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Patterns of association of chronic medical conditions and major depression

Published online by Cambridge University Press:  27 October 2016

S. B. Patten ,
J. V. A. Williams ,
D. H. Lavorato ,
J. L. Wang ,
N. Jetté ,
T. T. Sajobi ,
K. M. Fiest  and
A. G. M. Bulloch
S. B. Patten*
Affiliation:
Department of Community Health Sciences and Department of Psychiatry, Mathison Centre for Mental Health Research & Education, Hotchkiss Brain Institute, University of Calgary, Calgary, AB, T2N 4Z6, Canada
J. V. A. Williams
Affiliation:
Department of Community Health Sciences, University of Calgary, Calgary, AB, T2N 4Z6, Canada
D. H. Lavorato
Affiliation:
Department of Community Health Sciences, University of Calgary, Calgary, AB, T2N 4Z6, Canada
J. L. Wang
Affiliation:
Department of Psychiatry and Department of Community Health Sciences, University of Calgary, Mathison Centre for Research & Education in Mental Health, Hotchkiss Brain Institute, University of Calgary, Calgary, AB, T2N 4Z6, Canada
N. Jetté
Affiliation:
Department of Clinical Neurosciences and Department of Community Health Sciences, Hotchkiss Brain Institute and O'Brien Institute for Public Health, University of Calgary, Calgary, AB, T2N 4Z6, Canada
T. T. Sajobi
Affiliation:
Department of Clinical Neurosciences and Department of Community Health Sciences, Hotchkiss Brain Institute and O'Brien Institute for Public Health, University of Calgary, Calgary, AB, T2N 4Z6, Canada
K. M. Fiest
Affiliation:
Critical Care Medicine, University of Calgary, Calgary, AB, T2N 1N4, Canada
A. G. M. Bulloch
Affiliation:
Department of Psychiatry and Department of Community Health Sciences, University of Calgary, Mathison Centre for Research & Education in Mental Health, Hotchkiss Brain Institute, University of Calgary, Calgary, AB, T2N 4Z6, Canada
*
*Address for correspondence: S. B. Patten, Department of Community Health Sciences and Department of Psychiatry, Mathison Centre for Mental Health Research & Education, Hotchkiss Brain Institute, University of Calgary, Calgary, AB, T2N 4Z6, Canada. (Email: patten@ucalgary.ca)
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Abstract

Aims.

Age and sex-related patterns of association between medical conditions and major depressive episodes (MDE) are important for understanding disease burden, anticipating clinical needs and for formulating etiological hypotheses. General population estimates are especially valuable because they are not distorted by help-seeking behaviours. However, even large population surveys often deliver inadequate precision to adequately describe such patterns. In this study, data from a set of national surveys were pooled to increase precision, supporting more precise characterisation of these associations.

Methods.

The data were from a series of Canadian national surveys. These surveys used comparable sampling strategies and assessment methods for MDE. Chronic medical conditions were assessed using items asking about professionally diagnosed medical conditions. Individual-level meta-analysis methods were used to generate unadjusted, stratified and adjusted prevalence odds ratios for 11 chronic medical conditions. Random effects models were used in the meta-analysis. A procedure incorporating rescaled replicate bootstrap weights was used to produce 95% confidence intervals.

Results.

Overall, conditions characterised by pain and inflammation tended to show stronger associations with MDE. The meta-analysis uncovered two previously undescribed patterns of association. Effect modification by age was observed in varying degrees for most conditions. This effect was most prominent for high blood pressure and cancer. Stronger associations were found in younger age categories. Migraine was an exception: the strength of association increased with age, especially in men. Second, especially for conditions predominantly affecting older age groups (arthritis, diabetes, back pain, cataracts, effects of stroke and heart disease) confounding by age was evident. For each condition, age adjustment resulted in strengthening of the associations. In addition to migraine, two conditions displayed distinctive patterns of association. Age adjusted odds ratios for thyroid disease reflected a weak association that was only significant in women. In epilepsy, a similar strength of association was found irrespective of age or sex.

Conclusions.

The prevalence of MDE is elevated in association with most chronic conditions, but especially those characterised by inflammation and pain. Effect modification by age may reflect greater challenges or difficulties encountered by young people attempting to cope with these conditions. This pattern, however, does not apply to migraine or epilepsy. Neurobiological changes associated with these conditions may offset coping-related effects, such that the association does not weaken with age. Prominent confounding by age for several conditions suggests that age adjustments are necessary in order to avoid underestimating the strength of these associations.

Keywords

Depressionepidemiologymood disorderspopulation surveyrisk factorsunipolar
Type
Original Articles
Information
Epidemiology and Psychiatric Sciences , Volume 27 , Issue 1 , February 2018 , pp. 42 - 50
Copyright
Copyright © Cambridge University Press 2016 

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References

Aldwin, CM, Sutton, KJ, Chiara, G, Piro, A (1996). Age differences in stress, coping, and appraisal: findings from the normative aging study. Journal of Gerontology 51B, 179188.Google Scholar
Almeida, OP, Alfonso, H, Flicker, L, Hankey, G, Chubb, SA, Yeap, BB (2011). Thyroid hormones and depression: the Health in Men study. American Journal of Geriatric Psychiatry 19, 763770.Google Scholar
Antonaci, F, Nappi, G, Galli, F, Manzoni, GC, Calabresi, P, Costa, A (2011). Migraine and psychiatric comorbidity: a review of clinical findings. Journal of Headache and Pain 12, 115125.Google Scholar
Assari, S (2016). Race and ethnic differences in additive and multiplicative effects of depression and anxiety on cardiovascular risk. International Journal of Preventive Medicine 7, 22.Google Scholar
Assari, S, Lankarani, MM (2015). The association between obesity and weight loss intention weaker among blacks and men than whites and women. Journal of Racial and Ethnic Health Disparities 2, 414420.Google Scholar
Bair, MJ, Robinson, RL, Katon, W, Kroenke, K (2003). Depression and pain comorbidity. A literature revew. Archives of Internal Medicine 163, 24332445.Google Scholar
Beland, Y (2002). Canadian community health survey-methodological overview. Health Reports 13, 914.Google Scholar
Breslau, N, Schultz, LR, Stewart, WF, Lipton, RB, Lucia, VC, Welch, KM (2000). Headache and major depression: is the association specific to migraine? Neurology 54, 308313.Google Scholar
De Jongh, RT, Lips, P, Van Schoor, NM, Rijs, KJ, Deeg, DJ, Comijs, HC, Kramer, MH, Vandenbroucke, JP, Dekkers, OM (2011). Endogenous subclinical thyroid disorders, physical and cognitive function, depression, and mortality in older individuals. European Journal of Endocrinology 165, 545554.Google Scholar
Engum, A, Bjoro, T, Mykletun, A, Dahl, AA (2002). An association between depression, anxiety and thyroid function – a clinical fact or an artifact? Acta Psychiatria Scandinavica 106, 2734.CrossRefGoogle ScholarPubMed
Engum, A, Bjoro, T, Mykletun, A, Dahl, AA (2005). Thyroid autoimmunity, depression and anxiety; are there any connections? An epidemiological study of a large population. Journal of Psychosomatic Research 59, 263268.Google Scholar
Eramudugolla, R, Wood, J, Anstey, KJ (2013). Co-morbidity of depression and anxiety in common age-related eye diseases: a population-based study of 662 adults. Frontiers in Aging Neuroscience 5, 56.Google Scholar
Fiest, KM, Dykeman, J, Patten, SB, Wiebe, S, Kaplan, GG, Maxwell, CJ, Bulloch, AG, Jette, N (2013). Depression in epilepsy: a systematic review and meta-analysis. Neurology 80, 590599.Google Scholar
Foster, JR (1997). Successful coping, adaptation and resilience in the elderly: an interpretation of epidemiologic data. Psychiatric Quarterly 68, 189219.Google Scholar
Freeman, EE, Gresset, J, Djafari, F, Aubin, MJ, Couture, S, Bruen, R, Laporte, A, Boisjoly, H (2009). Cataract-related vision loss and depression in a cohort of patients awaiting cataract surgery. Canadian Journal of Ophthalmology 44, 171176.Google Scholar
Gagnon, LM, Patten, SB (2002). Major depression and its association with long-term medical conditions. Canadian Journal of Psychiatry 47, 167173.Google Scholar
Gaus, V, Kiep, H, Holtkamp, M, Burkert, S, Kendel, F (2015). Gender differences in depression, but not in anxiety in people with epilepsy. Seizure 32, 3742.Google Scholar
Gravel, R, Béland, Y (2005). The Canadian community health survey: mental health and wellbeing. Canadian Journal of Psychiatry 50, 573579.Google Scholar
Gussekloo, J, Van Exel, E, De Craen, AJ, Meinders, AE, Frolich, M, Westendorp, RG (2004). Thyroid status, disability and cognitive function, and survival in old age. JAMA 292, 25912599.Google Scholar
Hackett, ML, Anderson, CS (2005). Predictors of depression after stroke: a systematic review of observational studies. Stroke 36, 22962301.Google Scholar
Hare, DL, Toukhsati, SR, Johansson, P, Jaarsma, T (2014). Depression and cardiovascular disease: a clinical review. European Heart Journal 35, 13651372.CrossRefGoogle ScholarPubMed
Haro, JM, Arbabzadeh-Bouchez, S, Brugha, TS, De Girolamo, G, Guyer, ME, Jin, R, Lepine, JP, Mazzi, F, Reneses, B, Vilagut, G, Sampson, NA, Kessler, RC (2006). Concordance of the Composite International Diagnostic Interview Version 3.0 (CIDI 3.0) with standardized clinical assessments in the WHO World Mental Health surveys. International Journal of Methods in Psychiatric Research 15, 167180.CrossRefGoogle ScholarPubMed
Interagency Advisory Panel on Research Ethics (2014). TCPS 2—2nd edition of Tri-Council Policy Statement: Ethical Conduct for Research Involving Humans [Online]. Ottawa: Panel on Research Ethics. Retrieved 24 April 2015 2014 from http://www.pre.ethics.gc.ca/eng/policy-politique/initiatives/tcps2-eptc2/Default/.Google Scholar
Jokela, M, Virtanen, M, Batty, DG, Kivimäki, M (2016). Inflammation and specific symptoms of depression. JAMA Psychiatry 73, 8788.Google Scholar
Julious, SA, Mullee, MA (1994). Confounding and Simpson's paradox. BMJ 309, 14801481.Google Scholar
Kessler, RC, Andrews, G, Mroczek, D, Ustun, B, Wittchen, HU (1998). The World Health Organization Composite International Diagnostic Interview Short-Form (CIDI-SF). International Journal of Methods in Psychiatric Research 7, 171185.CrossRefGoogle Scholar
Kessler, RC & Ustun, TB (2004). The World Mental Health (WMH) Survey Initiative Version of the World Health Organization (WHO) Composite International Diagnostic Interview (CIDI). International Journal of Methods in Psychiatric Research 13, 83121.Google ScholarPubMed
Lacey, CJ, Salzberg, MR, D'souza, WJ (2015). Risk factors for depression in community-treated epilepsy: systematic review. Epilepsy and Behavior 43, 17.Google Scholar
MacKinnon, DP, Krull, JL, Lockwood, CM (2000). Equivalence of the mediation, confounding and suppression effect. Prevention Science 1, 173.CrossRefGoogle ScholarPubMed
Matcham, F, Rayner, L, Steer, S, Hotopf, M (2013). The prevalence of depression in rheumatoid arthritis: a systematic review and meta-analysis. Rheumatology (Oxford) 52, 21362148.Google Scholar
Miller, AH, Raison, CL (2016). The role of inflammation in depression: from evolutionary imperative to modern treatment target. Nature Reviews, Immunology 16, 2234.CrossRefGoogle Scholar
Moldin, SO, Scheftner, WA, Rice, JP, Nelson, E, Knesevich, MA, Akiskal, H (1993). Association between major depressive disorder and physical illness. Psychological Medicine 23, 755761.Google Scholar
Patten, SB (1999). Long-term medical conditions and major depression in the Canadian population. Canadian Journal of Psychiatry 44, 151157.Google Scholar
Patten, SB, Brandon-Christie, J, Devji, J, Sedmak, B (2000). Performance of the Composite International Diagnostic Interview Short Form for major depression in a community sample. Chronic Diseases in Canada 21, 6872.Google Scholar
Patten, SB, Beck, CA, Kassam, A, Williams, JVA, Barbui, C, Metz, LM (2005). Long-term medical conditions and major depression: strength of association for specific conditions in the general population. Canadian Journal of Psychiatry 50, 195202.Google Scholar
Patten, SB, Williams, JV, Esposito, E, Beck, CA (2006). Self-reported thyroid disease and mental disorder prevalence in the general population. General Hospital Psychiatry 28, 503508.Google Scholar
Patten, SB, Williams, JVA, Lavorato, D, Wang, JL, Mcdonald, K, Bulloch, A (2014). Descriptive epidemiology of major depression in Canada in 2012. Canadian Journal of Psychiatry 60, 2330.Google Scholar
Pavlovic, JM, Stewart, WF, Bruce, CA, Gorman, JA, Sun, H, Buse, DC, Lipton, RB (2015). Burden of migraine related to menses: results from the AMPP study. Journal of Headache and Pain 16, 24.Google Scholar
Pearson, C, Janz, T, Ali, J (2014) Mental and substance use disorders in Canada [Online]. Ottawa. Retrieved 6 September 2014 from http://www.statcan.gc.ca/pub/82-624-x/2013001/article/11855-eng.htm.Google Scholar
Pincus, T, Burton, AK, Vogel, S, Field, AP (2002). A systematic review of psychological factors as predictors of chronicity/disability in prospective cohorts of low back pain. Spine 27, E109E120.CrossRefGoogle ScholarPubMed
Pirl, WF, Greer, J, Temel, JS, Yeap, BY, Gilman, SE (2009). Major depressive disorder in long-term cancer survivors: analysis of the National Comorbidity Survey Replication. Journal of Clinical Oncology 27, 41304134.Google Scholar
Pop, VJ, Maartens, LH, Leusink, G, Van Son, MJ, Knottnerus, AA, Ward, AM, Metcalfe, R, Weetman, AP (1998). Are autoimmune thyroid dysfunction and depression related? Journal of Clinical Endocrinology and Metabolism 83, 31943197.Google Scholar
Radat, F, Swendsen, J (2005). Psychiatric comorbidity in migraine: a review. Cephalalgia 25, 165178.Google Scholar
Rao, SR, Graubard, BI, Schmid, CH, Morton, SC, Louis, TA, Zaslavsky, AM, Finkelstein, DM (2008). Meta-analysis of survey data: application to health services research. Health Services Outcomes Research Methods 8, 98114.Google Scholar
Renn, BN, Feliciano, L, Segal, DL (2011). The bidirectional relationship of depression and diabetes: a systematic review. Clinical Psychology Review 31, 12391246.Google Scholar
Roberts, LM, Pattison, H, Roalfe, A, Franklyn, J, Wilson, S, Hobbs, FD, Parle, JV (2006). Is subclinical thyroid dysfunction in the elderly associated with depression or cognitive dysfunction? Annals of Internal Medicine 145, 573581.Google Scholar
Roy, T, Lloyd, CE (2012). Epidemiology of depression and diabetes: a systematic review. Journal of Affective Disorder 142 Suppl, S8–21.CrossRefGoogle ScholarPubMed
Saltevo, J, Kautiainen, H, Mantyselka, P, Jula, A, Keinanen-Kiukaanniemi, S, Korpi-Hyovalti, E, Oksa, H, Saaristo, T, Vanhala, M (2015). The relationship between thyroid function and depressive symptoms-the FIN-D2D population-based study. Clinical Medicine Insights: Endocrinology and Diabetes 8, 2933.Google Scholar
Scott, KM, Bruffaerts, R, Tsang, A, Ormel, J, Alonso, J, Angermeyer, MC, Benjet, C, Bromet, E, De Girolamo, G, De Graaf, R, Gasquet, I, Gureje, O, Haro, JM, Kessler, RC, Levinson, D, Mneimheh, ZN, Oakley Brown, MA, Posada-Villa, J, Stein, DJ, Takeshima, T, Von Korff, M (2007). Depression-anxiety relationships with chronic physical conditions: results from the World Mental Health surveys. Journal of Affective Disorders 103, 113120.Google Scholar
Stata Corporation (2015). Stata (version 14). College Station, TX: Stata Corporation.Google Scholar
Statistics Canada (2012). National Population Health Survey – Household Component – Longitudinal (NPHS). Statistics Canada [Online]. Retrieved 14 August 2013 from http://www23.statcan.gc.ca/imdb/p2SV.pl?Function=getSurvey&SDDS=3225&Item_Id=1213.Google Scholar
Simmonds, MJ, Kumar, S, Lechelt, E (1996). Psychological factors in disabling low back pain: causes or consequences? Disability and Rehabilitation 18, 161168.Google Scholar
Stewart, JC, Rand, KL, Muldoon, MF, Kamarck, TW (2009). A prospective evaluation of the directionality of the depression-inflammation relationship. Brain, Behavior, and Immunity 23, 936944.Google Scholar
Taylor, WD, Aizenstein, HJ, Alexopoulos, GS (2013). The vascular depression hypothesis: mechanisms linking vascular disease with depression. Molecular Psychiatry 18, 963974.Google Scholar
Thomas, D, Radji, S, Benedetti, A (2014). Systematic review of methods for individual patient data meta-analysis with binary outcomes. BMC Medical Research Methodology 14, 79.Google Scholar
Walker, L, Sills, GJ (2012). Inflammation and epilepsy: the foundations for a new therapeutic approach in epilepsy? Epilepsy Currents 12, 812.Google Scholar
Walker, J, Holm Hansen, C, Martin, P, Sawhney, A, Thekkumpurath, P, Beale, C, Symeonides, S, Wall, L, Murray, G, Sharpe, M (2013). Prevalence of depression in adults with cancer: a systematic review. Annals of Oncology 24, 895900.Google Scholar
Wells, KB, Goldin, JM, Burnam, MA (1988). Psychiatric disorder in a sample of the general population with and without chronic medical conditions. American Journal of Psychiatry 145, 976981.Google Scholar
Wu, EL, Chien, IC, Lin, CH, Chou, YJ, Chou, P (2012). Increased risk of hypertension in patients with major depressive disorder: a population-based study. Journal of Psychosomatic Research 73, 169174.Google Scholar