Hostname: page-component-cd9895bd7-8ctnn Total loading time: 0 Render date: 2024-12-18T11:23:14.818Z Has data issue: false hasContentIssue false
  • English
  • Français

Childhood trauma- and cannabis-associated microstructural white matter changes in patients with psychotic disorder: a longitudinal family-based diffusion imaging study

Published online by Cambridge University Press:  29 May 2018

Patrick Domen Open the ORCID record for Patrick Domen [Opens in a new window] ,
Stijn Michielse ,
Sanne Peeters ,
Wolfgang Viechtbauer ,
Jim van Os ,
Machteld Marcelis  and
for Genetic Risk and Outcome of Psychosis (G.R.O.U.P.)
Patrick Domen*
Affiliation:
Department of Psychiatry and Neuropsychology, School for Mental Health and Neuroscience, Maastricht University, Maastricht, The Netherlands
Stijn Michielse
Affiliation:
Department of Psychiatry and Neuropsychology, School for Mental Health and Neuroscience, Maastricht University, Maastricht, The Netherlands
Sanne Peeters
Affiliation:
Department of Psychiatry and Neuropsychology, School for Mental Health and Neuroscience, Maastricht University, Maastricht, The Netherlands Faculty of Psychology and Educational Sciences, Open University of the Netherlands, Heerlen, The Netherlands
Wolfgang Viechtbauer
Affiliation:
Department of Psychiatry and Neuropsychology, School for Mental Health and Neuroscience, Maastricht University, Maastricht, The Netherlands
Jim van Os
Affiliation:
Department of Psychiatry and Neuropsychology, School for Mental Health and Neuroscience, Maastricht University, Maastricht, The Netherlands Department of Psychosis Studies, Institute of Psychiatry, King's College London, King's Health Partners, London, UK Brain Centre Rudolf Magnus, Utrecht University Medical Centre, Utrecht, The Netherlands
Machteld Marcelis
Affiliation:
Department of Psychiatry and Neuropsychology, School for Mental Health and Neuroscience, Maastricht University, Maastricht, The Netherlands Institute for Mental Health Care Eindhoven (GGzE), Eindhoven, The Netherlands
for Genetic Risk and Outcome of Psychosis (G.R.O.U.P.)
Affiliation:
Department of Psychiatry and Neuropsychology, School for Mental Health and Neuroscience, Maastricht University, Maastricht, The Netherlands Faculty of Psychology and Educational Sciences, Open University of the Netherlands, Heerlen, The Netherlands Department of Psychosis Studies, Institute of Psychiatry, King's College London, King's Health Partners, London, UK Brain Centre Rudolf Magnus, Utrecht University Medical Centre, Utrecht, The Netherlands Institute for Mental Health Care Eindhoven (GGzE), Eindhoven, The Netherlands
*
Author for correspondence: P.A.E. Domen, E-mail: [email protected]
Get access Rights & Permissions [Opens in a new window]

Abstract

Background

Decreased white matter (WM) integrity in patients with psychotic disorder has been a consistent finding in diffusion tensor imaging (DTI) studies. However, the contribution of environmental risk factors to these WM alterations is rarely investigated. The current study examines whether individuals with (increased risk for) psychotic disorder will show increased WM integrity change over time with increasing levels of childhood trauma and cannabis exposure.

Methods

DTI scans were obtained from 85 patients with a psychotic disorder, 93 non-psychotic siblings and 80 healthy controls, of which 60% were rescanned 3 years later. In a whole-brain voxel-based analysis, associations between change in fractional anisotropy (ΔFA) and environmental exposures as well as interactions between group and environmental exposure in the model of FA and ΔFA were investigated. Analyses were adjusted for a priori hypothesized confounding variables: age, sex, and level of education.

Results

At baseline, no significant associations were found between FA and both environmental risk factors. At follow-up as well as over a 3-year interval, significant interactions between group and, respectively, cannabis exposure and childhood trauma exposure in the model of FA and ΔFA were found. Patients showed more FA decrease over time compared with both controls and siblings when exposed to higher levels of cannabis or childhood trauma.

Conclusions

Higher levels of cannabis or childhood trauma may compromise connectivity over the course of the illness in patients, but not in individuals at low or higher than average genetic risk for psychotic disorder, suggesting interactions between the environment and illness-related factors.

Keywords

Cannabischildhood traumadiffusion tensor imaginglongitudinalpsychotic disordersiblings
Type
Original Articles
Information
Psychological Medicine , Volume 49 , Issue 4 , March 2019 , pp. 628 - 638
Copyright
Copyright © Cambridge University Press 2018 

Access options

Get access to the full version of this content by using one of the access options below. (Log in options will check for institutional or personal access. Content may require purchase if you do not have access.)

References

Andreasen, NC, Paradiso, S and O'Leary, DS (1998) “Cognitive dysmetria” as an integrative theory of schizophrenia; a dysfunction in cortical – subcortical – cerebellar circuitry. Schizophrenia Bulletin 24, 203218.Google Scholar
Annett, M (1970) A classification of hand preference by association analysis. British Journal of Psychology 61, 303321.Google Scholar
Arnone, D, Barrick, TR, Chengappa, S, Mackay, CE, Clark, CA and Abou-Saleh, MT (2008) Corpus callosum damage in heavy marijuana use: preliminary evidence from diffusion tensor tractography and tract-based spatial statistics. NeuroImage 41, 10671074.Google Scholar
Baker, ST, Yucel, M, Fornito, A, Allen, NB and Lubman, DI (2013) A systematic review of diffusion weighted MRI studies of white matter microstructure in adolescent substance users. Neuroscience & Biobehavioral Reviews 37, 17131723.Google Scholar
Bava, S, Jacobus, J, Thayer, RE and Tapert, SF (2013) Longitudinal changes in white matter integrity among adolescent substance users. Alcoholism, Clinical & Experimental Research 37(suppl. 1), E181E189.Google Scholar
Becker, MP, Collins, PF, Lim, KO, Muetzel, RL and Luciana, M (2015) Longitudinal changes in white matter microstructure after heavy cannabis use. Developmental Cognitive Neuroscience 16, 2335.Google Scholar
Bendall, S, Jackson, HJ, Hulbert, CA and McGorry, PD (2008) Childhood trauma and psychotic disorders: a systematic, critical review of the evidence. Schizophrenia Bulletin 34, 568579.Google Scholar
Bernstein, DP, Ahluvalia, T, Pogge, D and Handelsman, L (1997) Validity of the childhood trauma questionnaire in an adolescent psychiatric population. Journal of the American Academy of Child and Adolescent Psychiatry 36, 340348.Google Scholar
Boos, HB, Mandl, RC, van Haren, NE, Cahn, W, van Baal, GC, Kahn, RS and Hulshoff Pol, HE (2013) Tract-based diffusion tensor imaging in patients with schizophrenia and their non-psychotic siblings. European Neuropsychopharmacology 23, 295304.Google Scholar
Cahn, W, Hulshoff Pol, HE, Caspers, E, van Haren, NE, Schnack, HG and Kahn, RS (2004) Cannabis and brain morphology in recent-onset schizophrenia. Schizophrenia Research 67, 305307.Google Scholar
Canu, E, Agosta, F and Filippi, M (2015) A selective review of structural connectivity abnormalities of schizophrenic patients at different stages of the disease. Schizophrenia Research 161, 1928.Google Scholar
Choi, J, Jeong, B, Polcari, A, Rohan, ML and Teicher, MH (2012) Reduced fractional anisotropy in the visual limbic pathway of young adults witnessing domestic violence in childhood. NeuroImage 59, 10711079.Google Scholar
Cookey, J, Bernier, D and Tibbo, PG (2014) White matter changes in early phase schizophrenia and cannabis use: an update and systematic review of diffusion tensor imaging studies. Schizophrenia Research 156, 137142.Google Scholar
Cornblatt, BA, Lencz, T, Smith, CW, Correll, CU, Auther, AM and Nakayama, E (2003) The schizophrenia prodrome revisited: a neurodevelopmental perspective. Schizophrenia Bulletin 29, 633651.Google Scholar
Daniels, JK, Lamke, JP, Gaebler, M, Walter, H and Scheel, M (2013) White matter integrity and its relationship to PTSD and childhood trauma – a systematic review and meta-analysis. Depression and Anxiety 30, 207216.Google Scholar
Dekker, N, Schmitz, N, Peters, BD, van Amelsvoort, TA, Linszen, DH and de Haan, L (2010) Cannabis use and callosal white matter structure and integrity in recent-onset schizophrenia. Psychiatry Research 181, 5156.Google Scholar
Domen, P, Peeters, S, Michielse, S, Gronenschild, E, Viechtbauer, W, Roebroeck, A, van Os, J and Marcelis, M (2017) Differential time course of microstructural white matter in patients with psychotic disorder and individuals at risk: a 3-year follow-up study. Schizophrenia Bulletin 43, 160170.Google Scholar
Domen, PA, Michielse, S, Gronenschild, E, Habets, P, Roebroeck, A, Schruers, K, van Os, J and Marcelis, M (2013) Microstructural white matter alterations in psychotic disorder: a family-based diffusion tensor imaging study. Schizophrenia Research 146, 291300.Google Scholar
Ellison-Wright, I and Bullmore, E (2009) Meta-analysis of diffusion tensor imaging studies in schizophrenia. Schizophrenia Research 108, 310.Google Scholar
Epstein, KA and Kumra, S (2015) White matter fractional anisotropy over two time points in early onset schizophrenia and adolescent cannabis use disorder: a naturalistic diffusion tensor imaging study. Psychiatry Research 232, 3441.Google Scholar
Friston, KJ (1998) The disconnection hypothesis. Schizophrenia Research 30, 115125.Google Scholar
Heim, C and Binder, EB (2012) Current research trends in early life stress and depression: review of human studies on sensitive periods, gene-environment interactions, and epigenetics. Experimental Neurology 233, 102111.Google Scholar
Jackowski, AP, Douglas-Palumberi, H, Jackowski, M, Win, L, Schultz, RT, Staib, LW, Krystal, JH and Kaufman, J (2008) Corpus callosum in maltreated children with posttraumatic stress disorder: a diffusion tensor imaging study. Psychiatry Research 162, 256261.Google Scholar
Jakabek, D, Yucel, M, Lorenzetti, V and Solowij, N (2016) An MRI study of white matter tract integrity in regular cannabis users: effects of cannabis use and age. Psychopharmacology (Berlin) 233, 36273637.Google Scholar
James, A, Hough, M, James, S, Winmill, L, Burge, L, Nijhawan, S, Matthews, PM and Zarei, M (2011) Greater white and grey matter changes associated with early cannabis use in adolescent-onset schizophrenia (AOS). Schizophrenia Research 128, 9197.Google Scholar
Jones, DK (2004) The effect of gradient sampling schemes on measures derived from diffusion tensor MRI: a Monte Carlo study. Magnetic Resonance in Medicine 51, 807815.Google Scholar
Kanaan, RA, Chaddock, C, Allin, M, Picchioni, MM, Daly, E, Shergill, SS and McGuire, PK (2014) Gender influence on white matter microstructure: a tract-based spatial statistics analysis. PLoS ONE 9, e91109.Google Scholar
Kay, SR, Fiszbein, A and Opler, LA (1987) The positive and negative syndrome scale (PANSS) for schizophrenia. Schizophrenia Bulletin 13, 261276.Google Scholar
Korver, N, Quee, PJ, Boos, HB, Simons, CJ and de Haan, L (2012) Genetic risk and outcome of psychosis (GROUP), a multi-site longitudinal cohort study focused on gene-environment interaction: objectives, sample characteristics, recruitment and assessment methods. International Journal of Methods in Psychiatric Research 21, 205221.Google Scholar
Kubicki, M, McCarley, R, Westin, CF, Park, HJ, Maier, S, Kikinis, R, Jolesz, FA and Shenton, ME (2007) A review of diffusion tensor imaging studies in schizophrenia. Journal of Psychiatric Research 41, 1530.Google Scholar
Lubman, DI, Cheetham, A and Yucel, M (2015) Cannabis and adolescent brain development. Pharmacology and Therapeutics 148, 116.Google Scholar
Maynard, TM, Sikich, L, Lieberman, JA and LaMantia, AS (2001) Neural development, cell-cell signaling, and the “two-hit” hypothesis of schizophrenia. Schizophrenia Bulletin 27, 457476.Google Scholar
Menzler, K, Belke, M, Wehrmann, E, Krakow, K, Lengler, U, Jansen, A, Hamer, HM, Oertel, WH, Rosenow, F and Knake, S (2011) Men and women are different: diffusion tensor imaging reveals sexual dimorphism in the microstructure of the thalamus, corpus callosum and cingulum. NeuroImage 54, 25572562.Google Scholar
Misiak, B, Krefft, M, Bielawski, T, Moustafa, AA, Sąsiadek, MM and Frydecka, D (2017) Toward a unified theory of childhood trauma and psychosis: a comprehensive review of epidemiological, clinical, neuropsychological and biological findings. Neuroscience & Biobehavioral Reviews 75, 393406.Google Scholar
Molina-Holgado, E, Vela, JM, Arevalo-Martin, A, Almazan, G, Molina-Holgado, F, Borrell, J and Guaza, C (2002) Cannabinoids promote oligodendrocyte progenitor survival: involvement of cannabinoid receptors and phosphatidylinositol-3 kinase/Akt signaling. The Journal of Neuroscience 22, 97429753.Google Scholar
Nesvåg, R, Frigessi, A, Jönsson, EG and Agartz, I (2007) Effects of alcohol consumption and antipsychotic medication on brain morphology in schizophrenia. Schizophrenia Research 90, 5261.Google Scholar
O'Donnell, LJ and Pasternak, O (2015) Does diffusion MRI tell us anything about the white matter? An overview of methods and pitfalls. Schizophrenia Research 161, 133141.Google Scholar
Ozcelik-Eroglu, E, Ertugrul, A, Oguz, KK, Has, AC, Karahan, S and Yazici, MK (2014) Effect of clozapine on white matter integrity in patients with schizophrenia: a diffusion tensor imaging study. Psychiatry Research 223, 226235.Google Scholar
Pagliaccio, D, Luby, JL, Bogdan, R, Agrawal, A, Gaffrey, MS, Belden, AC, Botteron, KN, Harms, MP and Barch, DM (2014) Stress-system genes and life stress predict cortisol levels and amygdala and hippocampal volumes in children. Neuropsychopharmacology 39, 12451253.Google Scholar
Paul, R, Henry, L, Grieve, SM, Guilmette, TJ, Niaura, R, Bryant, R, Bruce, S, Williams, LM, Richard, CC, Cohen, RA and Gordon, E (2008) The relationship between early life stress and microstructural integrity of the corpus callosum in a non-clinical population. Neuropsychiatric Disease and Treatment 4, 193201.Google Scholar
Peters, BD, Blaas, J and de Haan, L (2010) Diffusion tensor imaging in the early phase of schizophrenia: what have we learned? Journal of Psychiatric Research 44, 9931004.Google Scholar
Peters, BD, de Haan, L, Vlieger, EJ, Majoie, CB, den Heeten, GJ and Linszen, DH (2009) Recent-onset schizophrenia and adolescent cannabis use: MRI evidence for structural hyperconnectivity? Psychopharmacology bulletin 42, 7588.Google Scholar
Reis Marques, T, Taylor, H, Chaddock, C, Dell'acqua, F, Handley, R, Reinders, AA, Mondelli, V, Bonaccorso, S, Diforti, M, Simmons, A, David, AS, Murray, RM, Pariante, CM, Kapur, S and Dazzan, P (2014) White matter integrity as a predictor of response to treatment in first episode psychosis. Brain 137, 172182.Google Scholar
Rubino, T and Parolaro, D (2014) Cannabis abuse in adolescence and the risk of psychosis: a brief review of the preclinical evidence. Progress in Neuropsychopharmacology & Biological Psychiatry 52, 4144.Google Scholar
Sarne, Y and Mechoulam, R (2005) Cannabinoids: between neuroprotection and neurotoxicity. Current Drug Targets. CNS and Neurological Disorders 4, 677684.Google Scholar
Szeszko, PR, Robinson, DG, Ashtari, M, Vogel, J, Betensky, J, Sevy, S, Ardekani, BA, Lencz, T, Malhotra, AK, McCormack, J, Miller, R, Lim, KO, Gunduz-Bruce, H, Kane, JM and Bilder, RM (2007) Anterior cingulate grey-matter deficits and cannabis use in first-episode schizophrenia. British Journal of Psychiatry 190, 230236.Google Scholar
Szeszko, PR, Robinson, DG, Sevy, S, Kumra, S, Rupp, CI, Betensky, JD, Lencz, T, Ashtari, M, Kane, JM, Malhotra, AK, Gunduz-Bruce, H, Napolitano, B and Bilder, RM (2008) Clinical and neuropsychological correlates of white matter abnormalities in recent onset schizophrenia. Neuropsychopharmacology 33, 976984.Google Scholar
Team, RC (2015) R: A Language and Environment for Statistical Computing. In R Foundation for Statistical Computing: Vienna, Austria.Google Scholar
Teicher, MH, Andersen, SL, Polcari, A, Anderson, CM and Navalta, CP (2002) Developmental neurobiology of childhood stress and trauma. Psychiatric Clinics of North America 25, 397426, vii–viii.Google Scholar
Teicher, MH, Dumont, NL, Ito, Y, Vaituzis, C, Giedd, JN and Andersen, SL (2004) Childhood neglect is associated with reduced corpus callosum area. Biological Psychiatry 56, 8085.Google Scholar
Thombs, BD, Bernstein, DP, Lobbestael, J and Arntz, A (2009) A validation study of the Dutch childhood trauma questionnaire-short form: factor structure, reliability, and known-groups validity. Child Abuse & Neglect 33, 518523.Google Scholar
van Os Jand Kapur, S (2009). Schizophrenia. The Lancet 374, 635645.Google Scholar
Varese, F, Smeets, F, Drukker, M, Lieverse, R, Lataster, T, Viechtbauer, W, Read, J, van Os, J and Bentall, RP (2012) Childhood adversities increase the risk of psychosis: a meta-analysis of patient-control, prospective- and cross-sectional cohort studies. Schizophrenia Bulletin 38, 661671.Google Scholar
Voineskos, AN (2015) Genetic underpinnings of white matter ‘connectivity’: heritability, risk, and heterogeneity in schizophrenia. Schizophrenia Research 161, 5060.Google Scholar
von Hausswolff-Juhlin, Y, Bjartveit, M, Lindstrom, E and Jones, P (2009) Schizophrenia and physical health problems. Acta Psychiatrica Scandinavica 119(suppl. 438), 1521.Google Scholar
Wang, F, Jiang, T, Sun, Z, Teng, SL, Luo, X, Zhu, Z, Zang, Y, Zhang, H, Yue, W, Qu, M, Lu, T, Hong, N, Huang, H, Blumberg, HP and Zhang, D (2009) Neuregulin 1 genetic variation and anterior cingulum integrity in patients with schizophrenia and healthy controls. Journal of Psychiatry & Neuroscience 34, 181186.Google Scholar
Wang, HH, Zhang, ZJ, Tan, QR, Yin, H, Chen, YC, Wang, HN, Zhang, RG, Wang, ZZ, Guo, L, Tang, LH and Li, LJ (2010) Psychopathological, biological, and neuroimaging characterization of posttraumatic stress disorder in survivors of a severe coalmining disaster in China. Journal of Psychiatric Research 44, 385392.Google Scholar
Westlye, LT, Walhovd, KB, Dale, AM, Bjornerud, A, Due-Tonnessen, P, Engvig, A, Grydeland, H, Tamnes, CK, Ostby, Y and Fjell, AM (2010) Life-span changes of the human brain white matter: diffusion tensor imaging (DTI) and volumetry. Cerebral Cortex 20, 20552068.Google Scholar
World Health Organization (WHO) (1990) Composite International Diagnostic Interview (CIDI): a) CIDI-interview (version 1.0), b) CIDI-user manual, c) CIDI-training manual, d) CIDI-computer programs. Geneva: WHO.Google Scholar
Willi, TS, Barr, AM, Gicas, K, Lang, DJ, Vila-Rodriguez, F, Su, W, Thornton, AE, Leonova, O, Giesbrecht, CJ, Procyshyn, RM, Rauscher, A, MacEwan, WG, Honer, WG and Panenka, WJ (2017) Characterization of white matter integrity deficits in cocaine-dependent individuals with substance-induced psychosis compared with non-psychotic cocaine users. Addiction Biology 22, 873881.Google Scholar
Zalesky, A, Solowij, N, Yucel, M, Lubman, DI, Takagi, M, Harding, IH, Lorenzetti, V, Wang, R, Searle, K, Pantelis, C and Seal, M (2012) Effect of long-term cannabis use on axonal fibre connectivity. Brain 135, 22452255.Google Scholar
Zhang, L, Zhang, Y, Li, L, Li, Z, Li, W, Ma, N, Hou, C, Zhang, Z, Zhang, Z, Wang, L, Duan, L and Lu, G (2011) Different white matter abnormalities between the first-episode, treatment-naive patients with posttraumatic stress disorder and generalized anxiety disorder without comorbid conditions. Journal of Affective Disorders 133, 294299.Google Scholar
Supplementary material: File

Domen et al. supplementary material

Domen et al. supplementary material 1

Download Domen et al. supplementary material(File)
File 53.6 KB