. Youth reporting lower parental education, youth who were formally processed, and Black and Latino youth were at higher risk of being rearrested. Higher baseline offending predicted higher risk of rearrest, while higher baseline anxiety predicted lower chance of rearrest. Changes in self-reported offending behaviors over time were associated with rearrest risk such that youth who were rearrested during the study period also showed less declines in offending after their first arrest. Note. only covariates with significant effects are shown. Pared = parental education; Process = formal processing. Reference group for race: White. *p < .05, **p < .01, ***p < .001.