Psychiatric epidemiology

Psychiatric epidemiology is a field which studies the causes (etiology) of mental disorders in society, as well as conceptualization and prevalence of mental illness. It is a subfield of the more general epidemiology. It has roots in sociological studies of the early 20th century. However, while sociological exposures are still widely studied in psychiatric epidemiology, the field has since expanded to the study of a wide area of environmental risk factors, such as major life events, as well as genetic exposures. Increasingly neuroscientific techniques like MRI are used to explore the mechanisms behind how exposures to risk factors may impact psychological problems and explore the neuroanatomical substrate underlying psychiatric disorders.[1]: 6 

Reviews on psychiatric epidemiology as a main subject were published by Tohen et al. in 2006,[2] Kessler in 2007,[3] and Juul & Nemeroff in 2012.[4]

History

Sociological studies of the early 20th century can be regarded as predecessors of today's psychiatric epidemiology.[1]: 6  These studies investigated for instance how suicide rates differ between Protestant and Catholic countries or how the risk of having schizophrenia is increased in neighborhood characterized with high levels of social isolation. After World War 2 researchers began using community surveys to assess psychological problems.[1]: 7  By the 1980s, the development of new diagnostic assessment instruments and reliable criteria for mental disorders given by the DSM-3 began a trend to estimating the prevalence of mental disorders next to symptoms.

As an example, in an attempt to measure the prevalence of mental illness in the United States, Lee Robins and Darrel A. Regier conducted a study called the Epidemiological Catchment Area Project which surveyed samples of the general population at five sites across America. In the study, it was found that about a third of all Americans experience mental illness at some point in their lives. This statistic is often referred to as lifetime prevalence.

Today, epidemiological studies focus on the etiology of mental disorders, i.e. the identification and quantification of causes underlying psychiatric problems and their mechanisms, rather than mere estimation of prevalence.[1]: 11  It is not ethically possible to experimentally expose study participants to stressors suspected to cause psychiatric disorders, thus epidemiological techniques are required to study the etiology. For this purpose longitudinal studies, which follow children and adults for a long period of time, often for many years, are particularly useful. These allow the study of naturally occurring exposures and how they affect changes in psychiatric symptoms. Two notable historical studies focusing on etiology are the Dunedin Multidisciplinary Health and Development Study and the Christchurch Health and Development Study.[5] These studies began in the 70's and studied the impact of perinatal problems, genetic variants, sexual abuse and other adverse exposures on psychological problems in childhood and later in adulthood.

Assessment of disorders

Many different instruments are used to assess mental disorders in epidemiological studies depending on the age of the participants, available recourses and other considerations. Studies featuring adolescents and adults often use structured interviewing, a technique in which a series of questions is administered by interviewers to determine whether an individual is disordered or nondisordered. Alternatively, questionnaire are used, which can be administered more easily. In epidemiological studies featuring children, psychopathology is often assessed using parent report, however, multi-informant approaches, e.g. the simultaneous use of parent, teachers and self-report, is popular as well.[5]

Exposures studied

Genetic

Psychiatric disorders show substantial heritability according to twin studies. A meta-analysis of most twin-studies conducted found a combined heritability of 46% for psychiatric disorders.[6] Given the large contribution of genetic variants on psychiatric disorders, one major focus of psychiatric epidemiology is psychiatric genetics. A combination of family and molecular studies are used within psychiatric epidemiology to uncover the effects of genetics on mental health. Twin studies estimate the influences of all genetic variants and effects, but, due to relying purely on relatedness information, are limited in explaining the specific genetic mechanisms and architecture underlying psychiatric traits. Molecular studies confirm findings from family studies that genetic variants can partly explain the occurrence of psychological problems, e.g. by quantifying the total contribution of common genetic variants.[7][8] Furthermore, an increasing number of specific genetic loci are being associated with psychiatric disorders in large genome-wide association studies[9][10]

Environmental

Next to genetic exposures, a wide variety of environmental exposures are being studied as well, such as nutrition,[11] urbanicity,[12] stressful life events,[13] and bullying.[14] In contrast to genetic studies, the investigation of environmental exposures of psychiatric problems face the question of bidirectional causality. For example, both directions of causation are possible: experiencing social stress might cause depression, or being depressed might worsen relationships with others and thus cause social stress (or it may even be the case that both interact, possibly as a self-reinforcing feedback loop). Finding an association between the occurrence of an environmental exposure and a disorder could be the result of either or both situations. Multiple strategies exist in psychiatric epidemiology to assess the direction of causality. One possibility is measuring the exposure and outcome multiple times. Researchers can then analyze how much a change in psychiatric symptoms can be attributed to the exposure at a previous time point, but also whether changes in the exposure can be predicted by previous symptom levels (cross-lagged model). Such a model was e.g. applied to the study of internalizing and externalizing psychological problems and stressful life events.[15] Both, psychiatric problems as well as life events, were measured multiple times during grade 7,8,9,10 and 12. The researchers observed that stressful life events precede both internalizing and externalizing psychological problems, but appear to be also the result of experiencing such symptoms. An alternative approach is the use of twin studies, because discordance between monozygotic twins suggests environmental effects.[6]

Prenatal

Brain development is a complex process that starts during the early stage of embryogenesis and continues into adulthood.[16] Studies focusing on risk factors of exposure on early brain development have found differences in brain anatomy in children of mothers that consumed marijuana compared to unexposed control subjects, emphasizing the importance of intrauterine risk factors in early brain development.[17] Premature birth is also associated with an increased risk of childhood depression[18] and psychiatric hospitalization in young adulthood.[19]

Population-based imaging studies

Population-based imaging studies attempt to find neurobiological substrates to explain psychiatric symptomatology. These studies have mainly used magnetic resonance imaging (MRI) sequences to study the brain at a population scale: MRI sequences can be used to noninvasively study structural (e.g. volumetric) brain differences between individuals. Other examples of MRI sequences are functional MRI (fMRI), studying activational patterns of the brain and diffusion tensor imaging (DTI), measuring the development and integrity of white matter tacts.[20] These techniques have been used at various developmental stages, examples for each stage are discussed below.

Pediatric population

Imaging studies in children showed a significant association between autistic traits and gyrification patterns (winding patterns) of the brain on structural magnetic resonance imaging (MRI).[21] DTI studies, focusing on white matter development, showed that cognitive ability in children is positively associated with white matter integrity, as expressed by fractional anisotropy (FA).[22]

Elderly population

Population-based studies in a large elderly population found a significant association between vascular white matter disease and depressive symptoms.[23]

See also

References

  1. ^ a b c d Susser E, Schwartz S, Morabia A, Bromet EJ. Psychiatric Epidemiology: Searching for the Causes of Mental Disorders. New York: Oxford University Press, 2006.
  2. ^ Tohen, M.; Bromet, E.; Murphy, J. M.; Tsuang, M. T. (2000). "Psychiatric epidemiology". Harvard Review of Psychiatry. 8 (3): 111–125. doi:10.1080/hrp_8.3.111. ISSN 1067-3229. PMID 10973936. S2CID 220570284.
  3. ^ Kessler, Ronald C. (2007). "Psychiatric epidemiology: challenges and opportunities". International Review of Psychiatry. 19 (5): 509–521. doi:10.1080/09540260701564914. ISSN 0954-0261. PMC 2140947. PMID 17896231.
  4. ^ Juul, Sarah H.; Nemeroff, Charles B. (2012). "Psychiatric epidemiology". Neurobiology of Psychiatric Disorders. Handbook of Clinical Neurology. Vol. 106. pp. 167–189. doi:10.1016/B978-0-444-52002-9.00010-3. ISBN 9780444520029. ISSN 0072-9752. PMID 22608621.
  5. ^ a b Verhulst, Frank C.; Tiemeier, Henning (June 2015). "Epidemiology of child psychopathology: major milestones". European Child & Adolescent Psychiatry. 24 (6): 607–617. doi:10.1007/s00787-015-0681-9. PMC 4452764. PMID 25701924.
  6. ^ a b Polderman, TJC; Benyamin, B; de Leeuw, CA; Sullivan, PF; van Bochoven, A; Visscher, PM; Posthuma, D (July 2015). "Meta-Analysis of the Heritability of Human Traits based on Fifty Years of Twin Studies" (PDF). Nature Genetics. 47 (7): 702–709. doi:10.1038/ng.3285. PMID 25985137. S2CID 205349969.
  7. ^ Pappa, I; Fedko, IO; Mileva-Seitz, VR; Hottenga, JJ; Bakermans-Kranenburg, MJ; Bartels, M; van Beijsterveldt, CE; Jaddoe, VW; Middeldorp, CM; Rippe, RC; Rivadeneira, F; Tiemeier, H; Verhulst, FC; van IJzendoorn, MH; Boomsma, DI (September 2015). "Single nucleotide polymorphism heritability of behavior problems in childhood: genome-wide complex trait analysis". Journal of the American Academy of Child & Adolescent Psychiatry. 54 (9): 737–744. doi:10.1016/j.jaac.2015.06.004. PMID 26299295.
  8. ^ Cross-Disorder Group of the Psychiatric Genomics Consortium (September 2013). "Genetic relationship between five psychiatric disorders estimated from genome-wide SNPs". Nature Genetics. 45 (9): 984–994. doi:10.1038/ng.2711. PMC 3800159. PMID 23933821.
  9. ^ Schizophrenia Working Group of the Psychiatric Genomics Consortium (24 July 2014). "Biological insights from 108 schizophrenia-associated genetic loci". Nature. 511 (7510): 421–427. Bibcode:2014Natur.511..421S. doi:10.1038/nature13595. PMC 4112379. PMID 25056061.
  10. ^ CONVERGE consortium (30 July 2015). "Sparse whole-genome sequencing identifies two loci for major depressive disorder". Nature. 523 (7562): 588–591. Bibcode:2015Natur.523..588C. doi:10.1038/nature14659. PMC 4522619. PMID 26176920.
  11. ^ Firth, Joseph; Veronese, Nicola; Cotter, Jack; Shivappa, Nitin; Hebert, James R.; Ee, Carolyn; Smith, Lee; Stubbs, Brendon; Jackson, Sarah E.; Sarris, Jerome (2019). "What Is the Role of Dietary Inflammation in Severe Mental Illness? A Review of Observational and Experimental Findings". Frontiers in Psychiatry. 10: 350. doi:10.3389/fpsyt.2019.00350. ISSN 1664-0640. PMC 6529779. PMID 31156486.
  12. ^ Van Os J (2004). "Does the urban environment cause psychosis?". British Journal of Psychiatry. 184 (4): 287–288. doi:10.1192/bjp.184.4.287. PMID 15056569.
  13. ^ Riese; et al. (2013). "Timing of Stressful Life Events Affects Stability and Change of Neuroticism". European Journal of Personality. 28 (2): 193–200. doi:10.1002/per.1929. S2CID 142517975.
  14. ^ Moore, Sophie E; Norman, Rosana E; Suetani, Shuichi; Thomas, Hannah J; Sly, Peter D; Scott, James G (22 March 2017). "Consequences of bullying victimization in childhood and adolescence: A systematic review and meta-analysis". World Journal of Psychiatry. 7 (1): 60–76. doi:10.5498/wjp.v7.i1.60. ISSN 2220-3206. PMC 5371173. PMID 28401049.
  15. ^ Kim, KJ; Conger, RD; Elder, GH Jr; Lorenz, FO (February 2003). "Reciprocal influences between stressful life events and adolescent internalizing and externalizing problems". Child Development. 74 (1): 127–143. doi:10.1111/1467-8624.00525. PMID 12625440.
  16. ^ Giedd, JN; Blumenthal, J; Jeffries, NO; Castellanos, FX; Liu, H; Zijdenbos, A; Paus, T; Evans, AC; Rapoport, JL (October 1999). "Brain development during childhood and adolescence: a longitudinal MRI study". Nature Neuroscience. 2 (10): 861–863. doi:10.1038/13158. PMID 10491603. S2CID 204989935.
  17. ^ El Marroun, H; Tiemeier, H; Franken, IH; Jaddoe, VW; van der Lugt, A; Verhulst, FC; Lahey, BB; White, T (September 2015). "Prenatal Cannabis and Tobacco Exposure in Relation to Brain Morphology: A Prospective Neuroimaging Study". Biological Psychiatry. 79 (12): 971–9. doi:10.1016/j.biopsych.2015.08.024. PMID 26422004. S2CID 2894567.
  18. ^ Upadhyaya, Subina; Sourander, Andre; Luntamo, Terhi; Matinolli, Hanna-Maria; Chudal, Roshan; Hinkka-Yli-Salomäki, Susanna; Filatova, Svetlana; Cheslack-Postava, Keely; Sucksdorff, Minna; Gissler, Mika; Brown, Alan S.; Lehtonen, Liisa (September 2021). "Preterm Birth Is Associated With Depression From Childhood to Early Adulthood". Journal of the American Academy of Child & Adolescent Psychiatry. 60 (9): 1127–1136. doi:10.1016/j.jaac.2020.09.020. PMID 33068750.
  19. ^ Nosarti, Chiara; Reichenberg, Abraham; Murray, Robin M.; Cnattingius, Sven; Lambe, Mats P.; Yin, Li; MacCabe, James; Rifkin, Larry; Hultman, Christina M. (1 June 2012). "Preterm Birth and Psychiatric Disorders in Young Adult Life". Archives of General Psychiatry. 69 (6): E1-8. doi:10.1001/archgenpsychiatry.2011.1374. PMID 22660967. S2CID 20271750. Retrieved 23 September 2022.
  20. ^ Asato, MR; Terwilliger, R; Woo, J; Luna, B (September 2010). "White Matter Development in Adolescence: a DTI Study". Cerebral Cortex. 20 (9): 2122–2131. doi:10.1093/cercor/bhp282. PMC 2923214. PMID 20051363.
  21. ^ Blanken, LM; Mous, SE; Ghassabian, A; Muetzel, RL; Schoemaker, NK; El Marroun, H; van der Lugt, A; Jaddoe, VW; Hofman, A; Verhulst, FC; Tiemeier, H; White, T (May 2015). "Cortical morphology in 6- to 10-year old children with autistic traits: a population-based neuroimaging study". American Journal of Psychiatry. 172 (5): 479–486. doi:10.1176/appi.ajp.2014.14040482. PMID 25585034.
  22. ^ Muetzel, RL; Mous, SE; van der Ende, J; Blanken, LM; van der Lugt, A; Jaddoe, VW; Verhulst, FC; Tiemeier, H; White, T (1 October 2015). "White matter integrity and cognitive performance in school-age children: A population-based neuroimaging study". NeuroImage. 119: 119–128. doi:10.1016/j.neuroimage.2015.06.014. PMID 26067345. S2CID 5380421.
  23. ^ Ikram, MA; Luijendijk, HJ; Vernooij, MW; Hofman, A; Niessen, WJ; van der Lugt, A; Tiemeier, HW; Breteler, MB (January 2010). "Vascular Brain Disease and Depression in the Elderly". Epidemiology. 21 (1): 78–81. doi:10.1097/EDE.0b013e3181c1fa0d. PMID 20010211. S2CID 205587948.

Further reading