Skip to main content
NIHPA Author Manuscripts logoLink to NIHPA Author Manuscripts
. Author manuscript; available in PMC: 2009 Mar 4.
Published in final edited form as: Addict Behav. 2007 Jun 9;32(12):3107–3113. doi: 10.1016/j.addbeh.2007.06.008

Addiction epidemiology in adolescents receiving inpatient psychiatric treatment

Michael F Weaver a,*, Madeleine A Dupre b, Karen L Cropsey a, J Randy Koch a, Bela A Sood a, Jenny L Wiley a, Robert L Balster a
PMCID: PMC2651151  NIHMSID: NIHMS80072  PMID: 17630222

Abstract

This study sought to characterize adolescent psychiatric inpatient populations from two sites and to determine correlates of substance use disorders (SUD). Screening procedures for SUD differ substantially between these sites. A retrospective review of adolescent inpatients (n=636) revealed that the populations were similar in gender, race and age. Rates of SUD at the site with a formalized SUD screening regimen were higher (39%) than those at the other site (16.5%). Similar correlates of SUD were observed across sites, including older age, legal involvement, sexual activity, childhood disruptive disorder, and tobacco use. These results suggest that SUD is a major issue in adolescent psychiatric patients. More rigorous screening for SUD and its correlates may facilitate earlier detection of substance use in this vulnerable population.

Keywords: Co-occurring disorders, Dual diagnosis, Adolescents, Epidemiology, Treatment

1. Introduction

Studies have shown that up to 65% of adolescent psychiatric inpatients with a primary Axis I disorder had co-morbid substance use disorders (SUD) (Deas-Nesmith, Campbell, & Brady, 1998; Hovens, Cantwell, & Kiriakos, 1994; Wise, Cuffe, & Fischer, 2001), but up to 80% of adolescents with psychosis had a co-morbid SUD (Strakowski, Keck, McElroy, Lonczak, & West, 1995; Swadi & Bobier, 2003). Most adolescent psychiatric inpatients in the Commonwealth of Virginia are served by only two major public hospitals. Site 1 is a university-operated facility located in an urban environment. Site 2 is a state-operated facility located in a small city that admits children and adolescents in need of acute-care crisis stabilization, which uses a standardized SUD screening protocol with urine drug screening and the Substance Abuse Subtle Screening Inventory (SASSI) (Sweet & Saules, 2003). Site 1 relies on non-standardized clinical interviews with patients and their parents/guardians. The goals of this retrospective chart review were (1) to describe and characterize these two populations and (2) to determine unique and shared correlates of SUD in these populations. Of particular interest are the effects of different admission criteria and SUD screening procedures on rates of SUD diagnosis in each population.

2. Methods

This study was approved by the University Institutional Review Board of Site 1 and the Clinical Review Committee of Site 2. A retrospective chart review was performed for inpatients admitted to the two facilities between July 1, 2003 and June 30, 2004. Exclusion criteria were: age < 12 or > 18 years at time of admission, or mental retardation, or pervasive developmental disorder. A diagnosis of SUD was determined by reviewing physician and nursing documentation in the medical record, based on the Diagnostic and Statistical Manual of Mental Disorders, Fourth Edition, Text Revision (American Psychiatric Association, 2000). Results of a pilot test at Site 1 showed an inter-rater reliability for two independent raters of 83–100% across individual items of 5% of the sample, and inter-rater reliability at Site 2 was 85–99% for four independent raters (alpha score of agreement was calculated for each variable to arrive at this range) for 10% of the sample.

We used descriptive statistics to characterize each population. Subsequently, we used Chi-square or ANOVA procedures to compare and contrast the two populations on key variables of interest. We examined frequencies of tobacco use as well as frequencies of diagnosis of SUD at discharge at each treatment center. Separate univariate analyses, including Chi-square and t-tests, were used at each facility to determine correlates of receiving an SUD diagnosis upon discharge from the psychiatric facility. In addition, logistic regression models utilized data from each of the two sites separately. All variables of interest were forced-entered into the logistic regression equation. For all analyses, the p-value was set at 0.05.

3. Results

3.1. Comparison between the facilities

During the study year, Site 1 had 554 admissions, and final Site 1 sample size was 316 adolescents (see Table 1). Site 2 had 391 adolescent admissions, with a final sample size of 320 adolescents.

Table 1.

Comparisons between patients at two inpatient adolescent psychiatric facilities

Variable Site 1 (n=316) Site 2 (n=320)
Male 48.4% 49.1%
White 58.9% 56.3%
Patient in regular education 69.9% 49.4%
First hospitalization 52.2% 58.8%
Current or past legal involvement 25.9% 60.9%
Current or past legal involvement (parents) 9.8% 26.6%
Family history of mental illness 28.8% 54.4%
Family history of substance abuse 25.6% 64.4%
Mood disorder at discharge 74.1% 70.6%
Anxiety disorder at discharge 11.1% 39.1%
Psychotic disorder at discharge 5.1% 7.5%
Adjustment disorder at discharge 1.9% 14.7%
Childhood disruptive disorder at discharge 20.9% 59.4%
Substance use disorder at discharge 16.5% 39.1%
Any tobacco use 33.9% 61.9%
History of sexual activity 38.3% 54.1%
History of self-injury 38.3% 67.2%
History of any abuse 32.3% 58.0%
History of aggression 31.0% 72.5%

As expected, there was a high incidence of SUD among patients at these two facilities, with 16.5% at Site 1 and 39.1% at Site 2. At both sites, the most common SUD was alcohol abuse or dependence (6% at Site 1 and 17.6% at Site 2), followed by marijuana abuse or dependence (4.7% at Site 1 and 12.5% at Site 2) and polysubstance dependence (1.6% at Site 1 and 4.1% at Site 2). The two populations were similar in age, gender, and racial composition. Site 2 adolescents had more severe psychosocial problems as evidenced by significantly more history of legal involvement, more parents with histories of legal problems, more family history of mental illness and substance abuse, more history of aggressive or self-injurious behaviors and were more often victims of abuse (physical, sexual, or emotional). Adolescents at Site 2 were also less likely to be attending school in regular classrooms and were more likely to be sexually active. Finally, adolescents at Site 2 were more likely to receive a diagnosis in the following diagnostic categories: Childhood Disruptive Disorders, Anxiety Disorders, or Adjustment Disorders. No differences were found between the two facilities for diagnoses of Mood or Psychotic Disorders.

3.2. Univariate correlates of substance use disorders

Because the populations and the rates of SUD at the two facilities were different, separate analyses of the correlates of SUD were calculated for each site. Table 2 shows the correlates of a substance use diagnosis at discharge for each of the facilities. An Analysis of Variance (ANOVA) was calculated to determine differences in age for diagnosis of SUD at discharge for both sites. For both sites, adolescents diagnosed with an SUD were significantly older than their peers who were not diagnosed with an SUD [Site 1: 15.75 vs. 14.88; F(1,315)=14.67, p<0.001; Site 2: 15.46 vs. 14.48; F(1, 319)=30.66, p<0.001]. Adolescents from both sites who were diagnosed with an SUD were significantly more likely to be sexually active and use tobacco. At Site 1, males were more likely to receive an SUD diagnosis than females. At Site 2, adolescents with an SUD were also more likely to be diagnosed with a mood disorder, have a family history of substance use, and also be involved in the juvenile justice system.

Table 2.

Univariate analyses for correlates of substance use disorders in two inpatient adolescent psychiatric facilities

Variable Substance use diagnosis a
Site 1 (n=316) Chi-square Site 2 (n=320) Chi-square
Gender Male 20.9% 4.29 b 43.9% 3.09
Female 12.3% 34.4%
Race White 17.2% 0.18 39.4% 0.03
Other 15.4% 38.6%
Education Regular 15.8% 0.21 40.5% 0.27
Other 17.9% 37.7%
Hospitalization First 17.6% 0.32 41.0% 0.69
Multiple 15.2% 36.4%
Legal history Yes 19.5% 0.75 49.7% 23.93 c
No 15.4% 22.4%
Parental legal history Yes 17.2% 1.14 47.1% 3.11
No 9.7% 36.2%
Family history of mental illness Yes 16.5% 0.01 42.5% 1.93
No 16.4% 34.9%
Family history of substance abuse Yes 15.3% 0.86 45.1% 8.99 d
No 19.8% 28.1%
Mood disorder at discharge Yes 14.1% 3.63 44.7% 10.24c
No 23.2% 25.5%
Anxiety disorder at discharge Yes 14.3% 0.14 39.2% 0.01
No 16.7% 39.0%
Psychotic disorder at discharge Yes 6.3% 1.28 29.2% 1.07
No 17.0% 39.9%
Adjustment disorder at discharge Yes 0% 1.21 38.3% 0.01
No 16.8% 39.2%
Childhood disruptive disorder at discharge Yes 22.7% 2.39 43.2% 3.30
No 14.8% 33.1%
Tobacco use Yes 28.0% 15.79c 54.5% 52.30c
No 10.5% 13.9%
Sexually active Yes 24.0% 8.05d 53.8% 34.16c
No 11.8% 21.8%
History of self-injury Yes 13.2% 1.49 39.1% 0.01
No 18.5% 39.0%
History of any abuse Yes 14.7% 0.34 36.2% 1.63
No 17.3% 43.3%
History of aggression Yes 13.3% 1.05 39.2% 0.01
No 17.9% 38.6%
a

Indicates the percentage in each category that was diagnosed with substance dependence disorder.

b

p<0.05.

c

p<0.001.

d

p<0.01.

3.3. Unique correlates of substance use disorders

Table 3 shows the correlates of receiving an SUD diagnosis at discharge at Site 1. Being older and use of tobacco were independent correlates of receiving an SUD diagnosis at discharge. Use of tobacco was associated with 2.62 increased odds of receiving an SUD diagnosis. Overall, the model was significant (chi-square=8.59, df= 19, p<0.001), with 85.8% of the sample correctly classified according to the presence or absence of SUD diagnosis.

Table 3.

Logistic regression correlates of substance dependence for Site 1 (n=316)

Variable β SE Wald p-value Odds ratio 95% CI
Older age 0.37 0.13 7.67 0.006 1.45 1.11–1.88
Male 0.43 0.36 1.44 0.231 0.65 0.32–1.37
White 0.15 0.38 0.15 0.700 1.16 0.55–2.44
Regular education 0.12 0.38 0.11 0.746 1.13 0.54–2.37
First hospitalization − 0.17 0.36 0.23 0.630 0.84 0.42–1.70
Legal history 0.10 0.38 0.07 0.792 1.13 0.53–2.30
Parental legal history − 0.91 0.72 1.62 0.202 0.40 0.10–1.63
Family SA history 0.14 0.42 0.11 0.742 1.15 0.51–2.59
Family MH history − 0.07 0.40 0.03 0.870 0.94 0.43–2.05
Mood disorder − 0.71 0.38 3.47 0.063 0.49 0.23–1.04
Anxiety disorder − 0.01 0.59 0.00 0.983 0.99 0.31–3.13
Adjustment disorder − 20.04 0.00 0.00 0.999 0.00 0.00–0.00
Disruptive disorder 0.73 0.42 2.99 0.083 2.07 0.91–4.72
Psychotic disorder − 1.39 1.13 1.50 0.221 0.25 0.03–2.30
Tobacco use 0.96 0.36 7.20 0.007 2.62 1.30–5.30
Self-injury history − 0.38 0.37 1.02 0.312 0.69 0.33–1.42
Abuse history − 0.42 0.40 1.06 0.304 0.66 0.30–1.46
Sexually active 0.60 0.38 2.46 0.117 1.82 0.86–3.84
Aggression history − 0.49 0.40 1.48 0.224 0.61 0.28–1.35

This same procedure was used to determine the correlates of receiving an SUD at Site 2 (Table 4). Older age, diagnosis of a mood disorder, history of legal involvement, history of sexual activity, and use of tobacco were all independent correlates of being diagnosed with an SUD. Having been a victim of abuse was associated with not receiving an SUD. Use of tobacco increased the odds of receiving an SUD 5-fold, while legal involvement, being sexually active, and receiving a diagnosis of a mood disorder all doubled the odds of having an SUD. Overall, the model was significant (chi-square=118.48, df= 19, p<0.001), with 77.4% of the sample correctly classified according to the presence or absence of SUD diagnosis.

Table 4.

Logistic regression correlates of substance dependence for Site 2 (n=320)

Variable β SE Wald p-value Odds ratio 95% CI
Older age 0.34 0.11 10.62 0.001 1.41 1.15–1.64
Male − 0.19 0.34 0.32 0.570 0.83 0.43–1.73
White 0.15 0.32 0.23 0.635 1.16 0.62–2.17
Regular education − 0.48 0.31 2.41 0.121 0.62 0.34–1.13
First hospitalization − 0.11 0.33 0.11 0.743 0.90 0.47–1.71
Legal history 0.89 0.34 6.80 0.009 2.43 1.25–4.75
Parental legal history 0.39 0.34 1.28 0.257 1.47 0.76–2.86
Family SA history 0.36 0.33 1.18 0.278 1.43 0.75–2.71
Family MH history 0.25 0.31 0.69 0.406 1.29 0.71–2.34
Mood disorder 0.91 0.35 6.67 0.010 2.49 1.25–4.99
Anxiety disorder 0.10 0.32 0.09 0.764 1.10 0.59–2.07
Adjustment disorder 0.25 0.46 0.29 0.591 1.28 0.52–3.14
Disruptive disorder 0.58 0.32 3.27 0.071 1.79 0.95–3.36
Psychotic disorder 0.69 0.64 1.15 0.284 1.99 0.56–7.03
Tobacco use 1.65 0.36 21.49 <0.001 5.23 2.60–10.52
Self-injury history 0.11 0.35 0.10 0.748 1.12 0.56–2.23
Abuse history − 0.64 0.32 4.00 0.045 0.53 0.38–0.95
Sexually active 0.75 0.31 5.67 0.017 2.11 1.14–3.91
Aggression history − 0.35 0.35 1.01 0.315 0.71 0.36–1.39

4. Discussion

The results of this study clearly demonstrate that use of illicit substances (including alcohol, since its use is illegal until age 21) is not uncommon in adolescents hospitalized for psychiatric illness. Rates of diagnosis of SUD significantly varied across setting, with twice as many adolescents at Site 2 receiving an SUD diagnosis compared to adolescents at Site 1 (39% vs. 17%, respectively). Site 2 used a standardized substance abuse screening protocol, while Site 1 relied primarily on non-standardized clinical interviews. Site 2 received patients from home environments that were more disrupted, including those with (1) higher rates of personal and parental involvement in the justice system, (2) greater degree of familial history of both mental illness and substance abuse, and (3) greater enrollment in alternative educational settings.

The strongest univariate correlates of a diagnosis of SUD at both facilities were tobacco use and sexual activity. Older age was strongly associated with SUD in each individual population. Correlates for one or both sites included diagnosis of mood or conduct disorder, family history of SUD, and contact with the juvenile justice system.

One particularly intriguing finding of the logistic regression model for Site 2 was the negative correlation between being a victim of abuse and diagnosis of SUD; that is, victims of abuse were less likely to be diagnosed with SUD. It is possible that the substantial difference in rigor of the screening processes for SUD vs. physical/sexual abuse at Site 2 resulted in enhanced detection of SUD in the absence of similar increases in detection of physical or sexual abuse.

The limitations of this study are common to most retrospective studies of this nature. First, the populations chosen for this study are relatively small and geographically confined, suggesting the need for caution in generalization of the results. Second, data collected for this study are correlative, with the attendant caveats concerning attribution of causality. Third, the two centers from which subjects were selected have very different practices with respect to documentation of SUD as well as admission criteria.

In summary, co-morbid presentation of psychiatric disorders and SUD during adolescence presents special challenges to clinicians and researchers. In this study, rates of SUD were higher in both inpatient populations than in the general adolescent population. This suggests that co-occurring substance abuse is a major issue that must be addressed in adolescent psychiatric inpatients. Formal screening for correlates such as those described in this study may facilitate detection of SUD in psychiatrically ill youth, and wider implementation of this practice may lead to earlier identification of SUD in adolescent psychiatric inpatients.

Acknowledgments

Research was funded by the Virginia Commonwealth University Institute for Drug and Alcohol Studies. Preparation of the manuscript was supported in part by NIH grants DA-015774. The authors would like to thank Elijah Robinson and M. Jerry Wright, Jr. (Virginia Commonwealth University), and Karen Rapp, Joanna Cole and Sheryle Moore (formerly at the Commonwealth Center for Children and Adolescents) for their assistance with this study.

Footnotes

This article was published in an Elsevier journal. The attached copy is furnished to the author for non-commercial research and education use, including for instruction at the author’s institution, sharing with colleagues and providing to institution administration.

Other uses, including reproduction and distribution, or selling or licensing copies, or posting to personal, institutional or third party websites are prohibited.

In most cases authors are permitted to post their version of the article (e.g. in Word or Tex form) to their personal website or institutional repository. Authors requiring further information regarding Elsevier’s archiving and manuscript policies are encouraged to visit: http://www.elsevier.com/copyright

References

  1. American Psychiatric Association. Diagnostic and statistical manual of mental disorders. Fourth Edition, Text Revision. Washington, DC: American Psychiatric Association; 2000. [Google Scholar]
  2. Deas-Nesmith D, Campbell S, Brady KT. Substance use disorders in an adolescent inpatient psychiatric population. Journal of the National Medical Association. 1998;90:233–238. [PMC free article] [PubMed] [Google Scholar]
  3. Hovens JG, Cantwell DP, Kiriakos R. Psychiatric comorbidity in hospitalized adolescent substance abusers. Journal of the American Academy of Child and Adolescent Psychiatry. 1994;33:476–483. doi: 10.1097/00004583-199405000-00005. [DOI] [PubMed] [Google Scholar]
  4. Strakowski SM, Keck PE, Jr, McElroy SL, Lonczak HS, West SA. Chronology of comorbid and principal syndromes in first-episode psychosis. Comprehensive Psychiatry. 1995;36:106–112. doi: 10.1016/s0010-440x(95)90104-3. [DOI] [PubMed] [Google Scholar]
  5. Swadi H, Bobier C. Substance use disorder comorbidity among inpatient youths with psychiatric disorder. Australia and New Zealand Journal of Psychiatry. 2003;37:294–298. doi: 10.1046/j.1440-1614.2003.01180.x. [DOI] [PubMed] [Google Scholar]
  6. Sweet RI, Saules KK. Validity of the substance abuse subtle screening inventory-adolescent version (SASSI-A) Journal of Substance Abuse Treatment. 2003;24:331–340. doi: 10.1016/s0740-5472(03)00049-7. [DOI] [PubMed] [Google Scholar]
  7. Wise BK, Cuffe SP, Fischer T. Dual diagnosis and successful participation of adolescents in substance abuse treatment. Journal of Substance Abuse Treatment. 2001;21:161–165. doi: 10.1016/s0740-5472(01)00193-3. [DOI] [PubMed] [Google Scholar]

RESOURCES