- Research article
- Open Access
- Open Peer Review
General and specific components of depression and anxiety in an adolescent population
BMC Psychiatry volume 11, Article number: 191 (2011)
Depressive and anxiety symptoms often co-occur resulting in a debate about common and distinct features of depression and anxiety.
An exploratory factor analysis (EFA) and a bifactor modelling approach were used to separate a general distress continuum from more specific sub-domains of depression and anxiety in an adolescent community sample (n = 1159, age 14). The Mood and Feelings Questionnaire and the Revised Children's Manifest Anxiety Scale were used.
A three-factor confirmatory factor analysis is reported which identified a) mood and social-cognitive symptoms of depression, b) worrying symptoms, and c) somatic and information-processing symptoms as distinct yet closely related constructs. Subsequent bifactor modelling supported a general distress factor which accounted for the communality of the depression and anxiety items. Specific factors for hopelessness-suicidal thoughts and restlessness-fatigue indicated distinct psychopathological constructs which account for unique information over and above the general distress factor. The general distress factor and the hopelessness-suicidal factor were more severe in females but the restlessness-fatigue factor worse in males. Measurement precision of the general distress factor was higher and spanned a wider range of the population than any of the three first-order factors.
The general distress factor provides the most reliable target for epidemiological analysis but specific factors may help to refine valid phenotype dimensions for aetiological research and assist in prognostic modelling of future psychiatric episodes.
Depressive and anxiety symptoms often co-occur across the life-course resulting in a debate about common and distinct features of depression and anxiety emotional disorders. Both can be viewed as manifestations of a broad dimension of internalizing symptoms distinct from an externalizing dimension consisting of substance abuse, ADHD, oppositional and conduct disorders [1–5]. Various dimensional models have been proposed in order to distinguish common and distinct features of depression and anxiety and to further investigate the components of the broad internalizing factor. The well-known tripartite model  posits that negative affectivity is the shared component of depression and anxiety and that low positive affectivity is specific to depression and only weakly related to anxiety. Physiological hyperarousal is considered to be specific for anxiety. While there is good evidence for a general negative affectivity factor as an explanation for the overlap of depressive and anxious symptoms the role of physiological arousal is less clear and has to date been more significantly related to panic than to other anxiety disorders [7–9].
Other models have also emphasized the hierarchical structure of comorbidity between depression and anxiety [8, 10]. These models acknowledge the role of an underlying general distress component which accounts for the communality of depression and anxiety symptoms as well as more specific sub-domains of depressive and anxious psychopathology which specify the unique components of both disorders over and above a general underlying distress factor. Both components are needed to fully represent the variation of depressive and anxious psychopathology.
A methodological shortcoming of previous research is that ordinal responses to questionnaires measuring common psychopathology symptoms were often treated as continuous. This can lead to attenuated estimates of correlations among indicators, particularly when there is a floor effect which is often the case in psychopathological scales in community samples. Additionally, factor analyses can yield "pseudofactors" as artefacts of item difficulty or extremeness and can generate incorrect test statistics and standard errors .
The purpose of the present study was to analyse common and distinct features of depression and anxiety symptoms in adolescents using self-report data from the Mood and Feelings Questionnaire (MFQ) , and the Revised Children's Manifest Anxiety Scale (RCMAS) . Based on existing literature and exploratory factor analyses of our data, we compared a) a one factor general distress model, assuming that depression and anxiety symptoms in adolescents do not represent clearly distinguishable constructs; b) a two-factor model with one factor for cognitive and emotional symptoms of depression and anxiety, and another factor for somatic symptoms; c) a three-factor model with separate factors for depression, worrying and somatic symptoms; and d) a bifactor model, also known as a general-specific model, with a general distress factor distinguished from more specific components of depression and anxiety. These specific components account for the unique influence of the specific domains over and above the general factor and thus provide unique information completely separate from the general distress factor [14–18]. Figure 1 shows a schematic illustration of the models.
The sample comprised 1238 14 year-old adolescents from the ROOTs study, a British longitudinal cohort study [19, 20]. Participants were recruited from Cambridgeshire schools. Twenty-seven secondary schools were approached and 18 schools agreed to take part with 3762 students invited. Response rates for individual schools ranged from 18% to 38% resulting in 33% of the adolescents taking part in the study (n = 1238; 46% boys and 54% girls). A total of 55% of the respondents were female and 94% were white with European origins. The socio-economic status for 14% of the sample was summarized as hard-pressed or moderate means, 24% were comfortably off, and 62% were categorised as urban prosperity or wealthy achiever. This corresponds largely to the socio-economic profile of Cambridgeshire . There were no significant gender differences in ethnicity or socio-economic status.
The analysis sample included 1159 respondents (93% of the whole sample) who completed at least 85% of the MFQ and RCMAS items; 1081 had complete data on all items. The average total score was 15.33 (SD = 10.06) for the MFQ and 14.74 (SD = 10.73) for the RCMAS. Girls had higher scores on the MFQ (female mean = 17.14, SD = 10.81 vs. male mean = 13.11, SD = 8.57, t = -683, p < .000) and higher scores on the RCMAS (female mean = 17.07, SD = 11.21 vs. male mean = 11.86, SD = 9.35, t = -683, p < .000) than boys. The lifetime prevalence for an affective disorder at age 14 in the ROOTS sample was 8% and 6% for an anxiety disorder. More details about the frequency of early adversities and clinical diagnoses in the ROOTs sample can be found elsewhere .
The study was carried out in accordance with the Declaration of Helsinki and Good Clinical Practice guidelines. The study was approved by Cambridgeshire 2 REC, reference number 03/302. At entry into the study all participants and their parents gave written, informed consent.
The Mood and Feelings Questionnaire (MFQ) is a self-report screening tool for detecting symptoms of depressive disorders in children and adolescents of 6-17 years of age . MFQ items were designed to cover DSM diagnostic criteria for major depressive disorders. The scale comprised 33 items. Criterion-related validity, i.e. the ability to predict clinical diagnosis, has been established [22, 23].
The Revised Children's Manifest Anxiety Scale (RCMAS)  measures general anxiety, including physiological anxiety, worry/oversensitivity, and social concerns with 28 items. An additional subscale, which was not included in this study, assessed social desirability. The assessment period for both the MFQ and the RCMAS was two weeks. The response format for both scales was modified prior to data collection to four ordered categories labelled from 0 = never; 1 = sometimes, 2 = mostly, to 3 = always. As prevalence of responses in the highest category (3 = always) was below 6%, the two highest categories were collapsed for further analyses (2 = mostly and always). Full question wording of the 61 items and response frequencies are shown in Table 1.
Initial analysis of the joint item pool was conducted in stages. First, we computed exploratory factor analyses for categorical data for each scale and for pooled items under promax rotation using Mplus . A similar analysis using ULS was performed using the freeware programme FACTOR  which also estimates second order factor models from first-order EFA solutions, including a Schmid-Leiman decomposition of the second order factor model. Based on these results, a series of factor analyses for categorical items were specified with a single general factor and up to three specific factors (see below). To test for the generality of the models we also performed exploratory factor analyses with a random split-half sample (split1, n = 540). Based on these results, a series of confirmatory factor analyses on the validation sample (split2, n = 539). As the factor structure and the items loading on the factors were similar for the two split-half analyses and the whole sample we only report the results for the whole sample to maximize the sample size. Post-hoc modelling identified some structural refinements based on modification indices and a slightly revised model was proposed.
Thresholds and Scale Information Functions were calculated with the ordinal factor analyses procedures in Mplus. Thresholds locate the items along the latent distress continuum according to item severity. Categorical item factor analysis in Mplus does not report item thresholds which are directly comparable to IRT parameters. Therefore to compute the thresholds (b1 and b2) tau estimates were divided by the factor loadings . The standard errors of measurement were computed from the inverse of the square root of the information function and were plotted using graphics commands. These graphs are important to provide an indication of variations in the level of estimated score precision across the measurement range and to identify the range of scale values, which are measured with highest precision.
Uniform differential item functioning (DIF) for gender was analysed in the context of a MIMIC model . Uniform differential item functioning is present when items on a scale behave differently for subgroups of a population, holding the latent trait constant. This would reflect other potential influences on item responses than the underlying factor(s). As a first step, we added gender as a covariate to the models. We then fixed all the direct effects of gender on the items to zero, assuming that there is no direct effect and inspected the modification indices . DIF was considered for any item with a large modification index (> .30). In a subsequent step we added a direct effect of gender on those items and inspected the change in the estimates.
Model estimation was performed using robust Weighted Least Squares (rWLS; estimator = Weighted Least Squares Mean and Variance adjusted (WLSMV)). Estimation using rWLS returns modified standard errors and a corrected chi-square test statistic of model fit. Unlike Maximum Likelihood (ML) estimation for factor analysis of continuous scores, our use of Muthén's categorical data factor analysis methodology provides asymptotically unbiased, consistent and efficient parameter estimates as well as a correct chi-square test of fit with dichotomous or ordinal observed variables. In all models individuals with partially missing item level data were included, since estimation of missing data patterns is possible under traditional ML and WLSMV.
Model fit was assessed through following different indices: the Comparative Fit Index (CFI), the Tucker Lewis Index (TLI), and the Root Mean Square Error of Approximation (RMSEA). Although no single set of threshold values for these statistics can be relied upon in isolation we favoured models that exceeded 0.95 for TLI and CFI [27–29] and models with an RMSEA approaching 0.05 . To compare non-nested models, which have not a subset of the free parameters of each other and cannot be compared using χ2 difference tests, we report the sample size adjusted Bayesian Information Criteria (ssaBIC) from traditional linear factor analysis models, treating data as continuous.
Item Response Theory (IRT) informed analyses were performed to investigate the severity of symptoms by modelling how the probability of responding to an item varies as a function of the location along the underlying latent distress continuum.
Confirmatory latent structure analysis for the first-order models
Preliminary exploratory factor analysis for ordinal data showed a reasonable model fit for a two-factor and three-factor solution. The single-factor model yielded slightly lower goodness-of-fit indices and a four-factor model resulted in factors which were difficult to interpret. In the subsequent confirmatory factor analyses for categorical data, only the three-factor model and the bifactor model fitted the data well (see Table 2). The single-factor model and the two-factor model did not achieve CFI and TLI values > 0.95.
Model fit improved considerably when correlated errors were included for similarly worded items representing identical items/item overlap in the MFQ and the RCMAS (e.g. "It was hard for me to make up my mind" and "I had trouble making up my mind" r = .67).
The three-factor model consisted of a depressed mood factor (31 items), a worrying factor (20 items), and a somatic/information processing factor (21 items). This third factor included concentration, decision-making, irritability and somatic symptoms such as sleeping difficulties, tiredness, motor retardation and restlessness. Factor loadings of all models are presented in Table 3.
To test for a confounding effect of the different response scales (an instrument "method" effect), we included orthogonal method factors for the MFQ and the RCMAS scales. The goodness-of-fit indices and the factor structure remained similar (χ 2 = 3779.82, df = 1691, CFI = 0.96, TLI = 0.96, RMSEA = 0.03).
Inter-factor correlations were r = .79 for the depressed mood and worrying factor; r = .86 for the depressed mood and somatic/information processing factor; and r = .78 for the worrying and somatic/information processing factor. Some RCMAS items assessing social concerns (e.g. "Others seemed to do things more easily than I could", "I felt that others did not like the way I did things") loaded substantially (> .70) on the latent depressed mood factor, but not on the worrying factor. MFQ items on the worrying factor showed only small to medium loadings (e.g. "I thought bad things would happen to me", "I thought I looked ugly").
The conditional standard errors of measurement shown in Figure 2 indicate that the measurement precision of the factors was highest around and slightly above the mean, i.e. around the population average. This declined rapidly at the lower end of the latent trait (e.g. low depression or anxiety level).
Confirmatory latent structure analysis for the bifactor model
The bifactor model with an underlying distress factor as a general factor explained covariance among depression, anxiety and somatic symptoms . The model yielded specific factors for hopelessness-suicidality, restlessness-fatigue, and generalized worrying. Although most goodness-of-fit indices suggested that the three-factor model and the bifactor model were equivalent, the sample-size adjusted BIC comparisons showed that the bifactor model (ssABIC 102,077) was favoured over the three-factor model (ssABIC 102,753, Δ -676). We caution however that these BIC values are taken from traditional linear factor models.
Table 3 presents the standardized factor loadings and IRT thresholds from the bifactor model. Almost all items had medium to large loadings on the general factor. The loadings on the specific depressed mood factor, which contained 20 items, were highest for items assessing hopelessness and suicidal thoughts (all > .49). The loadings on the specific generalized worrying factor (8 items) were highest for "I worried", "I worried a lot of the time", and "I worried when I went to bed"(loadings > .40) The specific generalized worrying factor only contained three items with factor loadings > .40, which were all similarly worded. The specific restlessness-fatigue factor had the highest loadings for restlessness (loading = .48), disturbed sleep and tiredness (both loadings = .39). The conditional standard error of measurement (see Figure 2) for the composite general distress factor increased the precision of measurement and achieved higher precision beyond the middle of the measurement scale. However the restlessness-fatigue factor and the generalized worrying factor showed a rather low precision across the whole latent trait.
Severity of symptoms along the underlying general distress continuum
Thresholds locate the individual items along the latent distress continuum according to item severity (see Table 3). Higher threshold parameters indicate lower prevalence and higher severity on the latent distress continuum. The first threshold specifies the location on the latent distress dimension where the probability of endorsing sometimes becomes higher than endorsing never. The second threshold specifies the location on the latent distress dimension where the probability of endorsing mostly and always becomes higher than endorsing sometimes.
Items with higher values on the latent distress trait were related to motor retardation, suicidality, and specific night time worries. Problems with concentration and decision-making were generally located at the less severe end of the latent distress trait. A marked difference between the first ('sometimes' vs. 'never') and the second thresholds ('mostly/always' vs. 'sometimes') was found for the items 'I didn't enjoy anything', 'I was very restless' and 'I felt miserable or unhappy'. Thus the 'occasional' occurrence of these symptoms was common amongst adolescents, but persistence was associated with very high severity on the underlying distress dimension.
Gender difference and differential item functioning
The MFQ and RCMAS items did not show a gender bias for most items. Differential item functioning was found for only two items, "I cried a lot" and "I thought I looked ugly". Details are presented in Table 4.
Thus, the underlying structure of these factors was similar in boys and girls and the differences in overall symptom level between males and females were not affected by DIF. Therefore in the three-factor model, the considerably higher means on the depressed mood and the worrying factor and the slightly higher score on the somatic/information processing factor among girls can be attributed to real differences in these factors and not to gender bias. Similarly, DIF did not account for the gender differences in the bifactor model where girls had higher scores on the general distress factor, the hopelessness-suicidal thoughts and the generalized worrying factor, but lower scores in the restlessness-fatigue factor.
This study investigates general and specific features of self-reported depression and anxiety in adolescents. Alternative factor models to characterise the latent structure of depression and anxiety symptoms as IRT-informed dimensional phenotypes using latent trait modelling principles and methods were compared. In our large sample of British 14-year-old adolescents a three-factor model was preferred over one or two factor solutions in initial EFA. The three-factor (first-order) model contained a depressed mood factor, consisting of affective and social-cognitive symptoms of depression, a worrying factor, as well as a somatic/information processing factor including psychomotor disturbance, irritability, and thinking/decision-making difficulties. Under this model these factors can be viewed as distinct yet closely related constructs. Alternatively, a bifactor model representation also fitted the data well. This representation is in line with recent theoretical developments and offers improved insights into specific factors.
The three-factor model reflects the view that depression and anxiety show a clearly distinguishable symptomatology. The distinct somatic/information processing factor implies that symptoms including concentration, irritability, sleeping difficulties, tiredness, and motor disturbances to be at the same hierarchical level with the depressed mood and the worrying factor, rather than being a subordinate construct. This is in line with structural studies of adult self-report depression scales which yield cognitive and somatic factors . In contrast to the tripartite model, the somatic/information processing factor in the three-factor solution in this study of adolescents contains not only arousal symptoms, but also psychomotor retardation, decision making and concentration difficulties.
Although the fit indices of the three-factor model were good, the substantial correlations of the factors suggest an alternative interpretation in terms of a common dimension for depressive, anxious, and somatic symptoms-a general factor influencing all items. Our bifactor model formulation, which is based on the initial Mplus and FACTOR results, supports the hypothesis of a general distress factor for depression and anxiety which accounts for a large proportion of the communality of depression and anxiety items and is consistent with an internalizing factor with depression, generalized anxiety disorder, and social anxiety [32, 3–5]. The bifactor model confirmed reliable variance for two domain specific factors for hopelessness-suicidality and restlessness-fatigue respectively. As expected, given the number and magnitude of item loadings, the general distress factor shows higher measurement precision and allows more precise measurement across a broader range of the population continuum than the specific factors and the three-factor (first order) model.
For these reasons, the bifactor representation proved to be more useful as a model for the structure of depression and anxiety symptoms in adolescents than the three factor model.
Our findings highlight the importance of domain specific factors which provide unique information over and above the general distress factor and reflect the distinctiveness of certain symptomatology and illness signs within depression and anxiety. The most salient features of psychopathology in the domain specific factor are hopelessness and suicidal thoughts, contrary to low positive affect or anhedonia as described by the tripartite model. Importantly, this hopelessness-suicidality factor capturing a distinct feature of depression is associated with a higher severity on the latent distress continuum. In a similar framework applied to adult data, Simms et al.  found that suicidality, panic, appetite loss, and ill temper were associated with higher levels on the underlying distress dimension. Low well-being, generalized anxiety, lassitude, and dysphoria were associated with lower levels of distress. Few studies have attempted general-specific factor separation in adolescents.
The specific restlessness-fatigue factor is analogous to somatic-endogenous constructs used clinically. It does not include items assessing other physiological symptoms such as shortness of breath or sweaty hands and is therefore distinct from the hyperarousal factor of the tripartite model.
The specific factor for generalized worrying contained only three items with factor loadings > .4, which were all similarly worded. Therefore, the relationship among these items could potentially represent a methodological artefact, able to be modelled using correlated errors rather than a specific psychopathological worrying factor. Thus, in a school-based community sample of adolescents, anxious symptoms seem more to be associated with general distress than reflecting a specific psychopathological construct. This view makes the bifactor representation more parsimonious, since it suggests only two specific factors.
A limitation of these results is that only self-report data were included in our cross-sectional analysis of the baseline phase of an ongoing longitudinal study. Longitudinal data are essential to further examine stability in the general and the specific factors over time. External correlates may help to elucidate potential aetiological factors. In addition, the anxiety self-report measure used is relatively weak on ascertaining fear based items and contains relatively few items specific for obsessional and compulsive acts that can be correlated with anxiety. This may account for the lack of validity in the specific worry factor. A further limitation is the relatively low response rate to initial recruitment within schools. This could be due to the ethically approved recruitment strategy which required participants to actively "opt in" rather than "opt out". We were aware that highly dysfunctional families could form a higher proportion of families that did not actively opt in to the study. Finally, factor structures and gender effects might differ according to the degree of psychopathology. This possibility needs to be explored in suitably large clinical samples.
The general distress factor, underlying depression and anxiety items, provides a reliable target for epidemiological analysis. The specific factors for hopelessness-suicidal thoughts and restlessness-fatigue may help to refine valid phenotype dimensions, and assist in prognostic modelling of future psychiatric episodes. Furthermore, the role of aetiological factors such as genotype, early adversities, or intermediate psychoendocrine phenotypes can be investigated independently for the general and specific factors, which may improve our understanding of putative subtypes within common emotional mental illnesses. Implications for future research are to promote building groups with general or specific factors for different domains which may lead to more accurate results than merely distinguishing groups by heterogeneous diagnoses.
Our results support the view that depression and anxiety disorders could be linked together in the DSM-V and ICD-11 in a more general category of emotion disorders . They also support the development of intervention models which target shared aspects of depressive and anxiety disorders but also tailor treatments to address disorder specific features, revealed here by the bifactor model.
Kendler KS, Prescott CA, Myers J, Neale MC: The structure of genetic and environmental risk factors for common psychiatric and substance use disorders in men and women. Arch Gen Psychiatry. 2003, 60: 929-937. 10.1001/archpsyc.60.9.929.
Krueger RF, Caspi A, Moffitt TE, Silva PA: The structure and stability of common mental disorders (DSM-III-R): A longitudinal-epidemiological study. J Abnorm Psychol. 1998, 107: 216-227.
Lahey BB, Applegate B, Waldman ID, Loft JD, Hanki BL, Rick J: The structure of child and adolescent psychopathology: Generating new hypotheses. J Abnorm Psychol. 2004, 113: 358-385.
Slade T, Watson D: The structure of common DSM-IV and ICD-10 mental disorders in the Australian general population. Psychol Med. 2006, 36: 1593-1600. 10.1017/S0033291706008452.
Vollebergh WAM, Iedema J, Bijl RV, de Graaf R, Smit F, Ormel J: The structure and stability of common mental disorders-The NEMESIS Study. Arch Gen Psychiatry. 2001, 58: 597-603. 10.1001/archpsyc.58.6.597.
Clark LA, Watson D: Tripartite model of anxiety and depression-Psychometric evidence and taxonomic implications. J Abnorm Psychol. 1991, 100: 316-336.
Anderson ER, Hope DA: A review of the tripartite model for understanding the link between anxiety and depression in youth. Clin Psychol Rev. 2008, 28: 275-287. 10.1016/j.cpr.2007.05.004.
Mineka S, Watson D, Clark LA: Comorbidity of anxiety and unipolar mood disorders. Annu Rev Psychol. 1998, 49: 377-412. 10.1146/annurev.psych.49.1.377.
Watson D: Rethinking the mood and anxiety disorders: A quantitative hierarchical model for DSM-V. J Abnorm Psychol. 2005, 114: 522-536.
Simms LJ, Groes DF, Watson D, O'Hara MW: Parsing the general and specific components of depression and anxiety with bifactor modeling. Depress Anxiety. 2007, 0: 1-13.
Brown TA: Confirmatory factor analysis for applied research. 2006, New York, Guildford Press
Angold A, Costello EJ, Messer SC, Pickles A, Winder F, Silver D: Development of a short questionnaire for use in epidemiological studies of depression in children and adolescents. Int J Meth Psychiatr Res. 1995, 5: 237-249.
Reynolds CR, Richmond BO: What I think and feel-Revised measure of children's manifest anxiety. J Abnorm Child Psychol. 1978, 6: 271-280. 10.1007/BF00919131.
Chen FF, West SG, Sousa KH: A comparison of bifactor and second-order models of quality of life. Multivariate Behav Res. 2006, 41: 189-225. 10.1207/s15327906mbr4102_5.
Gignac GE: Multifactor modeling in individual differences research: Some recommendations and suggestions. Personality and Individual Differences. 2007, 42: 37-48. 10.1016/j.paid.2006.06.019.
Yung YF, Thissen D, McLeod LD: On the relationship between the higher-order factor model and the hierarchical factor model. Psychometrika. 1999, 64: 113-128. 10.1007/BF02294531.
Reise S, Widaman KF, Pugh RH: Confirmatory factor analysis and Item Response Theory: Two approaches for exploring measurement invariance. Psychol Bull. 1993, 114: 552-566.
Reise S, Moore TM, Haviland MG: Bifactor models and Rotations: Exploring the extent to which mulidimentionality data yield univocal scores. J Person Assess. 2010, 92: 544-559. 10.1080/00223891.2010.496477.
Goodyer IM, Croudace TJ, Dunn V, Herbert J, Jones PB: Cohort profile: Risk patterns and processes for psychopathology emerging during adolescence: the ROOTS project. Int J Epidemiol. 2009, 4: 1-9.
Dunn V, Abbott RA, Croudace TJ, Wilkinson P, Jones PB, Herbert J, Goodyer IM: Profiles of family-focused adverse experiences through childhood and early adolescence: The ROOTS Project, a community investigation of adolescent mental health. BMC Psychiatry. 2011, 11: 109-10.1186/1471-244X-11-109.
Costello EJ, Angold A: Scales to assess child and adolescent depression-checklists, screens, and nets. J Am Acad Child Adolesc Psychiatry. 1988, 27: 726-737. 10.1097/00004583-198811000-00011.
Davis WB, Birmaher B, Melhem NA, Axelson DA, Michaels SM, Brent DA: Criterion validity of the Mood and Feelings Questionnaire for depressive episodes in clinic and non-clinic subjects. J Child Psychol Psychiat. 2006, 47: 927-934. 10.1111/j.1469-7610.2006.01646.x.
Wood Z, Kroll L, Moore A, Harrington R: Properties of the Mood and Feelings Questionnaire in adolescent psychiatric outpatients-A research note. J Child Psychol Psychiat. 1995, 36: 327-334. 10.1111/j.1469-7610.1995.tb01828.x.
Muthén B, Muthén L: Mplus User's guide. 2010, Los Angeles, CA
Lorenzo-Seva U, Ferrando PJ: FACTOR. A computer program to fit the exploratory factor analysis model. Behav Res Meth. 2006, 38: 88-91. 10.3758/BF03192753.
Hoffman L: IFA to IRT Formula Guide. 2009, [http://psych.unl.edu/psycrs/948/7b_IFA_to_IRT_Formulas.pdf]
Bentler PM: On the fit of models to covariances and methodology to the Bulletin. Psychol Bull. 1992, 112: 400-404.
Bentler PM: Comparative fit indexes in structural models. Psychol Bull. 1990, 107: 238-246.
Tucker L, Lewis C: Reliability coefficient for maximum likelihood factor-analysis. Psychometrika. 1973, 38: 1-10. 10.1007/BF02291170.
Steiger JH: Structural model evaluation and modification-an interval estimation approach. Multivariate Behav Res. 1990, 25: 173-180. 10.1207/s15327906mbr2502_4.
Shafer AB: Meta-analysis of the factor structures of four depression questionnaires: Beck, CES-D, Hamilton, and Zung. J Clin Psychol. 2006, 62: 123-146. 10.1002/jclp.20213.
Krueger RF: The structure of common mental disorders. Arch Gen Psychiat. 1999, 56: 921-926. 10.1001/archpsyc.56.10.921.
Goodyer IM: Episodes and disorders of general anxiety and depression. Diagnostic issues in depression and generalized anxiety disorder. Refining the research agenda for DSM-V. Edited by: Goldberg D, Kendler KS, Sirovatka P, Regier DA. 2010, Arlington, VA, American Psychiatric Association, 257-269.
The pre-publication history for this paper can be accessed here:http://0-www.biomedcentral.com.brum.beds.ac.uk/1471-244X/11/191/prepub
This work was carried out within the Collaboration for Leadership in Applied Health Research and Care (CLAHRC) hosted by the Cambridge and Peterborough Foundation Trust and the University of Cambridge. JB was supported by a research fellowship from the Swiss National Science Foundation. TJC was supported in part by a Career Scientist Award in Public Health from the UK Department of Health/National Institute of Health Research.
We would like to thank Valerie Dunn for coordinating the ROOTS study, funded by the Wellcome Trust Programme grant (no. 074296) to IG and TJC.
The authors declare that they have no competing interests.
JB performed the statistical analysis and drafted the manuscript. RAA contributed to the statistical analysis and the manuscript. IMG conceived and designed the study and contributed at all stages of both the study and manuscript. TJC participated in the design of the study, oversaw the analytical strategy, and contributed to the manuscript. All authors read and approved the final manuscript.
About this article
Cite this article
Brodbeck, J., Abbott, R.A., Goodyer, I.M. et al. General and specific components of depression and anxiety in an adolescent population. BMC Psychiatry 11, 191 (2011) doi:10.1186/1471-244X-11-191
- Differential Item Functioning
- Item Response Theory
- Bifactor Model
- Tripartite Model
- Uniform Differential Item Functioning