Hostname: page-component-78c5997874-8bhkd Total loading time: 0 Render date: 2024-11-13T09:27:21.986Z Has data issue: false hasContentIssue false

Examining psychotic experiences in two generations – findings from a rural household-based cohort study; the Lolland-Falster Health Study

Published online by Cambridge University Press:  24 November 2023

Martin Køster Rimvall*
Affiliation:
Department of Child and Adolescent Psychiatry, Copenhagen University Hospital – Psychiatry Region Zealand, Roskilde, Denmark Child and Adolescent Mental Health Center, Mental Health Services – Capital Region of Denmark, Copenhagen, Denmark
Erik Simonsen
Affiliation:
Department of Clinical Medicine, Faculty of Health and Medical Sciences, University of Copenhagen, Copenhagen, Denmark Mental Health Services East, Copenhagen University Hospital - Psychiatry Region Zealand, Roskilde, Denmark
Jiawei Zhang
Affiliation:
Section of Environmental Health, Department of Public Health, University of Copenhagen, Copenhagen, Denmark
Zorana Jovanovic Andersen
Affiliation:
Section of Environmental Health, Department of Public Health, University of Copenhagen, Copenhagen, Denmark
Lene Halling Hastrup
Affiliation:
Mental Health Services East, Copenhagen University Hospital - Psychiatry Region Zealand, Roskilde, Denmark Danish Centre for Health Economics, DaCHE, University of Southern Denmark, Odense, Denmark
Pia Jeppesen
Affiliation:
Department of Child and Adolescent Psychiatry, Copenhagen University Hospital – Psychiatry Region Zealand, Roskilde, Denmark Child and Adolescent Mental Health Center, Mental Health Services – Capital Region of Denmark, Copenhagen, Denmark Department of Clinical Medicine, Faculty of Health and Medical Sciences, University of Copenhagen, Copenhagen, Denmark
Stephen F. Austin
Affiliation:
Mental Health Services East, Copenhagen University Hospital - Psychiatry Region Zealand, Roskilde, Denmark Institute of Psychology, University of Southern Denmark, Odense, Denmark
Susanne Vinkel Koch
Affiliation:
Department of Child and Adolescent Psychiatry, Copenhagen University Hospital – Psychiatry Region Zealand, Roskilde, Denmark Department of Clinical Medicine, Faculty of Health and Medical Sciences, University of Copenhagen, Copenhagen, Denmark
*
Corresponding author: Martin Køster Rimvall; Email: [email protected]
Rights & Permissions [Opens in a new window]

Abstract

Background

Psychotic disorders are highly heritable, yet the evidence is less clear for subclinical psychosis expression, such as psychotic experiences (PEs). We examined if PEs in parents were associated with PEs in offspring.

Methods

As part of the Danish general population Lolland-Falster Health Study, families with youths aged 11–17 years were included. Both children and parents reported PEs according to the Psychotic Like Experiences Questionnaire, counting only ‘definite’ PEs. Parents additionally reported depressive symptoms, anxiety, and mental wellbeing. The associations between parental and child PEs were estimated using generalized estimating equations with an exchangeable correlation structure to account for the clustering of observations within families, adjusting for sociodemographic characteristics.

Results

Altogether, 984 youths (mean age 14.3 years [s.d. 2.0]), 700 mothers, and 496 fathers from 766 households completed PEs-questionnaires. Offspring of parents with PEs were at an increased risk of reporting PEs themselves (mothers: adjusted risk ratio (aRR) 2.42, 95% CI 1.73–3.38; fathers: aRR 2.25, 95% CI 1.42–3.59). Other maternal problems (depression, anxiety, and poor mental well-being), but not paternal problems, were also associated with offspring PEs. In multivariate models adjusting for parental problems, PEs, but not other parental problems, were robustly associated with offspring PEs (mothers: aRR 2.25, 95% CI 1.60–3.19; fathers: aRR 2.44, 95% CI 1.50–3.96).

Conclusions

The current findings add novel evidence suggesting that specific psychosis vulnerability in families is expressed at the lower end of the psychosis continuum, underlining the importance of assessing youths’ needs based on psychosis vulnerability broadly within the family systems.

Type
Original Article
Copyright
Copyright © The Author(s), 2023. Published by Cambridge University Press

Background

The etiology behind psychotic disorders is multifactorial, yet there is strong evidence that psychotic disorders are highly heritable given that a family history of psychosis diagnosis substantially increases the risk of being diagnosed with psychotic disorders in offspring (Sullivan, Kendler, & Neale, Reference Sullivan, Kendler and Neale2003). However, when considering psychosis as a broader transdiagnostic continuous phenotype (Linscott & van Os, Reference Linscott and van Os2013; van Os & Reininghaus, Reference van Os and Reininghaus2016), the evidence base regarding the heritability of subclinical psychosis expression is smaller and less clear.

In youths, psychotic experiences, i.e. subclinical hallucinations, delusions, and subjective thought disturbances, are often associated with severity of non-psychotic psychopathology (Jeppesen et al., Reference Jeppesen, Clemmensen, Munkholm, Rimvall, Rask, Jørgensen and Skovgaard2015a; Kelleher et al., Reference Kelleher, Keeley, Corcoran, Lynch, Fitzpatrick, Devlin and Cannon2012), suicidality (Honings, Drukker, Groen, & van Os, Reference Honings, Drukker, Groen and van Os2016; Yates et al., Reference Yates, Lång, Cederlöf, Boland, Taylor, Cannon and Kelleher2019), poorer functioning (Calkins et al., Reference Calkins, Moore, Satterthwaite, Wolf, Turetsky, Roalf and Gur2017; Healy et al., Reference Healy, Campbell, Coughlan, Clarke, Kelleher and Cannon2018), decreased quality of life (Alonso et al., Reference Alonso, Saha, Lim, Aguilar-Gaxiola, Al-Hamzawi, Benjet and McGrath2018; Rimvall et al., Reference Rimvall, Wolf, Olsen, Skovgaard, Clemmensen, Oxholm and Jeppesen2021), as well as help-seeking behaviors and an increased risk of being diagnosed with non-psychotic and psychotic disorders later in life (Healy et al., Reference Healy, Brannigan, Dooley, Coughlan, Clarke, Kelleher and Cannon2019; Rimvall et al., Reference Rimvall, van Os, Verhulst, Wolf, Larsen, Clemmensen and Jeppesen2020b).

Numerous studies have examined parental diagnosis of psychosis as a potential risk factor of psychotic experiences in offspring. In the Copenhagen Child Cohort 2000 study, using independent register-based data to assess parental mental illness, parental psychotic disorders were associated with psychotic experiences in preadolescents, whereas non-psychotic disorders were not (Jeppesen et al., Reference Jeppesen, Larsen, Clemmensen, Munkholm, Rimvall, Rask and Skovgaard2015b). Data from the Danish High-Risk and Resilience Study found that children of parents with schizophrenia, but not bipolar disorder, had more psychotic experiences than children of non-affected parents (Gregersen et al., Reference Gregersen, Møllegaard Jepsen, Rohd, Søndergaard, Brandt, Ellersgaard and Elgaard Thorup2022), fueling a notion that there might be a specific link between primary psychotic disorder and subclinical psychosis expression in offspring. Findings from the E-risk longitudinal Twin Study found that maternal psychosis diagnosis, but also maternal admissions and suicidality broadly, predicted psychotic experiences in offspring (Polanczyk et al., Reference Polanczyk, Moffitt, Arseneault, Cannon, Ambler, Keefe and Caspi2010), and in the Families Overcoming Risks and Building Opportunities for Wellbeing (FORBOW) high-risk cohort, offspring of parents with major depression, bipolar, and schizophrenia reported similar rates of psychotic experiences across parental diagnoses (MacKenzie et al., Reference MacKenzie, Abidi, Fisher, Propper, Bagnell, Morash-Conway and Uher2016). Data from the recent ABCD study found an association between parent self-reported psychosis and psychotic experiences in children aged 10 years in a subsample of about 4000 children (Karcher et al., Reference Karcher, Barch, Avenevoli, Svaill, Huber, Simon and Loewy2018), yet these findings were not replicated in the full sample of 11 000 children after adjusting for key sociodemographic factors (Karcher et al., Reference Karcher, Loewy, Savill, Avenevoli, Huber, Simon and Barch2020). Conversely, findings from the Avon Longitudinal Study of Parents and Children cohort (Zammit et al., Reference Zammit, Horwood, Thompson, Thomas, Menezes, Gunnell and Harrison2008) and the TRacking Adolescents’ Individual Lives Survey (Wigman et al., Reference Wigman, van Winkel, Ormel, Verhulst, van Os and Vollebergh2012) found little to no evidence of parental psychotic disorders as risk factors of psychotic experiences in offspring. Finally, only one study, to our knowledge, examined subclinical psychosis across two generations in adults, finding that a broader psychosis phenotype clustered in families in a Dutch general population sample of adults (Hanssen, Krabbendam, Vollema, Delespaul, & Van Os, Reference Hanssen, Krabbendam, Vollema, Delespaul and Van Os2006). Further studies of the continuity of familial risk along the psychosis continuum are key to expanding our understanding of the etiology of psychosis. Hence the current study aimed to study psychotic experiences across two generations in parents and their adolescent offspring.

In a cross-sectional cohort study, we examined if parental psychotic experiences indicated an increased risk of youth psychotic experiences in their offspring. Second, we examined if other parental mental health problems were associated with offspring psychotic experiences. We hypothesized that psychotic experiences in parents were associated with psychotic experiences in their offspring, and that this potential association would be present over and above the effects of other types of parental mental health problems and family sociodemographic adversities.

Methods

Study population

The current study utilized data from a general population cohort, the Lolland-Falster Health Study (LOFUS) (Jepsen et al., Reference Jepsen, Egholm, Brodersen, Simonsen, Grarup, Cyron and Rasmussen2020a). LOFUS was set up in order to further knowledge on broad determinants of health among inhabitants from a rural-provincial area in an socioeconomically deprived geographical area, with documented disadvantages regarding educational attainment level, employment rates, and mental disorders compared to the Danish average (Egholm et al., Reference Egholm, Packness, Stokholm, Rasmussen, Ellervik, Simonsen and Jepsen2020). Participants were asked to participate in both questionnaires (e.g. questionnaires on mental health, diet, pain, etc.), health examinations (blood pressure, lung function, etc.), and to deliver biological materials (blood, urine, saliva, and fecal samples), as summarized in more detail elsewhere (Jepsen et al., Reference Jepsen, Egholm, Brodersen, Simonsen, Grarup, Cyron and Rasmussen2020a).

Using the civil registration number (unique for all citizens in Denmark), each participating individual, family, and household were linked (Pedersen, Reference Pedersen2011). In total, 18 949 individuals aged 0 to 99 years from the Danish municipalities of Lolland and Guldborgsund between February 8th 2016 and February 13th 2020 (Petersen, Brønd, Benfeldt, & Jepsen, Reference Petersen, Brønd, Benfeldt and Jepsen2022). Compared to non-participants, participants were characterized by higher-socioeconomic status (Jepsen et al., Reference Jepsen, Wingstrand, Abild, Ellervik, Simonsen, Rasmussen and Andersen2020b). Regarding mental health problems, the 11–17-year-old participants in LOFUS exhibited lower levels of mental health problems according to the Strengths and Difficulties Questionnaire (SDQ) as compared to Danish general population norm data (mean SDQ total score [s.d.]: 8.81 [s.d. 4.49]) (Koch, Zhang, Aggernaes, Andersen, & Simonsen, et al., in preparation).

Ethical considerations

The child and adolescent sub-study of LOFUS was approved by the Danish Data Protection Agency (REG 060 + -2018). The authors assert that all procedures contributing to LOFUS comply with the ethical standards of the relevant national and institutional committees on human experimentation (Region Zealand's Ethical Committee on Health Research [SJ-421] and the Danish Data Protection Agency [REG-024-2015]) and with the Helsinki Declaration of 1975, as revised in 2008. Custodians gave written consent for children aged <15 years, while all individuals aged ⩾15 years provided written consent for themselves (Jepsen et al., Reference Jepsen, Egholm, Brodersen, Simonsen, Grarup, Cyron and Rasmussen2020a). LOFUS is registered in Clinicaltrials.gov (NCT 02 482 896).

Measures

Psychotic experiences

Questions on hallucinations, delusions and subjective thought disturbances from the Psychotic Like Experiences Questionnaire (PLIKSq), a self-report adaptation of the PLIKS-interview developed for the ALSPAC cohort (Horwood et al., Reference Horwood, Salvi, Thomas, Duffy, Gunnell, Hollis and Harrison2008; Thapar et al., Reference Thapar, Heron, Jones, Owen, Lewis and Zammit2012), were applied to assess self-reported psychotic experiences in both parents and youths. Due to the extensive test-battery of LOFUS (Egholm et al., Reference Egholm, Packness, Stokholm, Rasmussen, Ellervik, Simonsen and Jepsen2020), the mental health survey was small, and the PLIKSq was shortened (Austin, Hastrup, van Os, & Simonsen, Reference Austin, Hastrup, van Os and Simonsen2023), see online appendix 1 for the wording of the included questions. The current version enquired about 8 instead of 10 different psychotic experiences, and the participants were asked two questions on context (if psychotic experiences had ever occurred in relation to drugs or sleep), and one impact question enquiring about whether psychotic experiences had any effects on the responder or their family. Psychotic experiences were considered as present when the participants gave at least one ‘definite’ positive response to any psychotic experience. Psychotic experiences in offspring were considered first as a dichotomous variable (0 v. ⩾1) and second as count variable (0-1-2-⩾3 psychotic experiences). Given that few youths reported more than three psychotic experiences (Table 1), individuals reporting ⩾3 psychotic experiences were grouped together, in keeping with prior work utilizing PLIKSq in youths (Rimvall et al., Reference Rimvall, van Os, Rask, Olsen, Skovgaard, Clemmensen and Jeppesen2020a).

Table 1. Sociodemographic characteristics and frequency of reporting of psychotic experiences

Only psychotic experiences reported as ‘definitely present’ were included.

Parental depressive symptoms

The Major Depression Inventory is widely used in general practice in Denmark (Bech, Rasmussen, Olsen, Noerholm, & Abildgaard, Reference Bech, Rasmussen, Olsen, Noerholm and Abildgaard2001; Christensen, Packness, Simonsen, & Brodersen, Reference Christensen, Packness, Simonsen and Brodersen2023), consisting of 12 items covering the 10 symptoms of depression in ICD-10, rated on a six-point Likert-Scale ranging from ‘at no time’ (coded as 0) to ‘all the time’ (coded as 5). A continuous total score (range 0–60) measure of depressive symptoms was utilized for the main analyses, and a dichotomous score (⩾25 v. <25), was applied in sensitivity analyses. The cut-off is consistent with the likely moderate to severe depression definition used in the Major Depression Inventory manual and validation in Denmark (Nielsen, Ørnbøl, Bech, Vestergaard, & Christensen, Reference Nielsen, Ørnbøl, Bech, Vestergaard and Christensen2017).

Parental anxiety symptoms

The Anxiety Symptom Scale is widely used in primary care settings in Denmark (Danish College of General Practitioners, 2010), consisting of 10 self-reported items on perceived anxiety symptoms. A structural validation study was recently published using data from the LOFUS study (Christensen, Packness, Pedersen, & Simonsen, Reference Christensen, Packness, Pedersen and Simonsen2022). The response categories are similar to the Major Depression Inventory, applying a six-point Likert-scale ranging from ‘at no time’ (coded as 0) to ‘all the time’ (coded as 5). A continuous total score (range 0–15) measure of generalized anxiety symptoms was utilized for the main analyses. For sensitivity analyses, a dichotomous score was defined as when anxiety symptoms were present more than half of the time (⩾3 on question 10 regarding everyday impact of symptoms combined with a score > 0 on general anxiety disorders [items 1–3 that were also utilized for the continuous anxiety measure]), indicative of impairing anxiety and probable disorder (Packness, Sparle Christensen, & Simonsen, Reference Packness, Sparle Christensen and Simonsen2023).

Parental mental well-being

The World Health Organization- Five Well-Being Index contains 5 short questions on current mental well-being (Topp, Østergaard, Søndergaard, & Bech, Reference Topp, Østergaard, Søndergaard and Bech2015). Like the questionnaires on depression and anxiety, questions are rated on a six-point Likert-scale ranging from ‘at no time’ (coded as 0) to ‘all the time’ (coded as 5). A continuous measure of mental well-being was utilized for the main analyses and for sensitivity analyses, a dichotomous score was defined as a score of <12.5, which is a recommended score when screening for depression indicated poor well-being (Topp et al., Reference Topp, Østergaard, Søndergaard and Bech2015).

Covariates

We included sex and age of the youths as covariates along with parental highest education (college degree or equivalent v. shorter education) and employment status (any type of employment v. no employment) attained by self-reports, due to potential differences in expression of psychotic experiences and other mental health problems in relation to these factors.

For post-hoc sensitivity analyses, we included information on youth general mental health problems using the youth reported SDQ total score (Goodman, Reference Goodman1997). The SDQ total score is scored 0–40 based on four subscales inquiring about hyperactivity/inattention, conduct problems, emotional problems and peer relationships.

Statistical analyses

We used generalized estimating equations (GEE) to estimate the associations between parental and offspring psychotic experiences. To account for the clustering of observations within families, i.e. siblingship and shared exposure, we adopted an exchangeable correlation structure. Intra-household dependencies can compromise the independence assumption inherent to ordinary least squares regression, leading to biased estimates and overly narrow standard errors. By utilizing a working correlation matrix and adopting cluster-robust standard errors, the GEE method effectively addresses these concerns. Its flexibility in model specification and robustness to various correlation structures make GEE particularly suited for both longitudinal and cross-sectional analyses (Huang, Reference Huang2022; McNeish, Reference McNeish2019; McNeish, Stapleton, & Silverman, Reference McNeish, Stapleton and Silverman2017).

We modeled the binary outcome (psychotic experiences present v. no psychotic experiences in offspring) as Poisson distribution to estimate the risk ratios (RR). For the number of offspring psychotic experiences (0-1-2-⩾3 psychotic experiences), we applied Poisson distribution to estimate the relative difference (RD) for the number of offspring psychotic experiences, illustrating an increase of events in percentage (%). All the analyses were conducted separately for mothers and fathers.

We first conducted univariate analyses, by estimating the effects of maternal and paternal psychotic experiences, depressive symptoms, anxiety symptoms, and mental well-being respectively on offspring psychotic experiences. We reported results from both crude models (four for each parent) and repeated the models adjusted for sociodemographic covariates. This was done for outcomes of psychotic experiences in youths as both dichotomous and count-variables.

We subsequently fitted a total of four multivariate models including all parental exposure variables (psychotic experiences, depressive symptoms, anxiety symptoms, and mental well-being), for mothers and fathers respectively, adjusted for parental sociodemographic covariates on both outcomes of dichotomous and count-variable psychotic experiences in youths. We did this to assess whether the observed associations between psychotic experiences in parents and their offspring were explained by non-psychotic parental mental health problems or specifically relating to psychosis expression.

To validate the robustness of the findings, we further repeated the multivariate models in sensitivity analyses by exploring depression, anxiety, and mental well-being as dichotomous variables (using cut-offs as described in the methods section) where considering the clinically significant levels (yes/no) of non-psychotic mental health problems in the parents. In further sensitivity analyses, we adjusted for youth reported general mental health problems using the SDQ total score, to assess the potential specificity of psychosis expression.

Finally, we assessed the potential dose-response effect of having one parent or two parents with psychotic experiences among participating families with data from both parents, using parents without psychotic experiences as the reference group in univariate analyses, adjusting for sociodemographic factors. Post hoc, we used the working matrix of the GEE models to estimate the correlation of psychotic experiences between siblings.

All statistical tests were performed in R version 4.1.2 with a two-sided significance level of 5%. In case of missing data on any variable in the individual analyses, the participant was excluded.

Results

Data on psychotic experiences were available for 984 youths (51.2% female, mean age 14.3 years [s.d. 2.0]), of whom 155 (17.2%) reported at least one definite psychotic experience. As for parents, among 700 mothers, 50 (7.1%), and among 496 fathers, 29 (5.8%) reported at least one psychotic experience. See Table 1 for basic characteristics of the study sample. For detailed information on the frequencies of responses to the different types of psychotic experiences for parents and youths, see online appendix 1. Regarding the covariates (age, sex, parental education, and employment), parental higher education (both mothers’ and fathers’) and employment (only mothers’) were associated with less PEs in youths, see online appendix 2a for details.

In the univariate analyses (Table 2), parental psychotic experiences were associated with a dichotomous measure of psychotic experiences in their offspring: maternal RR 2.57 (95% CI 1.84–3.58) and paternal RR 2.25 (95% CI 1.42–3.59). After adjustment for sociodemographic factors, the estimates remained similar (maternal adjusted RR [aRR] 2.42, 95% CI 1.73–3.38, paternal aRR 2.30, 95% CI 1.46–3.62). Maternal depressive and anxiety symptoms were associated with psychotic experiences in offspring and higher ratings of maternal mental well-being were associated with a decreased likelihood of psychotic experiences in offspring, whereas neither of the three factors in fathers were significantly associated with offspring psychotic experiences. When viewing psychotic experiences as a count-variable in offspring (0-1-2-⩾3 psychotic experiences) the same overall patterns were found (Table 2). Between siblings, PEs were only weakly correlated (Pearson's correlation in the working matrix of the GEE models ranged from 0.028~0.090 across the analyses).

Table 2. Univariate models: Associations between parental factors and offspring psychotic experiences for mothers and fathers separately

Abbreviations: RR = risk ratio, RD = relative difference, CI = confidence interval. Notes: Parental depressive symptoms, anxiety symptoms, and mental well-being were assessed as continuous variables. Lower scores on mental well-being indicates better mental health. The adjusted models controlled for youth sex and age, parental education and parental occupation. Only psychotic experiences reported as ‘definitely present’ were included.

Table 3 shows the multivariate analyses mutually adjusted for all four parental variables from the univariate analyses, i.e. psychotic experiences, depressive symptoms, anxiety symptoms, and mental well-being, and including sociodemographic factors. Psychotic experiences in each parent remained robustly associated with psychotic experiences in offspring: maternal aRR 2.25 (95% CI 1.60–3.19), paternal aRR 2.44 (1.50–3.96). However, depressive symptoms, anxiety symptoms and mental well-being in mothers as well as in fathers were not significantly associated with offspring psychotic experiences in the multivariate analyses. When we included depression, anxiety, and mental well-being as dichotomous variables instead of continuous variables in sensitivity analyses, the estimated associations between parental and offspring psychotic experiences remained largely unchanged, see online appendix 2b. When further adjusting child general mental health problems in sensitivity analyses, the estimated associations between parental and offspring psychotic experiences were somewhat attenuated, see online appendix 2c.

Table 3. Multivariate models: Associations between parental factors (mutually adjusted) and offspring psychotic experiences for mothers and fathers separately

Abbreviations: CI = confidence interval. Notes: Parental depressive symptoms, anxiety symptoms and mental well-being were included in the models as continuous variables. Lower scores on mental well-being indicates better mental health. All models were further adjusted for youth sex and age, parental education and parental occupation. Only psychotic experiences reported as ‘definitely present’ were included.

Finally, to examine a potential dose-response effect of having one v. two parents with psychotic experiences, we analyzed a subsample of families with data on both parents, including 430 parent couples with 569 youths. With no parents with psychotic experiences as reference, offspring with two parents reporting psychotic experiences were at increased odds of reporting one or more psychotic experiences (offspring psychotic experiences dichotomous aRR 3.70, 95% CI 1.77–7.74, offspring psychotic experiences count adjusted RD (aRD) 3.11, 95% CI 1.36–7.12) compared to only one parent reporting psychotic experiences (offspring psychotic experiences dichotomous aRR 1.88, 95% CI 1.14–3.10, offspring psychotic experiences count aRD 1.85, 95% CI 0.99–3.47), however with overlapping confidence intervals.

Discussion

Main findings

In a rural-provincial, general population cohort, parental psychotic experiences were associated with an approximately 2-fold risk of psychotic experiences in offspring, showing similar effects of paternal and maternal psychotic experiences. The findings were robust in multivariate models, also when including general mental health problems of the youths. While maternal, but not paternal, depression, anxiety, and poor mental well-being were associated with psychotic experiences in offspring, parental psychotic experiences remained the only factor significantly associated with offspring psychotic experiences in the multivariate models, suggesting some specificity of subclinical psychosis expression. Finally, there was evidence of dose-response, as having two parents (rather than just one) with psychotic experiences was more strongly associated with a 3-4-fold risk of psychotic experiences in offspring.

Methodological considerations

The current study benefited from a large sample size of parents and their offspring that were assessed independently yet using the same measure for psychotic experiences. The findings were consistent and robust across numerous statistical models, increasing the confidence in the findings. However, some limitations should be considered. First, regarding measurement of psychotic experiences, self-report measures of psychotic experiences might be considered overinclusive, yet the overlap between self-reported and clinically assessed psychotic experiences is reasonable (Gundersen et al., Reference Gundersen, Goodman, Clemmensen, Rimvall, Munkholm, Rask and Jeppesen2019; Kelleher, Harley, Murtagh, & Cannon, Reference Kelleher, Harley, Murtagh and Cannon2011), and even psychotic experiences that are not verified clinically seem to have clinical importance in both adults and youths (Monshouwer et al., Reference Monshouwer, ten Have, Tuithof, van Dorsselaer, Bak, Gunter and de Graaf2023; Rimvall et al., Reference Rimvall, Gundersen, Clemmensen, Munkholm, Larsen, Skovgaard and Jeppesen2019). However, clinically important information about the degree of distress due to psychotic experiences (Karcher et al., Reference Karcher, Barch, Avenevoli, Svaill, Huber, Simon and Loewy2018), was not thoroughly assessed in the current study using a shortened version of the PLIKSq. Further, although the questions for the PLIKS-interview were based on questions from Diagnostic Interview Schedule for Children–IV (DISC–and the Schedules for Clinical Assessment in Neuropsychiatry (SCAN), the PLIKSq lacks formal validation. Second, the recurrence of psychotic experiences (as opposed to remitting psychotic experiences) is an important marker of clinical severity (Staines et al., Reference Staines, Healy, Cotter, Kelleher, Murphy and Cannon2023), which could not be considered in parents nor youths, given the cross-sectional nature of the current study. Third, information on diagnosed/diagnosable psychotic disorders was not available for neither parents nor youths or other relatives, and we cannot rule out, that the findings in part might reflect associations between parental and offspring psychotic symptomatology higher on the continuum than the level of subclinical psychotic experiences. Further, we could not assess to which degree the findings that psychotic experiences clustered in families were due to genetic effects or environmental effects within the families or more broadly. Also, potential (sub)culturally accepted expression of psychotic experiences, e.g. specific religious or paranormal beliefs, which might cluster in families, was not assessed. Fourth, due to non-participation, there is a risk of selection bias. Prior attrition analyses based on half of all participants in the LOFUS cohort (Jepsen et al., Reference Jepsen, Wingstrand, Abild, Ellervik, Simonsen, Rasmussen and Andersen2020b), showed that participants were more often female and had fewer socioeconomic adversities compared to non-participants, likely resulting in less variation and somewhat biasing the reported associations towards the null. Because register data for the entire cohort is not yet available, we could not conduct specific attrition analyses for the current sample, yet we can fairly assume that our sample was similarly subject to differential attrition and positively selected. Additionally, further selection bias could have been introduced as fathers were particularly underrepresented in the current sample compared to mothers, likely largely attributable to the fact that more than 80% of children of divorced parents in Denmark have their household address with their mothers (Ottosen, Stage, & SFI - Det Nationale Forskningscenter for Velfærd, Reference Ottosen and Stage2012). Lastly, although reliable administrative data was utilized to link family members (Pedersen, Reference Pedersen2011), a genetic link between the youth and both parents is not ensured (nor tested) in all cases, but this would be the case in the vast majority of participants.

Finally, the rural context of the current cohort could be considered, as evidence suggests that psychotic disorders are less prevalent in rural areas (Vassos, Pedersen, Murray, Collier, & Lewis, Reference Vassos, Pedersen, Murray, Collier and Lewis2012). However, the evidence for an association between urbanicity and psychotic experiences is not as strong (DeVylder et al., Reference DeVylder, Kelleher, Lalane, Oh, Link and Koyanagi2018), and the prevalence of definite psychotic experiences according to PLIKSq among 11-17-year-olds in LOFUS (17.2%) was almost identical with a report from the Danish Copenhagen Child Cohort 20000 (16.7%) from a mainly suburban population (Rimvall et al., Reference Rimvall, van Os, Verhulst, Wolf, Larsen, Clemmensen and Jeppesen2020b).

Interpretation

While prior findings from general population- and high risk cohorts are not entirely consistent in showing an association between parental psychotic disorders and offspring psychotic experiences, our findings corroborate the majority of studies indicating a transgenerational transmission of psychotic symptoms/experiences (Gregersen et al., Reference Gregersen, Møllegaard Jepsen, Rohd, Søndergaard, Brandt, Ellersgaard and Elgaard Thorup2022; Jeppesen et al., Reference Jeppesen, Larsen, Clemmensen, Munkholm, Rimvall, Rask and Skovgaard2015b; Karcher et al., Reference Karcher, Barch, Avenevoli, Svaill, Huber, Simon and Loewy2018; MacKenzie et al., Reference MacKenzie, Abidi, Fisher, Propper, Bagnell, Morash-Conway and Uher2016; Polanczyk et al., Reference Polanczyk, Moffitt, Arseneault, Cannon, Ambler, Keefe and Caspi2010). Additionally, in keeping with our findings, a prior study has shown clustering of positive psychosis symptomatology across the psychosis continuum within families in a smaller study of adults (Hanssen et al., Reference Hanssen, Krabbendam, Vollema, Delespaul and Van Os2006). A key argument behind the idea that psychosis can advantageously be viewed on a continuum in the population, is the presence of shared environmental and genetic risk factors between psychotic experiences and psychotic disorders (van Os, Kenis, & Rutten, Reference van Os, Kenis and Rutten2010). The current findings, that psychotic experiences in parents were robustly associated with psychotic experiences in offspring, lend support to the idea that the familial effects of positive psychotic phenomena should be considered on a continuum.

Evidence clearly indicates that psychotic experiences by no means solely reflect (risk of) psychotic disorders in youths and adults alike (Healy et al., Reference Healy, Brannigan, Dooley, Coughlan, Clarke, Kelleher and Cannon2019; Kaymaz et al., Reference Kaymaz, Drukker, Lieb, Wittchen, Werbeloff, Lataster and van Os2012), and subclinical psychotic symptomatology is likely more advantageously viewed as a transdiagnostic phenotype (van Os & Reininghaus, Reference van Os and Reininghaus2016). However, several studies do indeed indicate some specificity of psychotic experiences across generations (Gregersen et al., Reference Gregersen, Møllegaard Jepsen, Rohd, Søndergaard, Brandt, Ellersgaard and Elgaard Thorup2022; Jeppesen et al., Reference Jeppesen, Larsen, Clemmensen, Munkholm, Rimvall, Rask and Skovgaard2015b), as well as larger effects of psychotic experiences in youths on psychotic v. non-psychotic disorders later in life according metanalytic evidence (Healy et al., Reference Healy, Brannigan, Dooley, Coughlan, Clarke, Kelleher and Cannon2019). Regarding genome-wide informed studies, meta-analytic evidence suggests shared genetic vulnerability between schizophrenia and psychotic experiences (Ronald & Pain, Reference Ronald and Pain2018). Subsequently, evidence from more than 100 000 individuals using data from the UK biobank showed that polygenic risk score for schizophrenia were indeed associated with psychotic experiences (Legge et al., Reference Legge, Jones, Kendall, Pardiñas, Menzies, Bracher-smith and Walters2019). However, there was strong evidence of non-specificity, given that polygenic risk scores for depression, bipolar-, and neurodevelopmental disorders were all associated with psychotic experiences (Legge et al., Reference Legge, Jones, Kendall, Pardiñas, Menzies, Bracher-smith and Walters2019). The evidence of non-specificity of the polygenic risk scores strengthens the notion of psychotic experiences as also environmentally dependent (on factors such as substance misuse, socioeconomic adversities in the family, and trauma) markers of transdiagnostic risk of mentally ill health (van Os & Reininghaus, Reference van Os and Reininghaus2016). Such environmental factors likely explain an important part of the variance in the findings in the current study.

Strikingly, in this general population sample we showed that psychotic experiences were indeed strongly and robustly associated across generations, whereas the role of parental depression, anxiety, and mental well-being were not independently associated with psychotic experiences in offspring in the mutually adjusted statistical models. Also, after further adjustment for general mental health problems of the child, the association between parental and youth psychotic experiences remained. Hence, the current study adds to the notion of specificity of subclinical psychotic expression by presenting novel evidence of familial clustering of psychosis at the lower end of the psychosis continuum. The findings in the current study might both reflect primary genetic effects of psychotic psychopathology as well as psychosocial distress and other detrimental social and environmental factors that might cluster in families (Bolhuis et al., Reference Bolhuis, Steenkamp, Tiemeier, Blanken, Pingault, Cecil and El Marroun2022; Newbury et al., Reference Newbury, Arseneault, Caspi, Moffitt, Odgers, Belsky and Fisher2022; Taylor, Freeman, Lundström, Larsson, & Ronald, Reference Taylor, Freeman, Lundström, Larsson and Ronald2022), and are likely to interact (Taylor et al., Reference Taylor, Freeman, Lundström, Larsson and Ronald2022). The dose-response finding in the current study (increased risk of psychotic experiences in youths when both parents reported psychotic experiences) might also reflect both shared genetic and environmental vulnerabilities. While it is well appreciated that prediction of clinical psychosis syndromes through clinical high-risk paradigms for psychosis is a very challenging task, especially in youths (Catalan et al., Reference Catalan, Salazar de Pablo, Vaquerizo Serrano, Mosillo, Baldwin, Fernández-Rivas and Fusar-Poli2021; Lång et al., Reference Lång, Yates, Leacy, Clarke, McNicholas, Cannon and Kelleher2022), the assessment of subclinical psychosis expression could improve the early identification of vulnerable youths, and wide-spread assessment of psychotic experiences has been suggested to inform identification of younger individuals at increased risk of developing severe psychopathology broadly (Cotter, Healy, Staines, Mongan, & Cannon, Reference Cotter, Healy, Staines, Mongan and Cannon2022).

The current study further calls for systematic consideration of the family systems that the youths are part of in clinical practice, as well as a family history of mental health problems beyond merely considering clinical diagnoses in relatives. Although we have presented evidence of specificity of psychosis vulnerability, based on the larger body of literature, we warn against assuming diagnostic specificity of psychotic experiences in families, but rather as vulnerability markers that should be considered within the broader context of the familial and social risks. Future studies may benefit from describing longitudinal patterns of psychotic experiences within family systems to further advise us on whether assessment of psychotic experiences in youths can contribute to targeting more in-depth assessments and possible service provision, particularly in families with clustering of psychotic experiences.

Supplementary material

The supplementary material for this article can be found at https://doi.org/10.1017/S0033291723003276.

Acknowledgements

The Lolland-Falster Health Study (LOFUS), Nykøbing Falster Hospital, Denmark, is a collaboration between Region Zealand, Nykøbing Falster Hospital, and Lolland and Guldborgsund Municipalities. The authors are grateful to LOFUS for making the LOFUS research data available. However, LOFUS bear no responsibility for the analyses, or the interpretation conducted within this study.

Funding statement

LOFUS is funded by Region Zealand, Nykøbing Falster Hospital, and Lolland and Guldborgsund municipalities (all Denmark). The child and adolescent study of LOFUS is further supported by Psychiatry Region Zealand, Mental Health Services – Capital Region of Denmark, and AP Møller's Medical Foundation (all Denmark).

Competing interests

None.

References

Alonso, J., Saha, S., Lim, C. C. W., Aguilar-Gaxiola, S., Al-Hamzawi, A., Benjet, C., … McGrath, J. J. (2018). The association between psychotic experiences and health-related quality of life: A cross-national analysis based on World Mental Health Surveys. Schizophrenia Research, 201(May), 4653. https://doi.org/10.1016/j.schres.2018.04.044.CrossRefGoogle ScholarPubMed
Austin, S. F., Hastrup, L. H., van Os, J., & Simonsen, E. (2023). Psychotic experiences and mental health outcomes in the general population: The Lolland-Falster Health Study. Schizophrenia Research, 260(October 2022), 8591. https://doi.org/10.1016/j.schres.2023.08.013.CrossRefGoogle ScholarPubMed
Bech, P., Rasmussen, N. A., Olsen, L. R., Noerholm, V., & Abildgaard, W. (2001). The sensitivity and specificity of the Major Depression Inventory, using the Present State Examination as the index of diagnostic validity. Journal of Affective Disorders, 66(2–3), 159164. https://doi.org/10.1016/S0165-0327(00)00309-8.CrossRefGoogle ScholarPubMed
Bolhuis, K., Steenkamp, L. R., Tiemeier, H., Blanken, L., Pingault, J.-B., Cecil, C. A. M., & El Marroun, H. (2022). A prospective cohort study on the intergenerational transmission of childhood adversity and subsequent risk of psychotic experiences in adolescence. Schizophrenia Bulletin, 49(3), 799808. https://doi.org/10.1093/schbul/sbac195.CrossRefGoogle Scholar
Calkins, M. E., Moore, T. M., Satterthwaite, T. D., Wolf, D. H., Turetsky, B. I., Roalf, D. R., … Gur, R. E. (2017). Persistence of psychosis spectrum symptoms in the Philadelphia Neurodevelopmental Cohort: A prospective two-year follow-up. World Psychiatry, 16(1), 6276. https://doi.org/10.1002/wps.20386.CrossRefGoogle ScholarPubMed
Catalan, A., Salazar de Pablo, G., Vaquerizo Serrano, J., Mosillo, P., Baldwin, H., Fernández-Rivas, A., … Fusar-Poli, P. (2021). Annual Research Review: Prevention of psychosis in adolescents – systematic review and meta-analysis of advances in detection, prognosis and intervention. Journal of Child Psychology and Psychiatry and Allied Disciplines, 62(5), 657673. https://doi.org/10.1111/jcpp.13322.CrossRefGoogle ScholarPubMed
Christensen, K. B., Packness, A., Simonsen, E., & Brodersen, J. (2023). (Preprint) Psychometric validation of the Danish version of the Major Depression Inventory using data from the Lolland-Falster Health Study (LOFUS). Research Square. https://doi.org/10.21203/rs.3.rs-2863674/v1.Google Scholar
Christensen, K. S., Packness, A., Pedersen, H. S., & Simonsen, E. (2022). Rasch analysis of the structural validity of the anxiety symptom scale in the Lolland-Falster Health Study. Journal of Affective Disorders, 303(July 2021), 5863. https://doi.org/10.1016/j.jad.2022.02.006.CrossRefGoogle ScholarPubMed
Cotter, D., Healy, C., Staines, L., Mongan, D., & Cannon, M. (2022). Broadening the parameters of clinical high risk for psychosis. American Journal of Psychiatry, 179(9), 593595. https://doi.org/10.1176/appi.ajp.20220612.CrossRefGoogle ScholarPubMed
Danish College of General Practitioners. (2010). Diagnotik og behandling af angstlidelser i almen praksis. Klinisk Vejledning for Almen Praksis. [Diagnosis and treatment of Anxiety Disorders in General Practice. Clinical guideline.]. Retrieved from https://vejledninger.dsam.dk/angst/.Google Scholar
DeVylder, J. E., Kelleher, I., Lalane, M., Oh, H., Link, B. G., & Koyanagi, A. (2018). Association of urbanicity with psychosis in low- and middle-income countries. JAMA Psychiatry, 75(7), 678686. https://doi.org/10.1001/jamapsychiatry.2018.0577.CrossRefGoogle ScholarPubMed
Egholm, C. L., Packness, A., Stokholm, J., Rasmussen, K., Ellervik, C., Simonsen, E., … Jepsen, R. (2020). Questionnaire development for the Lolland-Falster Health Study, Denmark: An iterative and incremental process. BMC Medical Research Methodology, 20(1), 17. https://doi.org/10.1186/s12874-020-00931-1.CrossRefGoogle ScholarPubMed
Goodman, R. (1997). The strengths and difficulties questionnaire: A research note. Journal of Child Psychology and Psychiatry and Allied Disciplines, 38(5), 581586. https://doi.org/10.1111/j.1469-7610.1997.tb01545.x.CrossRefGoogle ScholarPubMed
Gregersen, M., Møllegaard Jepsen, J. R., Rohd, S. B., Søndergaard, A., Brandt, J. M., Ellersgaard, D., … Elgaard Thorup, A. A. (2022). Developmental pathways and clinical outcomes of early childhood psychotic experiences in preadolescent children at familial high risk of schizophrenia or bipolar disorder: A prospective, longitudinal cohort study - The Danish high risk and resilience stud. The American Journal of Psychiatry, 179(9), 628639. https://doi.org/10.1176/appi.ajp.21101076.CrossRefGoogle ScholarPubMed
Gundersen, S. V., Goodman, R., Clemmensen, L., Rimvall, M. K., Munkholm, A., Rask, C. U., … Jeppesen, P. (2019). Concordance of child self-reported psychotic experiences with interview- and observer-based psychotic experiences. Early Intervention in Psychiatry, 13, 619626. https://doi.org/10.1111/eip.12547.CrossRefGoogle ScholarPubMed
Hanssen, M., Krabbendam, L., Vollema, M., Delespaul, P., & Van Os, J. (2006). Evidence for instrument and family-specific variation of subclinical psychosis dimensions in the general population. Journal of Abnormal Psychology, 115(1), 514. https://doi.org/10.1037/0021-843X.115.1.5.CrossRefGoogle ScholarPubMed
Healy, C., Brannigan, R., Dooley, N., Coughlan, H., Clarke, M., Kelleher, I., & Cannon, M. (2019). Childhood and adolescent psychotic experiences and risk of mental disorder: A systematic review and meta-analysis. Psychological Medicine, 49(10), 15891599. https://doi.org/10.1017/S0033291719000485.CrossRefGoogle ScholarPubMed
Healy, C., Campbell, D., Coughlan, H., Clarke, M., Kelleher, I., & Cannon, M. (2018). Childhood psychotic experiences are associated with poorer global functioning throughout adolescence and into early adulthood. Acta Psychiatrica Scandinavica, 138(1), 2634. https://doi.org/10.1111/acps.12907.CrossRefGoogle ScholarPubMed
Honings, S., Drukker, M., Groen, R., & van Os, J. (2016). Psychotic experiences and risk of self-injurious behaviour in the general population: A systematic review and meta-analysis. Psychological Medicine, 46(02), 237251. https://doi.org/10.1017/S0033291715001841.CrossRefGoogle ScholarPubMed
Horwood, J., Salvi, G., Thomas, K., Duffy, L., Gunnell, D., Hollis, C., … Harrison, G. (2008). IQ and non-clinical psychotic symptoms in 12-year-olds: Results from the ALSPAC birth cohort. British Journal of Psychiatry, 193(3), 185191. https://doi.org/10.1192/bjp.bp.108.051904.CrossRefGoogle ScholarPubMed
Huang, F. L. (2022). Analyzing cross-sectionally clustered data using generalized estimating equations. Journal of Educational and Behavioral Statistics, 47(1), 101125. https://doi.org/10.3102/10769986211017480.CrossRefGoogle Scholar
Jeppesen, P., Clemmensen, L., Munkholm, A., Rimvall, M. K., Rask, C. U., Jørgensen, T., … Skovgaard, A. M. (2015a). Psychotic experiences co-occur with sleep problems, negative affect and mental disorders in preadolescence. Journal of Child Psychology and Psychiatry, 56(5), 558565. https://doi.org/10.1111/jcpp.12319.CrossRefGoogle ScholarPubMed
Jeppesen, P., Larsen, J. T., Clemmensen, L., Munkholm, A., Rimvall, M. K., Rask, C. U., … Skovgaard, A. M. (2015b). The CCC2000 birth cohort study of register-based family history of mental disorders and psychotic experiences in offspring. Schizophrenia Bulletin, 41(5), 10841094. https://doi.org/10.1093/schbul/sbu167.CrossRefGoogle ScholarPubMed
Jepsen, R., Egholm, C. L., Brodersen, J., Simonsen, E., Grarup, J., Cyron, A., … Rasmussen, K. (2020a). Lolland-Falster Health Study: Study protocol for a household-based prospective cohort study. Scandinavian Journal of Public Health, 48(4), 382390. https://doi.org/10.1177/1403494818799613.CrossRefGoogle ScholarPubMed
Jepsen, R., Wingstrand, A., Abild, S. L., Ellervik, C., Simonsen, E., Rasmussen, K., & Andersen, Z. J. (2020b). Socio-economic determinants of participation in the Lolland-Falster health study. Journal of Public Health, 28(6), 657664. https://doi.org/10.1007/s10389-019-01095-z.CrossRefGoogle Scholar
Karcher, N. R., Barch, D. M., Avenevoli, S., Svaill, M., Huber, R. S., Simon, T. J., … Loewy, R. L. (2018). Assessment of the Prodromal Questionnaire–brief child version for measurement of self-reported psychoticlike experiences in childhood. JAMA Psychiatry, 75(8), 853861. https://doi.org/10.15154/1412097.CrossRefGoogle ScholarPubMed
Karcher, N. R., Loewy, R. L., Savill, M., Avenevoli, S., Huber, R. S., Simon, T. J., … Barch, D. M. (2020). Replication of associations with psychotic-like experiences in middle childhood from the adolescent brain cognitive development (ABCD) study. Schizophrenia Bulletin Open, 1(1), 113. https://doi.org/10.1093/schizbullopen/sgaa009.CrossRefGoogle ScholarPubMed
Kaymaz, N., Drukker, M., Lieb, R., Wittchen, H., Werbeloff, M., Lataster, T., & van Os, J. (2012). Do subthreshold psychotic experiences predict clinical outcomes in unselected non-help-seeking population-based samples? A systematic review and meta-analysis, enriched with new results. Psychological Medicine, 42, 22392253. https://doi.org/10.1017/S0033291711002911.CrossRefGoogle ScholarPubMed
Kelleher, I., Harley, M., Murtagh, A., & Cannon, M. (2011). Are screening instruments valid for psychotic-like experiences? A validation study of screening questions for psychotic-like experiences using in-depth clinical interview. Schizophrenia Bulletin, 37(2), 362369. https://doi.org/10.1093/schbul/sbp057.CrossRefGoogle ScholarPubMed
Kelleher, I., Keeley, H., Corcoran, P., Lynch, F., Fitzpatrick, C., Devlin, N., … Cannon, M. (2012). Clinicopathological significance of psychotic experiences in non-psychotic young people: Evidence from four population-based studies. British Journal of Psychiatry, 201(1), 2632. https://doi.org/10.1192/bjp.bp.111.101543.CrossRefGoogle ScholarPubMed
Koch, S., Zhang, J., Aggernaes, B., Andersen, Z., & Simonsen, E. (n.d.). Associations between adverse mental health in parents and mental health in children and adolescents measured by SDQ in a Danish rural cohort. In Preperation.Google Scholar
Lång, U., Yates, K., Leacy, F. P., Clarke, M. C., McNicholas, F., Cannon, M., & Kelleher, I. (2022). Systematic review and meta-analysis: Psychosis risk in children and adolescents with an at-risk mental state. Journal of the American Academy of Child and Adolescent Psychiatry, 61(5), 615625. https://doi.org/10.1016/j.jaac.2021.07.593.CrossRefGoogle ScholarPubMed
Legge, S. E., Jones, H. J., Kendall, K. M., Pardiñas, A. F., Menzies, G., Bracher-smith, M., … Walters, J. T. R. (2019). Association of genetic liability to psychotic experiences with neuropsychotic disorders and traits. JAMA Psychiatry, 76(12), 12561265. https://doi.org/10.1001/jamapsychiatry.2019.2508.CrossRefGoogle ScholarPubMed
Linscott, R. J., & van Os, J. (2013). An updated and conservative systematic review and meta-analysis of epidemiological evidence on psychotic experiences in children and adults: On the pathway from proneness to persistence to dimensional expression across mental disorders. Psychological Medicine, 43(06), 11331149. https://doi.org/10.1017/S0033291712001626.CrossRefGoogle ScholarPubMed
MacKenzie, L. E., Abidi, S., Fisher, H. L., Propper, L., Bagnell, A., Morash-Conway, J., … Uher, R. (2016). Stimulant medication and psychotic symptoms in offspring of parents with mental Illness. Pediatrics, 137(1), 110. https://doi.org/10.1542/peds.2015-2486.CrossRefGoogle ScholarPubMed
McNeish, D. (2019). Effect partitioning in cross-sectionally clustered data without multilevel models. Multivariate Behavioral Research, 54(6), 906925. https://doi.org/10.1080/00273171.2019.1602504.CrossRefGoogle ScholarPubMed
McNeish, D., Stapleton, L. M., & Silverman, R. D. (2017). On the unnecessary ubiquity of hierarchical linear modeling. Psychological Methods, 22(1), 114140. https://doi.org/10.1037/met0000078.CrossRefGoogle ScholarPubMed
Monshouwer, K., ten Have, M., Tuithof, M., van Dorsselaer, S., Bak, M., Gunter, N., … de Graaf, R. (2023). Prevalence, incidence, and persistence of psychotic experiences in the general population: Results of a 9-year follow-up study. Psychological Medicine, 53 (8), 3750–3761. https://doi.org/10.1017/s0033291722002690.Google ScholarPubMed
Newbury, J. B., Arseneault, L., Caspi, A., Moffitt, T. E., Odgers, C. L., Belsky, D. W., … Fisher, H. L. (2022). Association between genetic and socioenvironmental risk for schizophrenia during upbringing in a UK longitudinal cohort. Psychological Medicine, 52, 15271537. https://doi.org/10.1017/S0033291720003347.CrossRefGoogle Scholar
Nielsen, M. G., Ørnbøl, E., Bech, P., Vestergaard, M., & Christensen, K. S. (2017). The criterion validity of the web-based major depression inventory when used on clinical suspicion of depression in primary care. Clinical Epidemiology, 9, 355365. https://doi.org/10.2147/CLEP.S132913.CrossRefGoogle ScholarPubMed
Ottosen, M. H., & Stage, S. (2012). Delebørn i tal. En analyse af skilsmissebørns samvær baseret på SFI's børneforløbsundersøgelse (Report).Google Scholar
Packness, A., Sparle Christensen, K., & Simonsen, E. (2023). Concurrent validity of the anxiety symptom-scale compared to two well-being scales: Results from the Lolland-Falster health study. Nordic Journal of Psychiatry, 77(6), 532539. https://doi.org/10.1080/08039488.2023.2174593.CrossRefGoogle ScholarPubMed
Pedersen, C. B. (2011). The Danish civil registration system. Scandinavian Journal of Public Health, 39(September 2010), 2225. https://doi.org/10.1177/1403494810387965.CrossRefGoogle ScholarPubMed
Petersen, T. L., Brønd, J. C., Benfeldt, E., & Jepsen, R. (2022). Integrity and performance of four tape solutions for mounting accelerometry devices: Lolland-Falster health study. Journal for the Measurement of Physical Behaviour, 5(4), 224232. https://doi.org/10.1123/jmpb.2022-0024.CrossRefGoogle Scholar
Polanczyk, G., Moffitt, T. E., Arseneault, L., Cannon, M., Ambler, A., Keefe, R. S. E., … Caspi, A. (2010). Etiological and clinical features of childhood psychotic symptoms. Archives of General Psychiatry, 67(4), 328338.10.1001/archgenpsychiatry.2010.14CrossRefGoogle ScholarPubMed
Rimvall, M. K., Gundersen, S., Clemmensen, L., Munkholm, A., Larsen, J. T., Skovgaard, A. M., … Jeppesen, P. (2019). Evidence that self-reported psychotic experiences in children are clinically relevant. Schizophrenia Research, 204, 415416. https://doi.org/10.1016/j.schres.2018.08.003.CrossRefGoogle ScholarPubMed
Rimvall, M. K., van Os, J., Rask, C. U., Olsen, E. M., Skovgaard, A. M., Clemmensen, L., … Jeppesen, P. (2020a). Psychotic experiences from preadolescence to adolescence: When should we be worried about adolescent risk behaviors? European Child & Adolescent Psychiatry, 29(9), 12511264. https://doi.org/10.1007/s00787-019-01439-w.CrossRefGoogle ScholarPubMed
Rimvall, M. K., van Os, J., Verhulst, F., Wolf, R. T., Larsen, J. T., Clemmensen, L., … Jeppesen, P. (2020b). Mental health service use and psychopharmacological treatment following psychotic experiences in preadolescence. American Journal of Psychiatry, 177(4), 318326. https://doi.org/https://doi.org/10.1176/appi.ajp.2019.19070724.CrossRefGoogle ScholarPubMed
Rimvall, M. K., Wolf, R. T., Olsen, E. M., Skovgaard, A. M., Clemmensen, L., Oxholm, A. S., … Jeppesen, P. (2021). Healthcare costs, school performance, and health-related quality of life in adolescence following psychotic experiences in preadolescence: A longitudinal cohort study. Schizophrenia Bulletin, 47(3), 682691. https://doi.org/10.1093/schbul/sbaa175.CrossRefGoogle ScholarPubMed
Ronald, A., & Pain, O. (2018). A systematic review of genome-wide research on psychotic experiences and negative symptom traits: New revelations and implications for psychiatry. Human Molecular Genetics, 27(R2), R136R152. https://doi.org/10.1093/hmg/ddy157/4993962.Google ScholarPubMed
Staines, L., Healy, C., Cotter, D., Kelleher, I., Murphy, F., & Cannon, M. (2023). Incidence and recurrence of psychotic experiences in the general population – systematic review and meta-analysis. Schizophrenia Bulletin, 49(4), 1007–1021. https://doi.org/10.1016/j.nsa.2022.100671.CrossRefGoogle Scholar
Sullivan, P. F., Kendler, K. S., & Neale, M. C. (2003). Schizophrenia as a complex trait. Archives of General Psychiatry, 60(12), 1187. https://doi.org/10.1001/archpsyc.60.12.1187.CrossRefGoogle ScholarPubMed
Taylor, M. J., Freeman, D., Lundström, S., Larsson, H., & Ronald, A. (2022). Heritability of psychotic experiences in adolescents and interaction with environmental risk. JAMA Psychiatry, 79(9), 889897. https://doi.org/10.1001/jamapsychiatry.2022.1947.CrossRefGoogle ScholarPubMed
Thapar, A., Heron, J., Jones, R. B., Owen, M. J., Lewis, G., & Zammit, S. (2012). Trajectories of change in self-reported psychotic-like experiences in childhood and adolescence. Schizophrenia Research, 140(1–3), 104109. https://doi.org/10.1016/j.schres.2012.06.024.CrossRefGoogle ScholarPubMed
Topp, C. W., Østergaard, S. D., Søndergaard, S., & Bech, P. (2015). The WHO-5 well-being index: A systematic review of the literature. Psychotherapy and Psychosomatics, 84(3), 167176. https://doi.org/10.1159/000376585.CrossRefGoogle ScholarPubMed
van Os, J., Kenis, G., & Rutten, B. P. (2010). The environment and schizophrenia. Nature, 468(7321), 203212. https://doi.org/10.1038/nature09563.CrossRefGoogle ScholarPubMed
van Os, J., & Reininghaus, U. (2016). Psychosis as a transdiagnostic and extended phenotype in the general population. World Psychiatry, 15(June), 118124. https://doi.org/10.1002/wps.20310.CrossRefGoogle ScholarPubMed
Vassos, E., Pedersen, C. B., Murray, R. M., Collier, D. A., & Lewis, C. M. (2012). Meta-analysis of the association of urbanicity with schizophrenia. Schizophrenia Bulletin, 38(6), 11181123. https://doi.org/10.1093/schbul/sbs096.CrossRefGoogle ScholarPubMed
Wigman, J. T. W., van Winkel, R., Ormel, J., Verhulst, F. C., van Os, J., & Vollebergh, W. A. M. (2012). Early trauma and familial risk in the development of the extended psychosis phenotype in adolescence. Acta Psychiatrica Scandinavica, 126(4), 266273. https://doi.org/10.1111/j.1600-0447.2012.01857.x.CrossRefGoogle ScholarPubMed
Yates, K., Lång, U., Cederlöf, M., Boland, F., Taylor, P., Cannon, M., … Kelleher, I. (2019). Association of psychotic experiences with subsequent risk of suicidal ideation, suicide attempts, and suicide deaths: A systematic review and meta-analysis of longitudinal population studies. JAMA Psychiatry, 76(2), 180189. https://doi.org/10.1001/jamapsychiatry.2018.3514.CrossRefGoogle ScholarPubMed
Zammit, S., Horwood, J., Thompson, A., Thomas, K., Menezes, P., Gunnell, D., … Harrison, G. (2008). Investigating if psychosis-like symptoms (PLIKS) are associated with family history of schizophrenia or paternal age in the ALSPAC birth cohort. Schizophrenia Research, 104(1–3), 279286. https://doi.org/10.1016/j.schres.2008.04.036.CrossRefGoogle ScholarPubMed
Figure 0

Table 1. Sociodemographic characteristics and frequency of reporting of psychotic experiences

Figure 1

Table 2. Univariate models: Associations between parental factors and offspring psychotic experiences for mothers and fathers separately

Figure 2

Table 3. Multivariate models: Associations between parental factors (mutually adjusted) and offspring psychotic experiences for mothers and fathers separately

Supplementary material: File

Rimvall et al. supplementary material 1

Rimvall et al. supplementary material
Download Rimvall et al. supplementary material 1(File)
File 18.3 KB
Supplementary material: File

Rimvall et al. supplementary material 2

Rimvall et al. supplementary material
Download Rimvall et al. supplementary material 2(File)
File 26.6 KB